College of Engineering - University of Tennessee Digital Library ...
College of Engineering - University of Tennessee Digital Library ...
College of Engineering - University of Tennessee Digital Library ...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
William K . Stair, Acting Dean<br />
William A . Miller, Associate Dean<br />
The engineer applies mathematical and<br />
scientific knowledge in planning economical<br />
ways <strong>of</strong> providing materials and energy in<br />
forms that are useful to humankind . !n today's<br />
technology-based society, everyone feels the<br />
effects <strong>of</strong> the engineer's plans and decisions .<br />
Hence, there is a continuing and urgent need<br />
for engineering graduates who possess a<br />
thorough understanding <strong>of</strong> mathematical and<br />
scientific principles, who can apply these<br />
principles to the solution <strong>of</strong> practical<br />
problems, and who can view the solutions in<br />
their overall social perspective so that the<br />
actions that they recommend will be truly<br />
beneficial . It is the purpose <strong>of</strong> the <strong>College</strong> <strong>of</strong><br />
<strong>Engineering</strong> to educate men and women to<br />
the high levels <strong>of</strong> technical competence and<br />
social understanding that will enable them to<br />
fulfill their responsibilities as pr<strong>of</strong>essional<br />
engineers .<br />
Graduates <strong>of</strong> the B .S . curricula <strong>of</strong>fered by<br />
the college may enter directly a position in<br />
industry, government, or private practice, or<br />
may pursue advanced study in graduate<br />
school . Their pr<strong>of</strong>essional activities include<br />
research, development, design, operations,<br />
analysis, construction, production<br />
supervision, and technical sales . Many<br />
practice their pr<strong>of</strong>ession in <strong>Tennessee</strong> ; but<br />
engineering knows no geographical bounds,<br />
and graduates <strong>of</strong> the college serve<br />
throughout the nation and in other countries<br />
as well .<br />
The college had its beginnings early in the<br />
history <strong>of</strong> the <strong>University</strong> when surveying was<br />
introduced into the curriculum in 1838 . In<br />
1877 civil engineering was first recognized as<br />
a curriculum . The first mechanical course<br />
appeared in about 1847 ; other mechanical<br />
courses followed, and in 1877 this body <strong>of</strong><br />
studies was designated as mechanical<br />
engineering . By 1877 mining had found a<br />
place in the <strong>University</strong>, but it was later<br />
dropped . Electrical engineering appeared in<br />
about 1896, when a Pr<strong>of</strong>essor <strong>of</strong> Physics and<br />
Electrical <strong>Engineering</strong> was appointed .<br />
Although metallurgy was announced in the<br />
catalog as early as 1888, it was dormant until it<br />
was revived in the Department <strong>of</strong> Chemical<br />
<strong>Engineering</strong> shortly after 1940 . A separate<br />
degree in metallurgical engineering was<br />
authorized in 1957 . Although the rudiments <strong>of</strong><br />
chemical engineering appeared in the form <strong>of</strong><br />
industrial chemistry shortly after 1900, a full<br />
chemical engineering program and a<br />
department were not established until 1936 .<br />
Industrial engineering was introduced in<br />
1940, was dropped for a time during the war<br />
years, and was reinstated in 1947 .<br />
Nuclear engineering was established as a<br />
separate curriculum in 1957 in response to<br />
the rapidly increasing demand for engineers<br />
with a knowledge <strong>of</strong> nuclear phenomena .<br />
<strong>Engineering</strong> physics, a program operated<br />
jointly with the physics department, first<br />
appeared as an engineering curriculum<br />
around 1942 . Curricula in aerospace<br />
engineering and engineering mechanics<br />
were added in 1966, and a curriculum in<br />
engineering science was added in 1967 .<br />
The first dean <strong>of</strong> the college, Pr<strong>of</strong>essor<br />
Charles E . Ferris, was appointed in 1912 . Prior<br />
to that time the engineering programs were<br />
organized as a school, with a chairman <strong>of</strong> the<br />
faculty . Other former deans are Nathan W .<br />
Dougherty, who served from 1940 to 1956,<br />
Armour T . Granger, who served from 1956 to<br />
1965, Charles H . Weaver, who served from<br />
1965to 1968, and Fred N . Peebles, who served<br />
from 1968 to 1980 .<br />
The Cooperative <strong>Engineering</strong> Program was<br />
established in 1926 . The <strong>University</strong> <strong>of</strong><br />
<strong>Tennessee</strong> was one <strong>of</strong> the early pioneers in<br />
this valuable type <strong>of</strong> education, which<br />
originated at the <strong>University</strong> <strong>of</strong> Cincinnati in<br />
1905 . A Cooperative <strong>Engineering</strong> Scholarship<br />
Program was formally established in 1957,<br />
with emphasis on participation bystudents <strong>of</strong><br />
superior ability. A conventional cooperative<br />
program, open essentially to all students in<br />
good standing in the college, was<br />
re-established in 1967 .<br />
The <strong>Engineering</strong> Experiment Station was<br />
established in 1922 .<br />
The college has ten major undergraduate<br />
curricula in which a student may specialize :<br />
124<br />
areospace, chemical, civil, electrical,<br />
industrial, mechanical, metallurgical, nuclear<br />
engineering, engineering physics, and<br />
engineering science .<br />
Agricultural engineering is taught in the<br />
<strong>College</strong> <strong>of</strong> Agriculture with facilities located<br />
on the Agricultural Campus . The agricultural<br />
engineering curriculum is <strong>of</strong>fered<br />
cooperatively by the <strong>College</strong> <strong>of</strong> Agriculture<br />
and the <strong>College</strong> <strong>of</strong> <strong>Engineering</strong> . Details <strong>of</strong> the<br />
curriculum may be found in the <strong>College</strong> <strong>of</strong><br />
Agriculture section <strong>of</strong> this catalog .<br />
Facilities<br />
The <strong>College</strong> <strong>of</strong> <strong>Engineering</strong> is housed in<br />
Ferris, Estabrook, Perkins, Dougherty, and<br />
Berry Halls, and the Nuclear <strong>Engineering</strong><br />
Building, all located on the southeastern end<br />
<strong>of</strong> the campus .<br />
Ferris Hall . This building houses the<br />
<strong>of</strong>fices, laboratories, and shops <strong>of</strong> the<br />
electrical engineering department and the<br />
Water Resources Laboratory . There is alsoan<br />
auditorium with a seating capacity <strong>of</strong> about<br />
300 persons, and a remote input/output<br />
terminal connecting with The <strong>University</strong> <strong>of</strong><br />
<strong>Tennessee</strong> Computing Center .<br />
Estabrook Hall. Some operations <strong>of</strong> the<br />
Departments <strong>of</strong> Civil <strong>Engineering</strong> and<br />
<strong>Engineering</strong> Science and Mechanics, and <strong>of</strong><br />
the <strong>Engineering</strong> Experiment Station are<br />
carried on in Estabrook Hall .<br />
Perkins Hall . This building houses the<br />
Departments <strong>of</strong> Civil <strong>Engineering</strong>,<br />
<strong>Engineering</strong> Science and Mechanics,<br />
Industrial <strong>Engineering</strong>, and the Office <strong>of</strong> the<br />
Dean <strong>of</strong> the <strong>College</strong> <strong>of</strong> <strong>Engineering</strong> . The<br />
building contains laboratories, drafting<br />
rooms, and a small auditorium with a capacity<br />
<strong>of</strong> about 80 persons .<br />
Nuclear <strong>Engineering</strong> Building . This<br />
building houses operations <strong>of</strong> the nuclear<br />
engineering department and it contains<br />
laboratories and equipment for monitoring,<br />
counting, and investigating various nuclear<br />
phenomena ; it also houses subcritical<br />
reactors .<br />
Nathan W . Dougherty <strong>Engineering</strong><br />
Building . This building, the most recent and<br />
largest <strong>of</strong> the engineering buildings, houses<br />
the Departments <strong>of</strong> Chemical, Metallurgical,
and Polymer <strong>Engineering</strong>, and Mechanical<br />
and Aerospace <strong>Engineering</strong> . In addition to<br />
classrooms and instructional laboratories, it<br />
provides modern facilities forvarious types<strong>of</strong><br />
research .<br />
Berry Hall . This building is used by the<br />
Department <strong>of</strong> Civil <strong>Engineering</strong> and the<br />
<strong>Engineering</strong> Experiment Station .<br />
Tau Beta Pi<br />
National Headquarters<br />
The college is honored to have the National<br />
Headquarters <strong>of</strong> Tau Beta Pi, the National<br />
<strong>Engineering</strong> Honor Society, housed on our<br />
campus . This honor was earned in part<br />
through the untiring efforts <strong>of</strong> R .C . "Red"<br />
Matthews, who served as secretary-treasurer<br />
for the organization from 1905 to 1947 . The<br />
suite <strong>of</strong> <strong>of</strong>fices, located in Dougherty Hall, is<br />
occupied by Mr . R .H . Nagel,<br />
secretary-treasurer, and his staff .<br />
Chi Epsilon<br />
National Headquarters<br />
The college is also honored to have the<br />
National Headquarters <strong>of</strong> Chi Epsilon, the<br />
National Civil <strong>Engineering</strong> Honor Society,<br />
located in Perkins Hall . Chi Epsilon was<br />
founded in 1922 . Dexter C . Jameson, Jr .,<br />
associate pr<strong>of</strong>essor <strong>of</strong> civil engineering,<br />
serves as the first executive secretary <strong>of</strong> Chi<br />
Epsilon .<br />
Cooperative <strong>Engineering</strong> Program<br />
The five-year Cooperative <strong>Engineering</strong><br />
Program is <strong>of</strong>fered to students in the college<br />
in order to provide a superior engineering<br />
education that affords the opportunity to<br />
combine significant experience in industry<br />
with academic preparation .<br />
Cooperative work assignments differ from<br />
part-time or summer employment in that they<br />
involve regularly scheduled cycles <strong>of</strong> full-time<br />
academic quarters alternated with full-time<br />
work quarters-usually seven, a minimum <strong>of</strong><br />
five-in career-related, planned assignments<br />
<strong>of</strong> progressive complexity and responsibility .<br />
In exposing the student in this manner to the<br />
world <strong>of</strong> work, the college and the facilities <strong>of</strong><br />
industry join together to <strong>of</strong>fer a broader and<br />
richer preparation for postgraduate<br />
employment and for life in general than can<br />
be provided by a conventional academic<br />
program alone . This experience in an<br />
industrial and pr<strong>of</strong>essional environment<br />
contributes to the student's maturity,<br />
increases the scope <strong>of</strong> acquaintances and<br />
concepts, and enables the student to define<br />
more clearly educational and career interests<br />
and objectives . Some <strong>of</strong> the experience<br />
received is at a subpr<strong>of</strong>essional level not<br />
available to an engineer after graduation, yet<br />
is <strong>of</strong> great significance in total education and<br />
effectiveness .<br />
Admission to the Cooperative <strong>Engineering</strong><br />
Program is open to any student in the college<br />
(or in agricultural engineering in the <strong>College</strong><br />
<strong>of</strong> Agriculture) who is in good standing,<br />
whose record indicates capability and<br />
dependability, and who is acceptable to a<br />
co-op employer . In general, work periods<br />
begin at the end <strong>of</strong> the second or third quarter<br />
<strong>of</strong> the freshman year and continue for seven<br />
alternating work and school cycles .<br />
Applicants must be able to schedule a<br />
minimum <strong>of</strong> five such cycles before the<br />
beginning <strong>of</strong> their senior work in order to<br />
qualify for co-op placement .<br />
Students in the Cooperative <strong>Engineering</strong><br />
Program are classified as follows in terms <strong>of</strong><br />
quarter hours credit <strong>of</strong> completed courses :<br />
Freshman 0- 52 .9<br />
Sophomore 53-103 .9<br />
Junior<br />
104-153 .9<br />
Senior 154-up<br />
Academic schedules for co-op students are<br />
shown elsewhere in this section . A brochure<br />
with further details may be obtained from the<br />
Office <strong>of</strong> the Coordinator, Cooperative<br />
<strong>Engineering</strong> Program, <strong>College</strong> <strong>of</strong><br />
<strong>Engineering</strong> .<br />
Binary Program<br />
A binary program in engineering is<br />
available . The college has agreements with a<br />
number <strong>of</strong> liberal arts colleges to conduct a<br />
five-year program, three years <strong>of</strong> which will be<br />
given at the liberal arts college and the last<br />
two years at The <strong>University</strong> <strong>of</strong> <strong>Tennessee</strong> in<br />
engineering . At the end <strong>of</strong> the fifth year, the<br />
college will award a baccalaureate degree in<br />
one <strong>of</strong> the branches <strong>of</strong> engineering .<br />
Institutions cooperating with The<br />
<strong>University</strong> <strong>of</strong> <strong>Tennessee</strong> in <strong>of</strong>fering this<br />
Liberal Arts-<strong>Engineering</strong> 3-2 Binary Plan<br />
include :<br />
Belmont <strong>College</strong>, Nashville, <strong>Tennessee</strong><br />
Bethel <strong>College</strong>, McKenzie, <strong>Tennessee</strong><br />
Carson-Newman <strong>College</strong>, Jefferson<br />
City, <strong>Tennessee</strong><br />
David Lipscomb <strong>College</strong>, Nashville,<br />
<strong>Tennessee</strong><br />
East <strong>Tennessee</strong> State <strong>University</strong>,<br />
Johnson City, <strong>Tennessee</strong><br />
King <strong>College</strong>, Bristol, <strong>Tennessee</strong><br />
Knoxville <strong>College</strong>, Knoxville,<br />
<strong>Tennessee</strong><br />
Maryville <strong>College</strong>, Maryville, <strong>Tennessee</strong><br />
Middle <strong>Tennessee</strong> State <strong>University</strong>,<br />
Murfreesboro, <strong>Tennessee</strong><br />
Southwestern <strong>University</strong>, Memphis,<br />
<strong>Tennessee</strong><br />
<strong>Tennessee</strong> Wesleyan <strong>College</strong>, Athens,<br />
<strong>Tennessee</strong><br />
Union <strong>University</strong>, Jackson, <strong>Tennessee</strong><br />
Questions about courses to be taken in<br />
preparation for transfer to The <strong>University</strong> <strong>of</strong><br />
<strong>Tennessee</strong> may be directed to the dean <strong>of</strong><br />
engineering .<br />
Graduate Program<br />
GENERAL<br />
Graduate programs leading to the degree<br />
<strong>of</strong> Master <strong>of</strong> Science are <strong>of</strong>fered in all areas <strong>of</strong><br />
study, and the degree <strong>of</strong> Doctor<strong>of</strong> Philosophy<br />
is <strong>of</strong>fered in eight major subjects : aerospace<br />
engineering, chemical engineering, electrical<br />
engineering, engineering science,<br />
mechanical engineering, metallurgical<br />
engineering, nuclear engineering, and<br />
polymer engineering . A Master <strong>of</strong><br />
<strong>Engineering</strong> degree focusing on engineering<br />
design and pr<strong>of</strong>essional practice is <strong>of</strong>fered in<br />
aerospace, civil, electrical, environmental,<br />
industrial, mechanical, and nuclear<br />
engineering . Information concerning<br />
graduate programs is given in the Graduate<br />
Catalog<br />
MASTER OF SCIENCE PROGRAM<br />
IN ENGINEERING ADMINISTRATION<br />
A program leading to the degree <strong>of</strong> Master<br />
<strong>of</strong> Science with a major in engineering<br />
administration is <strong>of</strong>fered . This is an<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
125<br />
engineering program, directed toward<br />
preparing individuals for line management<br />
positions in construction, design,<br />
development, manufacturing, etc ., where<br />
both technical and non-technical factors<br />
exert significant influence on the success <strong>of</strong> a<br />
given activity . Policy direction and<br />
administration <strong>of</strong> the program are provided<br />
by an <strong>Engineering</strong> Administration<br />
Committee, consisting <strong>of</strong> representatives<br />
from participating departments in the <strong>College</strong><br />
<strong>of</strong> <strong>Engineering</strong> and Business Administration,<br />
and a chairman appointed by the dean <strong>of</strong><br />
engineering . Further information is provided<br />
in the Graduate Catalog .<br />
Graduate Program<br />
at the UT Space Institute<br />
At The <strong>University</strong> <strong>of</strong> <strong>Tennessee</strong> Space<br />
Institute near Tullahoma, graduate-level<br />
courses are <strong>of</strong>fered in engineering fields such<br />
as aerospace, electrical, and mechanical<br />
engineering, and in mathematics and<br />
physics . Current programs lead to the M .S .<br />
and Ph .D . degrees . Many members <strong>of</strong> the<br />
faculty <strong>of</strong> the Space Institute are also<br />
members <strong>of</strong> the faculty <strong>of</strong> the college at The<br />
<strong>University</strong> <strong>of</strong> <strong>Tennessee</strong>, Knoxville .<br />
<strong>Engineering</strong> Experiment Station<br />
William K . Stair, Associate Director<br />
The management <strong>of</strong> the <strong>Engineering</strong><br />
Experiment Station is vested in the president<br />
<strong>of</strong> the <strong>University</strong>, the dean <strong>of</strong> engineering, the<br />
director, and the associate director .<br />
An advisory committee consisting <strong>of</strong> the<br />
heads <strong>of</strong> the departments <strong>of</strong> the college and<br />
the heads <strong>of</strong> departments in allied scientific<br />
fields may assist in determining policy and<br />
procedures . Members <strong>of</strong> the faculty <strong>of</strong> the<br />
college are available for consultation and<br />
advice in technical matters .<br />
The station is organized to conduct<br />
research underlying engineering practice<br />
and to aid in the development <strong>of</strong> the state's<br />
resources and industries ins<strong>of</strong>ar as funds<br />
available will permit. Inquiries from industries<br />
concerning technical questions which<br />
interest them are welcomed .<br />
The station may also make special<br />
arrangements with any person orcompanyto<br />
study any technical question within the<br />
capacity <strong>of</strong> its resources, and to report the<br />
results exclusively to the company requesting<br />
the study . In such cases, the whole expense<br />
will be carried by the parties requesting the<br />
investigation .<br />
Bulletins are published from time to time<br />
giving the results <strong>of</strong> various investigations .<br />
Upon request, unpublished results <strong>of</strong> current<br />
studies are made available to interested<br />
parties .<br />
Curricula in <strong>Engineering</strong><br />
NATIONAL ACCREDITATION<br />
Since 1936 engineering programs at<br />
institutions <strong>of</strong> higher learning have been<br />
accredited by the Engineers Council for<br />
Pr<strong>of</strong>essional Development (ECPD), an<br />
organization formed by many engineering<br />
societies . The accrediting organization is<br />
now known as the Accreditation Board for<br />
<strong>Engineering</strong> and Technology (ABET) .<br />
Currently accredited engineering curricula at<br />
UTK include aerospace, agricultural,<br />
chemical, civil, electrical, engineering
12 6 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
science, industrial, mechanical,<br />
metallurgical, and nuclear . The advanced<br />
pr<strong>of</strong>essional programs are also accredited in<br />
civil, electrical, environmental, mechanical,<br />
and nuclear engineering .<br />
COURSE LOAD<br />
The maximum number <strong>of</strong> hours which can<br />
betaken by an undergraduate without special<br />
permission is 19 hours . The dean <strong>of</strong><br />
engineering must give permission to take 20<br />
hours or more .<br />
DROP DEADLINE<br />
All students (whether engineering majors<br />
or not) enrolled in undergraduate coures<br />
taught within the <strong>College</strong> <strong>of</strong> <strong>Engineering</strong> may,<br />
on their own initiative, withdraw from a<br />
course within six calendar days from the first<br />
day <strong>of</strong> class (through the day preceding the<br />
add deadline for the campus) . Withdrawal<br />
from any such course for any reason after the<br />
sixth day must be in accord with <strong>of</strong>ficial late<br />
drop procedures (see page 25) .<br />
GPA COMPUTATION<br />
All grades are to be counted in computing<br />
the grade point average, except up to 12<br />
hours <strong>of</strong> repeatable grades for which the last<br />
grade shall count (see page 16) . This<br />
computation is applied to all coures taken by<br />
an undergraduate engineering student,<br />
regardless <strong>of</strong> the courses involved or where<br />
they were taken . The policy applies to all<br />
engineering students entering higher<br />
education after September 1, 1979 .<br />
GENERAL REQUIREMENTS<br />
NOTE : Students are advised to consult the<br />
<strong>University</strong>'s degree requirements as stated in<br />
the front section <strong>of</strong> this catalog as well as<br />
departmental requirements.<br />
Inspection Trip. Each candidate for<br />
graduation majoring in aerospace,<br />
mechanical, chemical, or metallurgical<br />
engineering must participate in inspection<br />
trips scheduled by the major department .<br />
Transfer Credit. Everyattempt will be made<br />
to give maximum credit for courses taken<br />
elsewhere and transferred to the college .<br />
Discussions concerning the evaluation <strong>of</strong><br />
transfer credits should be conducted with the<br />
head <strong>of</strong> the department into which the<br />
student proposes to transfer following the<br />
evaluation <strong>of</strong> transfer credits by the<br />
Admissions Office .<br />
Program for Second B .S. Degree . Upon<br />
approval by the dean <strong>of</strong> engineering and the<br />
Committee on Degrees <strong>of</strong> a program <strong>of</strong> study<br />
recommended by the major engineering<br />
department, a student who already holds a<br />
bachelor's degree may obtain the appropriate<br />
first degree in engineering upon completion<br />
<strong>of</strong> a minimum <strong>of</strong> 45 quarter hours' credit . The<br />
prevailing <strong>University</strong> regulations shall apply<br />
(see page 27) .<br />
Satisfactory/No Credit Courses . An<br />
undergraduate engineering student may<br />
count toward a degree up to 12 quarter hours<br />
obtained by Satisfactory/No Credit (S/NC)<br />
grading . Such courses must be used for<br />
humanistic-social (non-technical) elective<br />
credit in engineering . <strong>Engineering</strong> courses<br />
carrying only S/NC grading do not count in<br />
this limit .<br />
Correspondence Courses . A student<br />
should check with his or her major<br />
department to see what restrictions there are,<br />
if any, on the use <strong>of</strong> correspondence course<br />
credit to meet the minimum degree<br />
requirements . Approval <strong>of</strong> department head<br />
or adviser and Dean is required to register.<br />
Humanities and Social Studies Electives.<br />
The college assumes an obligation to include<br />
in each <strong>of</strong> the engineering curricula a means<br />
whereby students gain greater insight into<br />
their interaction with society, both personally<br />
and pr<strong>of</strong>essionally . Forthis purpose, a part <strong>of</strong><br />
each engineering curriculum is devoted to<br />
humanities and social studies electives .<br />
Broadly stated, these electives serve a<br />
three-fold need : to provide an expanded<br />
sensitivity to the human aspects <strong>of</strong> the<br />
practice <strong>of</strong> engineering ; to enrich the<br />
student's knowledge <strong>of</strong> the world in which he<br />
or she lives-its culture, behavior patterns,<br />
history, and governance ; and to provide a<br />
basis for the appreciation <strong>of</strong> and the ability to<br />
deal with complex interactions between<br />
technology and society in the contemporary<br />
world . Engineers are now working with new<br />
constraints that demand a consciousness <strong>of</strong><br />
the social and political implications <strong>of</strong> their<br />
work . They are interacting with the public in<br />
explaining their work as the public demands<br />
greater participation in the decision-making<br />
process concerning the utilization <strong>of</strong><br />
technology . Because <strong>of</strong> the significance <strong>of</strong><br />
this technology-society interaction,<br />
engineering students are encouraged to<br />
seriously consider their selection <strong>of</strong> required<br />
electives in this area .<br />
Students are urged to plan a non-technical<br />
electives program which will enhance their<br />
own interests and objectives . It is recognized<br />
that, just as engineers show individual<br />
preference for concentration in one <strong>of</strong> the<br />
areas <strong>of</strong> engineering, they differ in their<br />
interests in the many areas <strong>of</strong> the humanities<br />
and social sciences . However, these subjects<br />
should be pursued with sufficient depth in<br />
terms <strong>of</strong> courses to permit a reasonable level<br />
<strong>of</strong> comprehension <strong>of</strong> the selected areas . In<br />
order to increase the effectiveness <strong>of</strong> this<br />
interest and to meet ABET accreditation<br />
guidelines, the Humanities and Social<br />
Studies Electives Committee <strong>of</strong> the college<br />
provides a list <strong>of</strong>approved courses in the form<br />
<strong>of</strong> 13 coherent groups <strong>of</strong> courses identified in<br />
three broad areas as shown in the list .<br />
Courses in the list which follows are<br />
selected by the committee with revisions as<br />
course <strong>of</strong>ferings and needs change . They are<br />
recommended as satisfying the non-technical<br />
(humanistic-social) electives requirement in<br />
the various curricula <strong>of</strong> the college . However,<br />
the structure and permissible courses <strong>of</strong> the<br />
non-technical elective content <strong>of</strong> each<br />
engineering curriculum are established by<br />
the respective departments . Therefore,<br />
individual departments may delete courses<br />
from this list, require certain courses, or<br />
require selection <strong>of</strong> courses from specific<br />
subgroups . Students should consult their<br />
departments for any restrictions .<br />
It is recognized that individual students<br />
may desire to take courses not on the<br />
approved list . Those students should discuss<br />
their interests and desires with their<br />
academic adviser prior to registering for<br />
elective courses if such courses are to be<br />
used to satisfy degree requirements . Also the<br />
catalog may state prerequisites for<br />
upper-division courses in the list . In such<br />
cases, students are encouraged to consult<br />
the instructor in the particular course . With<br />
respect to student records, deviations from<br />
this list are handled by means <strong>of</strong> a<br />
substitution sheet which originates with the<br />
adviser .<br />
In determining whether a course not on the<br />
list can be approved, comments from our<br />
accrediting agency are appropriate :<br />
Subjects such as accounting, industrial<br />
management, finance, personnel<br />
administration, and ROTC studies . . .<br />
normally do not fulfill the objectives desired<br />
<strong>of</strong> the humanities and social science content .<br />
In any course it is the subject matter to be<br />
evaluated rather than the teacher or the<br />
department <strong>of</strong>fering the course . Skills<br />
courses are acceptable only if a substantial<br />
amount <strong>of</strong> material relating to cultural values<br />
is involved as contrasted to routine exercises<br />
to enhance the student's performance.<br />
ELECTIVE OPTIONS<br />
IN HUMANITIES AND SOCIAL STUDIES<br />
Area I . Human, Economic, and Political<br />
Relationships to <strong>Engineering</strong><br />
IA . Governance and Political Science<br />
Economics 3340<br />
Geography 3610<br />
History 3795, 4310-20-30, 4370,<br />
4380<br />
Political Science 2510-20, 3545-46,<br />
3555, 3566, 3710-20, 3750-60, 3801-<br />
02-03-04, 3880, 4060, 4535-36,<br />
4540-50, 4545-46, 4665-66<br />
Sociology 3030, 4530, 4560<br />
IB . Economics<br />
Economics 2110-20-30, 3110-11-12,<br />
3120, 3210-11, 3220, 3240,<br />
3310, 3410-20, 4110<br />
Geography 2110-20-30, 3410<br />
Geology 2310<br />
IC . Sociology and Psychology<br />
Geography 3000, 3600, 3660<br />
Psychology 2500, 3120, 3220,<br />
4650-60,4900<br />
Rural Sociology 3420<br />
Sociology 1510-20, 3030, 3150,<br />
3320, 3410, 3610, 3620, 4330, 4560<br />
ID . Human Values<br />
Geography 3000<br />
History 3060-70-80, 3270<br />
Philosophy 2310, 3111-21-31-<br />
41-51, 3440, 3690<br />
Religious Studies 2610, 3550, 3600-<br />
10-20, 3611, 3740<br />
Zoology 3410<br />
Area II . Society-its Culture, History, and<br />
Literature<br />
IIA. Fine Arts (Note : No more than 8 quarter<br />
hours may be taken in the performing<br />
arts-voice, instrumentation, band,<br />
chorus, etc .)<br />
Art 1815-25, 3715-16, 3725-26,<br />
3750,3765-66<br />
English 2660, 3411-12-20-30-40<br />
Music 1210-20-30, 1340, 2310-20-<br />
30-40, 3350, 4210, 4230,<br />
4241, 4261-71<br />
Philosophy 2410, 3910<br />
Theatre 3252-53-54<br />
IIB . Culture<br />
American Studies 3010<br />
Anthropology 3410<br />
Black Studies 2010-20, 3550-60, 4830<br />
English 2640-50, 3310, 4721-31-41<br />
French 2610-20<br />
Geography 3430, 3450, 3660,<br />
3910-20-30-40<br />
History 1950-60, 2350, 3670, 3680,<br />
4290, 4640-50-60
Italian 2610-20<br />
Music 1210-20-30, 1340, 2310-20-<br />
30-40, 3350<br />
Philosophy 1510-20, 3311-12, 3720<br />
Political Science 3801-02-03-04<br />
Religious Studies 3510-20, 3560<br />
Spanish 2610-20<br />
Speech 4911-21<br />
Theatre 3262-63<br />
IIC . History<br />
Art 3735-36, 3745-46<br />
Geography 4240<br />
History 2510-20, 2511-21, 2515-25,<br />
3140-50-60, 3311-21, 3411-12-13,<br />
3421-22-23,3431-32-33,3610-20,<br />
3630-40-50,3751-52,3760-70-80-90,<br />
3810-20-30, 3870-80-90, 4120-30,<br />
4250-60-70,4280,4380<br />
Religious Studies 2611, 3121-31<br />
IID . Literature<br />
Classics 2710-20, 3210-20-30<br />
Comparative Literature 2010<br />
English 2510-20-30-40, 2560-70-80,<br />
1690,3010-20-30,3070-80,<br />
3160-70, 3940, 4010-20,<br />
4050-60-70, 4310-20-30-40, 4610-<br />
20-30,4651-52<br />
German 3110-20-30<br />
Psychology 4880<br />
Religious Studies 3710-11<br />
Russian 3610-20-30<br />
IIE . Anthropology<br />
Anthropology 2510-20-30,3410,<br />
3450, 3710, 4420<br />
Asian Studies 2510-20<br />
Geography 1910, 3660<br />
History 1950-60, 3740, 4250-60-70,<br />
4640-50-60,4670<br />
Area Ill . Technology and Society<br />
IIIA . Human Habitat<br />
Botany 3090<br />
Economics 3230<br />
Geography 3520-30, 3600, 3910, 4075<br />
Political Science 4940<br />
Psychology 4900<br />
Sociology 1510-20, 3130, 3410-20,<br />
3610, 4030, 4110, 4330<br />
IIIB . Technology Assessment<br />
Geography 3490, 4075<br />
Geology 2310<br />
Philosophy 3720, 4710<br />
Psychology 4900<br />
Rural Sociology 4450<br />
Sociology 3610, 4330<br />
<strong>University</strong> Studies 2010, 4100<br />
IIIC . Communication<br />
Journalism 3110, 3710-20, 4410<br />
Philosophy 2510-20<br />
Speech 2311, 2331, 3011, 3021<br />
IIID . Resources<br />
Economics 4260<br />
Forestry 3730<br />
Geography 2110-20-30, 3490<br />
Geology 2310<br />
<strong>University</strong> Studies 2010, 4110<br />
American History Requirement .<br />
<strong>Engineering</strong> students, regardless <strong>of</strong><br />
national origin, graduating in August 1978 or<br />
thereafter, must fulfill the American history<br />
requirement described on page <strong>of</strong> this<br />
catalog . Those students who have not had the<br />
required year <strong>of</strong> American history in high<br />
school may choose the required nine quarter<br />
hours from History 2510, 2520, 2511, and<br />
2521, or other courses deemed suitable by the<br />
Department <strong>of</strong> History . These hours can be<br />
counted as part <strong>of</strong> the required block <strong>of</strong><br />
humanities and social studies electives .<br />
Technical Electives . Technical electives<br />
are to be selected with the advice and<br />
approval <strong>of</strong> the student's major department.<br />
In some <strong>of</strong> the curricula tabulations a choice<br />
<strong>of</strong> such electives is indicated, and regulations<br />
in regard to their selection are stated .<br />
The Voluntary ROTC Program .<br />
<strong>Engineering</strong> students may participate in the<br />
ROTC program . Advanced ROTC courses<br />
(3000 and 4000 series) may be counted as<br />
technical elective credit toward an<br />
engineering degree up to a total <strong>of</strong> nine (9)<br />
quarter hours . No ROTC course can be used<br />
as a humanistic-social elective . Individual<br />
departments determine the appropriate<br />
substitutions .<br />
Approval <strong>of</strong> Electives and Substitutions .<br />
Not later than the beginning <strong>of</strong> the third<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong> 127<br />
quarter prior to anticipated graduation, each<br />
student shall discuss wtih an adviser the<br />
status <strong>of</strong> the program <strong>of</strong> study . Any necessary<br />
additions to or substitutions in the program,<br />
or electives requiring special approval, shall<br />
be cleared in written form at that time, and it<br />
is each student's responsibility to see that all<br />
necessary approvals are secured .<br />
CURRICULA, TABULAR VIEW<br />
Following are the course requirements for<br />
the various engineering curricula . The<br />
numbers in the columns indicate the number<br />
<strong>of</strong> quarter hours <strong>of</strong> credit for each course.<br />
Columns represent the three principal<br />
quarters <strong>of</strong> the academic year-fall, winter,<br />
and spring . This is not a schedule, and<br />
courses are given in quarters other than those<br />
indicated here . This listing is a guide, not a<br />
rigid schedule . Individual course<br />
prerequisites should be strictly adhered to,<br />
even if all courses are not taken as indicated .<br />
Although the requirements for each degree<br />
can be completed in fouracademic years (five<br />
for the cooperative program), the quality <strong>of</strong><br />
the learning experience is much more<br />
important than the speed with which the<br />
curricula is completed .<br />
Humanities-social studies electives are the<br />
same as non-technical electives in these<br />
tabulations . Questions about individual<br />
courses should be directed to the department<br />
responsible forthe course ; questions abouta<br />
particular curricula should be directed to the<br />
major department .<br />
Aerospace <strong>Engineering</strong><br />
Hours Credit<br />
Freshman 1 11 Ill<br />
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4<br />
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . 3 3 -<br />
Basic <strong>Engineering</strong> 1310-20-30 . . . . . . . . . 4 4 4<br />
Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . . . - - 2<br />
Sophomore<br />
Aero . Engr. 2040 . . . . . . . . . . . . . . . . . . . . . 1 - -<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3<br />
Eng . Sci . & Mach . 3311, 3700 . . . . . . . . . . - 4 4<br />
Met . Engr . 2110 . . . . . . . . . . . . . . . . . . . . . . - 3 -<br />
Speech 2361 . . . . . . . . . . . . . . . . . . . . . . . . . 4 - -<br />
Computer Science 3150 . . . . . . . . . . . . . . . - - 3<br />
'Humanities/social studies electives . . . -<br />
Before entering the third quarter <strong>of</strong> the<br />
junior year, the student, with the aid and<br />
approval <strong>of</strong> the adviser, must select a<br />
program <strong>of</strong> technical electives .<br />
Junior<br />
Aero . Engr.3040 . . . . . . . . . . . . . . . . . ., . . - 1 -<br />
Aero . Engr.3511 . . . . . . . . . . . . . . . . . . . . . - - 4<br />
Aero . Engr.3610-20 . . . . . . . . . . . . . . . . . . . 3 3 -<br />
Aero . Engr. 3630-40 . . . . . . . . . . . . . . . . . . . - 3 3<br />
Elec . Engr . 3110-20-30 . . . . . . . . . . . . . . . . 3 3 3<br />
Engr . Sci . & Mach . 3320 . . . . . . . . . . . . . . 3 - -<br />
Mech . Engr. 3311, 3321-30 . . . . . . . . . . . . 3 2 3<br />
Mach . Engr. 3410 . . . . . . . . . . . . . . . . . . . . . - 3 -<br />
Mech . Engr. 3440, 4420 . . . . . . . . . . . . . . . - 3 3<br />
Mach . Engr . 3910 . . . . . . . . . . . . . . . . . . . . . 3 - -<br />
'Humanities/social studies electives . . . " - -
128<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
.<br />
. . . . . . . .<br />
. . .<br />
.<br />
. . . .<br />
.<br />
. . . . .<br />
Senior<br />
Aero . Engr.4210-50-60 . . . . . . . . . . . . . . . . 3<br />
Aero . Engr. 4220, 4510, 4230 . . . . . . . . . 3<br />
Aero Engr .4471-91 . . . . . . . . . . . . 3<br />
Aero Engr .4310-20 . . . . . . . . . . . . . . . . . 1<br />
Mech . Engr . 4510 . . . . . . . . . . . . . . . . . . . . 4<br />
2Technical electives . . . . . . . . . . . . . . 3<br />
'Humanities/social studies electives . . -<br />
Industrial Engr 4520 . . . . . . . . . . . . . . -<br />
3<br />
3<br />
3<br />
1<br />
3<br />
3<br />
3<br />
6<br />
"Humanities/social studies electives : minimum <strong>of</strong> 19 hours<br />
required .<br />
zTechnical electives ; upper-division courses in engineering,<br />
mathematics, or physical science as approved by the<br />
department .<br />
Agricultural <strong>Engineering</strong><br />
(See <strong>College</strong> <strong>of</strong> Agriculture Section .)<br />
Biomedical <strong>Engineering</strong><br />
TOTAL : 203 hours<br />
Available in <strong>Engineering</strong> Science Degree<br />
Program.<br />
Hours Credit<br />
Freshman 1 11 111<br />
See Basic Curriculum,<br />
<strong>Engineering</strong> Science . . . . . . . . . . . . . . . . 18 18 17<br />
Sophomore<br />
Mathematics 2840-50-60 . . . . . . . . . . . . . . 4 4 4<br />
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3<br />
'Biology 1210-20 and 3120 . . . . . . . . . . . . 4 4 4<br />
Engr . Sci . & Mech . 3410, 3700, 3110 . . . 4 4 3<br />
2Humanities/social studies electives . . . 4 4 4<br />
. . . .<br />
. . .<br />
. . .<br />
. . .<br />
. .<br />
. . .<br />
. . . .<br />
Junior<br />
'Chemistry 3211-21-31, 3219-29-39 . . . . . 4 4 4<br />
Elec . Engr . 3110-20 . . . . . . . . . . . . . . . 3<br />
Chemet . Engr . 2010-30 . . . . . . . . . . . . . 4<br />
Engr Sci . & Mach 3311 . . . . . . . . . . . . . 4<br />
Computer Science 3150 . . . . . . . . . . . . -<br />
Mech . Engr . 3440 or 3540 . . . . . . . . . . . -<br />
Mathematics elective . . . . . . . . . . . . . . -<br />
Engr . Sci & Mech . 3120 or 3320 . . . . -<br />
ZHumanities/social studies elective<br />
3<br />
3<br />
3<br />
3<br />
4<br />
3<br />
4<br />
. . .<br />
. .<br />
. . .<br />
. .<br />
. . .<br />
Senior<br />
Engr.Sci & Mech . 4810, 4620 . . . . . . . 4 4<br />
Engr. Sci . & Mach . 4010 . . . . . . . . . . . .<br />
'Zoology 3080 or 3050 . . . . . . . . . . . . .<br />
-<br />
-<br />
4<br />
5<br />
3Engr . sci . electives<br />
(including bio med . engr. elec .) . . . .<br />
4Technical elective . . . . . . . . . . . . . . . .<br />
ZHumanities/social studies electives<br />
4<br />
6<br />
3<br />
_<br />
6<br />
8<br />
Chemical <strong>Engineering</strong><br />
TOTAL : 199 hours<br />
'Required for pre-medical, pre-dental, and pre-veterinary<br />
medicine programs.<br />
2Humanities/social studies courses approved by the<br />
department .<br />
3 Appropriate courses in the <strong>College</strong> <strong>of</strong> <strong>Engineering</strong>approved<br />
by the department .<br />
4Courses in mathematics, statistics, natural science, or<br />
engineering approved by the department .<br />
. . .<br />
.<br />
. . .<br />
. .<br />
. .<br />
Hours Credit<br />
Freshman<br />
/ I/ 111<br />
Math 1840-50-60 . . . . . . . . . . . . . . . . . . .<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . .<br />
English 1010 or 1011 ; 1020 ; 1033 . . . . .<br />
4<br />
4<br />
3<br />
4<br />
4<br />
3<br />
4<br />
4<br />
3<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . 3<br />
Basic <strong>Engineering</strong> 1310-20-30 . . . . . . . 4<br />
Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . -<br />
-<br />
4<br />
2<br />
3<br />
4<br />
-<br />
. . .<br />
. . . .<br />
.<br />
. . . . . .<br />
. .<br />
. . . .<br />
. .<br />
.<br />
'Chem . Engr. 3010 . . . . . . . . . . . . . . . . . -<br />
Chem . Engr . 4110, 3610 . . . . . . . . . . . . -<br />
Chem. Engr . 3040, 3050 . . . . . . . . . . . . . . . 4<br />
Chemistry 3211-19, 3221-29 . . . . . . . . . . . 4<br />
3<br />
4<br />
4<br />
1<br />
3<br />
Sophomore<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4<br />
Physics 2310-20-30 . . . . . .<br />
3<br />
Elec . Engr . 2010-20-30 . . . . . . . . . . . . . . . 3<br />
4<br />
3<br />
3<br />
4<br />
3<br />
3<br />
Math 3150 . . . . . . . . . . . . . . . . . . . . . . . . 3<br />
Elec Engr . 3110 and<br />
either 3120 or 3130 . . . . . . . . . . . . . . . . -<br />
Met . Engr . 3150 . . . . . . . . . . . . . . . . . . . . -<br />
2Humanities/social studies electives<br />
3<br />
-<br />
4<br />
3<br />
3<br />
4<br />
Met . Engr 2110 . . . . . . . . . . . . . . . . . . . .<br />
Engr Sci . & Mech . 3710 or<br />
Met . Engr. 3130 . . . . . . . . . . . . . . . . .<br />
Humanities/social studies electives . . . .<br />
Engr Sci . & Mech . 2720 . . . . . . . . . . . . . .<br />
3<br />
-<br />
4<br />
-<br />
-<br />
-<br />
4<br />
3<br />
-<br />
3<br />
4<br />
-<br />
Senior<br />
Junior<br />
Chem . Engr. 3620, 4220 . . . . . . . . . . . . . . . 3 3 Elec . Engr .3810-20-30 . . . . . . . . . . . . . . . . 3 3 3<br />
Chem . Engr. 4410-20 . . . . . . . . . . . . . . . . . - 3 3 Elec . Engr . 3040-50-60 . . . . . . . . . . . . . . . . 3 3 3<br />
Chem . Engr. 3450, 4530 . . . . . . . . . . . . . . . 3 3 Elec . Engr . 3010, 3720, 3100 . . . . . . . . . . 3 3 3<br />
Chemet . Engr . 4310-20 . . . . . . . . . . . . . . . . 1 1 Elec . Engr . 3190, 3180 . . . . . . . . . . . . . . . . 3 3 -<br />
Met. Engr. 3520 . . . . . . . . . . . . . . . . . . . . . . - 3 Mech . Engr. 3520-30-40 . . . . . . . . . . . . . . . 3 3 3<br />
Chemistry 3430, 4110 . . . . . . . . . . . . . . . . . 3 3 Elec . Engr.3080-90 . . . . . . . . . . . . . . . . . . . - 3 3<br />
3 3 'Math 3150 . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - _<br />
Major electives . . . . . . . . . . . . . . . . . . . . . . . -<br />
Technical electives . . . . . . . . . . . . . . . . . . . 3<br />
ZHumanities/social studies electives . . . 4<br />
'Not required in the cooperative program .<br />
2A minimum <strong>of</strong> one-half (12 quarter hours) <strong>of</strong> the<br />
humanities/social studies electives must be taken from a<br />
single group under one<strong>of</strong> the three areas <strong>of</strong> the humanities<br />
and social studies electives.<br />
Civil <strong>Engineering</strong><br />
TOTAL : 201 hours<br />
. .<br />
. . .<br />
;<br />
.<br />
.<br />
.<br />
Hours Credit<br />
Freshman<br />
1 11 ll/<br />
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . 4 4 4<br />
English 1010 or 1011 1020 ; 1033 . . . . . . 3 3 3<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . 3 3 -<br />
Basic <strong>Engineering</strong> 1310-20-30 . . . . . . . . 4 4 4<br />
Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . . - - 2<br />
Sophomore<br />
Civil Engr . 2260, 2360 . . . . . . . . . . . . . . . . . 4<br />
Civil Engr . 2310 . . . . . . . . . . . . . . . . . . . . . . -<br />
Civil Engr. 3210 . . . . . . . . . . . . . . . . . . . . . . -<br />
Engr . Sci . & Mach . 3311, 2720, 3110 . . . 4<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4<br />
'Non-tech . electives . . . . . . . . . . . . . . . . . . -<br />
Physics 2310-20 . . . . . . . . . . . . . . . . . . . . . . 3<br />
Geology 2610 . . . . . . . . . . . . . . . . . ., . . . . . . 3<br />
Junior<br />
Civil Engr . 3310, 4220 . . . . . . . . . . . . . . . . . 3<br />
Civil Engr . 3600, 3610 . . . . . . . . . . . . . . . . . 3<br />
Civil Engr . 3710, 4110 . . . . . . . . . . . . . . . . . 3<br />
Computer Science 3150 . . . . . . . . . . . . . . . -<br />
Elec . Engr . 3110 . . . . . . . . . . . . . . . . . . . . . . -<br />
Envr . Engr . 4510, 4520 . . . . . . . . . . . . . . . . 3<br />
Envr. Engr . 3120, 3330 . . . . . . . . . . . . . . . . 3<br />
4Mech . Engr . 3520 . . . . . . . . . . . . . . . . . . . . -<br />
Civil Engr. 4430, 4800 . . . . . . . . . . . . . . . . . -<br />
Civil Engr. 3320, 4410 . . . . . . . . . . . . . . . . . 1<br />
Senior<br />
Civil Engr. 4320, 4330 . . . . . . . . . . . . . . . . .<br />
2Math/science elective . . . . . . . . . . . . . . . . -<br />
Non-tech . electives . . . . . . . . . . . . . . . . . . . 4<br />
3Technical electives . . . . . . . . . . . . . . . . . . 9<br />
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . 3<br />
'Humanities/social science courses approved by the<br />
department.<br />
MMath/science courses approved by the department .<br />
3Technical electives must be approved by the student's<br />
adviser and the primary and one <strong>of</strong> the two secondary areas<br />
<strong>of</strong> study must come from the departmental list <strong>of</strong> approved<br />
courses for 15 credit and 6 credits respectively.<br />
4Mechanical <strong>Engineering</strong> 3311 may be substituted.<br />
1<br />
3<br />
3<br />
4<br />
4<br />
3<br />
3<br />
3<br />
3<br />
3 3<br />
3<br />
1<br />
3<br />
4<br />
9<br />
3<br />
4<br />
3<br />
3<br />
4<br />
4<br />
3<br />
3<br />
3<br />
3 3<br />
1<br />
7<br />
9<br />
TOTAL : 202 hours<br />
`Students entering the Computer <strong>Engineering</strong> Senior Year<br />
Option must successfully complete Computer Science 3150<br />
rather than Math 3150.<br />
During the third quarter <strong>of</strong> the junior year<br />
the student, in consultation with the adviser,<br />
should choose one <strong>of</strong> the following areas <strong>of</strong><br />
interest . Courses marked with footnote 1 may<br />
be replaced by othercourses approved bythe<br />
student's area adviser .<br />
Notice that any given senior course is<br />
<strong>of</strong>fered only once every third quarter<br />
including the summer quarter .<br />
SENIOR YEAR-AREAS OF INTEREST<br />
Electromagnetic Fields and<br />
Communications<br />
Elec . Engr .4540 . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
Elec . Engr . 4680-90 . . . . . . . . . . . . . . . . . . . 3 3 -<br />
Elec . Engr .4100 . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
Elec . Engr .4570 . . . . . . . . . . . . . . . . . . . . . . 3 - -<br />
Elec . Engr . 4080 . . . . . . . . . . . . . . . . . . . . . . - 3 -<br />
Elec . engr. electives . . . . . . . . . . . . . . . . . . 3 3 3<br />
Elec . engr. or math electives . . . . . . . . . . 3 3 -<br />
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
Humanities/social studies electives . . . . 4 4 4<br />
TOTAL : 203 hours<br />
Energy Conversion and<br />
Power Systems<br />
Elec . Engr .4410-20-30 . . . . . . . . . . . . . . . . 3<br />
Elec . Engr . 4370 . . . . . . . . . . . . . . . . . . . . . . 3<br />
'Elec . Engr .4790 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr .4610 . . . . . . . . . . . . . . . . . . . . . 3<br />
Elec . Engr.4780 . . . . . . . ., . . . . . . . . . . . . . -<br />
'Elec . Engr .4690 . . . . . . . . . . . . . . . . . . . . . -<br />
'Nuclear Engr. 4610 . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr .4020 . . . . . . . . . . . . . . . . . . . . . 3<br />
'Elec . Engr .4810 . . . . . . . . . . . . . . . . . . . . . -<br />
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -<br />
Humanities/social studies electives . . . . 4<br />
Plasma and Electro-<br />
Optics <strong>Engineering</strong><br />
2Elec . Engr . 4460, 4470, 4480 . . . . . . . . . . 3<br />
2Elec . Engr . 4020, 4490, 4500 . . . . . . . . . . 3<br />
Elec . engr. tech . elective s . . . . . . . . . . . . . 3<br />
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -<br />
Elec . engr . tech . elective s . . . . . . . . . . . . . 3<br />
Tech . elective . . . . . . . . . . . . . . . . . . . . . . . . -<br />
Humanities/social studies electives . . . . 4<br />
3<br />
3 3<br />
3<br />
4<br />
3<br />
3<br />
Systems and Networks<br />
Elec . Engr . 4810 . . . . . . . . . . . . . . . . . . . . . . 3 -<br />
Elec. Engr .4630 . . . . . . . . . . . . . . . . . . . . . . - 3<br />
Elec . Engr .4350 . . . . . . . . . . . . . . . . . . . . . . - -<br />
Elec . engr . tech . elective s . . . . . . . . . . . . . 3 3<br />
Elec . engr . tech . elective s . . . . . . . . . . . . . 3 - 3<br />
3<br />
3<br />
4<br />
3<br />
3<br />
3<br />
3<br />
4<br />
TOTAL : 203 hours<br />
3<br />
3<br />
3<br />
3<br />
4<br />
TOTAL : 203 hours<br />
Sophomore Elec . engr . tech . electives . . . . . . . . . . . . . 3 3<br />
Chemet . Engr . 2010-20-30 . . . . . . . . . . . . . 4 4 4 Electrical <strong>Engineering</strong> Economics 2110 . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
Chemet . Engr. 2011 . . . . . . . . . . . . . . . . . . . 0 - Humanities/social studies electives . . . . 4 4 4<br />
Chem . Engr. 3410 . . . . . . . . . . . . . . . . . . . . - - 4 Hours Credit<br />
Chemistry 2140-49 . . . . . . . . . . . . . . . . . . . . 4 - Freshman / // /// TOTAL : 203 hours<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4 Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Engr . Sci . & Mech . 2720 . . . . . . . . . . . . . . - 3 Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4 Computer <strong>Engineering</strong><br />
'Humanities/social studies electives . . . 4 4 English 1010 or 1011 ; 1020 ; 1033 . . . . . . 4 4 4 'Elec . Engr.4600 . . . . . . . . . . . . . . . . . . . . . 3 -<br />
Physics 2310-20 . . . . . . . . . . . . . . . . . . . . . . - 3 3 Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . - 3 3 'Elec . Engr.4740 . . . . . . . . . . . . . . . . . . . . . - 3<br />
Basic <strong>Engineering</strong> 1310-30-20 . . . . . . . . . 4 4 4 Elec . Engr. 4700 . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
Junior Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . . . 2 - - Elec . Engr.4610 . . . . . . . . . . . . . . . . . . . . . . 3 -<br />
Chem . Engr . 3420-40 . . . . . . . . . . . . . . . . . 4 - 3 Elec . Engr.4630 . . . . . . . . . . . . . . . . . . . . . . - 3<br />
3<br />
3<br />
3
Elec . Engr .4620 . . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr .4800 . . . . . . . . . . . . . . . . . . . . . 3<br />
'Elec . Engr .4820 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr .4830 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr. 4850 or 4750 . . . . . . . . . . . . . 3<br />
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -<br />
Elec . Engr .4100 . . . . . . . ., . . . . . . . . . . . . . -<br />
Non-tech . electives . . . . . . . . . . . . . . . . . . . 4<br />
TOTAL : 203 hours<br />
Electronics and Instrumentation<br />
Elec . Engr . 4680-90, 4600 . . . . . . . . . . . . . 3<br />
Elec . Engr .4370 . . . . . . . . . . . . . . . . . . . . . . 3<br />
Elec . Engr .4700 . . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr . 4100 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr . 4800 . . . . . . . . . . . . . . . . . . . . . 3<br />
Elec . Engr . 4740 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr . 4610 . . . . . . . . . . . . . . . . . . . . . -<br />
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . 3<br />
'Eiec . Engr.4850 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr.4350 . . . . . . . . . . . . . . . . . . . . . -<br />
Non-tech . electives . . . . . . . . . . . . . . . . . . . 4<br />
Bioslectric Option<br />
Biology 1210-20-30 . . . . . . . . . . . . . . . . . . . 4<br />
Chemistry 2230 . . . . . . . . . . . . . . . . . . . . . . . 4<br />
Elec . Engr . 4660 . . . . . . . . . . . . . . . . . . . . . . -<br />
Zoology 3080-3089 . . . . . . . . . . . . . . . . . . . -<br />
Elec . Engr .4850 . . . . . . . . . . . . . . . . . . . . . . 3<br />
'Elec . Engr.4600 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr.4800 . . . . . . . . . . . . . . . . . . . . . -<br />
'Elec . Engr.4370 . . . . . . . . . . . . . . . . . . . . . 3<br />
'Elec . Engr.4820 . . . . . . . . . . . . . . . . . . . . . -<br />
Humanities/social studies electives . . . . 4<br />
<strong>Engineering</strong> Physics<br />
Freshman 1<br />
Mathematics 1840-50-6Q . . . . . . . . . . . . . . 4<br />
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3<br />
'Non-technical elective . . . . . . . . . . . . . . . -<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . 3<br />
2Physics 1310-20-30 . . . . . . . . . . . . . . . . . . 4<br />
Sophomore<br />
Mathematics 2840-50-60 . . . . . . . . . . . . . . 4<br />
'Non-technical elective . . . . . . . . . . . . . . . 8<br />
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3<br />
3<strong>Engineering</strong> electives . . . . . . . . . . . . . . . . 3<br />
Junior<br />
Math electives . . . . . . . . . . . . . . . . . . . . . . . . 3<br />
Physics 3210-20-30 . . . . . . . . . . . . . . . . . . . 3<br />
Physics 4210-20 . . . . . . . . . . . . . . . . . . . . . . -<br />
4Physicslab electives . . . . . . . . . . . . . . . . . 3<br />
Electives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3<br />
sTechnicalelectives . . . . . . . . . . . . . . . . . . 3<br />
Senior<br />
Physics 4240 (or 4250) . . . . . . . . . . . . . . . . 3<br />
6Physics 4110-20-30 . . . . . . . . . . . . . . . . . . 3<br />
7Physics electives . . . . . . . . . . . . . . . . . . . . 3<br />
STechnicalelectives . . . . . . . . . . . . . . . . . . -<br />
Electives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3<br />
3<strong>Engineering</strong> electives . . . . . . . . . . . . . . . . 3<br />
3<br />
3<br />
4<br />
3<br />
3<br />
3<br />
4<br />
3 3<br />
3 -<br />
3<br />
3<br />
3<br />
4 4<br />
4<br />
3<br />
3<br />
3<br />
4<br />
3<br />
TOTAL : 203 hours<br />
4<br />
5<br />
3<br />
4<br />
TOTAL : 206 hours<br />
'Course will usually be required ; however, a student's major<br />
adviser may substitute another 4000-level electrical<br />
engineering course without filing a substitution form .<br />
2A student must take anythree <strong>of</strong> the first sixcourses (top two<br />
lines)-the remaining three <strong>of</strong> these first six may be any<br />
4000-level or higher course in electrical engineering .<br />
Hours Credit<br />
11 I//<br />
4 4<br />
3 3<br />
- 4<br />
4 4<br />
3 -<br />
4 4<br />
4 4<br />
8 8<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
3 3<br />
TOTAL : 199 hours<br />
'To be taken from <strong>College</strong> <strong>of</strong> Liberal Arts triads <strong>of</strong> Language,<br />
Literature, and Arts, or History and Society, with at least 16<br />
hours from courses approved for Language, Literature, and<br />
Arts.<br />
2The honors sequence (Physics 1318-28-38) is recommended<br />
for qualified majors .<br />
3To be taken in <strong>College</strong> <strong>Engineering</strong> .<br />
^From Physics 3510-20-30,3610-20-30,4510-20-30,4540-50 .<br />
5From engineering, mathematics, computer science,<br />
physics, chemistry, or astronomy .<br />
6Students not pursuing graduate studies may substitute<br />
Physics 3710-20-30.<br />
7 1 7rom Physics 3250 . 3710-20-30, 4040, 4110-20-30-40,<br />
4160,4230-40-50, 4510-20-30-40-50, 4610-20-30, 4710-20-30.<br />
Astronomy 4110-20-30.<br />
<strong>Engineering</strong> Science<br />
Hours Credit<br />
Freshman I 11 111<br />
Mathematics 1840-50-60 . . . . . . . . . . . . . . 4 4 4<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4<br />
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . 3 3 -<br />
Basic <strong>Engineering</strong> 1310-20-30 . . . . . . . . . 4 4 4<br />
Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . . . - - 2<br />
Sophomore<br />
Mathematics 2840-50-60 . . . . . . . . . . . . . . 4 4 4<br />
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3<br />
Met . Engr. 2110 . . . . . . . . . . . . . . . . . . . . . . 3 - -<br />
Engr . Sci . & Mach . 3700, 3311, 3110 . . . 4 4 3<br />
Elec . Engr. 3110 . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
'Humanities/social studies electives . . . 4 4 4<br />
Junior<br />
Engr . Sci . and Mach . 3010 . . . . . . . . . . . . 1<br />
Mach . Engr . 3311 and 3440<br />
or 3540 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3<br />
Elec . Engr. 3120 . . . . . . . . . . . . . . . . . . . . . . 3<br />
Computer Science 3150 . . . . . . . . . . . . . . . 3<br />
Engr . Sci . and Mach . 3320 or 3120 . . . . -<br />
Industrial <strong>Engineering</strong> 4520 . . . . . . . . . . . -<br />
Mathematics elective . . . . . . . . . . . . . . . . . -<br />
ZPhysical or biol . science electives . . . . 3<br />
3Engr. science electives . . . . . . . . . . . . . . . 3<br />
Industrial <strong>Engineering</strong><br />
Junior<br />
Computer Science 3150 . . . . . . . . . . . . . . . 3<br />
Ind . Engr . 3620-30 . . . . . . . . . . . . . . . . . . . . 3<br />
Ind . Engr.3430-40 . . . . . . . . . . . . . . . . . . . . 3<br />
Elec . Engr . 3110-20-30 . . . . . . . . . . . . . . . . 3<br />
Mach . Engr . 3520-30 . . . . . . . . . . . . . . . . . . 3<br />
Accounting 2110, 2130 . . . . . . . . . . . . . . . . 3<br />
Ind . Engr .2320 . . . . . . . . . . . . . . . . . . . . . . . -<br />
Ind . Engr. 3510 . . . . . . . . . . . . . . . . . . . . . . . -<br />
Ind . Engr .3520 . . . . . . . . . . . . . . . . . . . . . . . -<br />
Met . Engr. 2110 . . . . . . . . . . . . . . . . . . . . . . -<br />
Ind . Engr.4520 . . . . . . . . . . . . . . . . . . . . . . . -<br />
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -<br />
Senior<br />
Humanities/social studies elective . . . . . 4<br />
Ind . Engr. 4060,4070 . . . . . . . . . . . . . . . . . 3<br />
Ind . Engr. 4040 . . . . . . . . . . . . . . . . . . . . . . . 3<br />
Ind . Engr.4870 . . . . . . . . . . . . . . . . . . . . . . . 3<br />
Technical elective . . . . . . . . . . . . . . . . . . . . 3<br />
Ind . Engr.4200 . . . . . . . . . . . . . . . . . . . . . . . -<br />
Ind . Engr . 4590 . . . . . . . . . . . . . . . . . . . . . . . -<br />
Ind . Engr.4600,4610 . . . . . . . . . . . . . . . . . -<br />
Ind . engr . electives . . . . . . . . . . . . . . . . . . . -<br />
Ind . Enqr. 4840 . . . . . . . . . . . . . . . . . . . . . . . -<br />
3<br />
3<br />
3<br />
6<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
4<br />
3<br />
3<br />
3<br />
3<br />
3<br />
6<br />
Senior<br />
Engr . Sci . & Mach . 4010 . . . . . . . . . . . . . . - 4 -<br />
Engr . Sci . & Mach . 4810, 4620 . . . . . . . . . 4 4 -<br />
3Engr. science electives . . . . . . . . . . . . . . . 3 - 3<br />
4Technical electives . . . . . . . . . . . . . . . . . . 6 3 9<br />
'Humanities/social studies electives . . . 4 4 4<br />
TOTAL : 197 hours<br />
'Humanities/social studies courses approved by the<br />
department .<br />
2Appropriate courses approved by the department .<br />
3Appropriate courses inthe<strong>College</strong> <strong>of</strong> <strong>Engineering</strong>approved<br />
by the department .<br />
4Upper-division courses in mathematics, statistics, natural<br />
science, or engineering approved by the department .<br />
Hours Credit<br />
Freshman I 11 /I/<br />
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4<br />
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . - 3 3<br />
Basic <strong>Engineering</strong> 1310-20-30 . . . . . . . . . 4 4 4<br />
Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . . . - - 2<br />
Sophomore<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
English elective . . . . . . . . . . . . . . . . . . . . . . 4 4 -<br />
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3<br />
Engr . Sci . and Mach . 3311, 3700 . . . . . . . 4 4 -<br />
Ind . Engr . 2310 . . . . . . . . . . . . . . . . . . . . . . . 1 - -<br />
Statistics 3450, 3460 . . . . . . . . . . . . . . . . . . - 3 3<br />
Humanities/social studies electives . . . . - 4<br />
Ind . Engr . 3610 . . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3 6<br />
3<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong> 129<br />
. . .<br />
. . .<br />
Ind . Engr 4310 . . . . . . . . . . . . . . . . . . . . . -<br />
Civil Engr 4230 . . . . . . . . . . . . . . . . . . . . -<br />
Mechanical <strong>Engineering</strong><br />
Before entering the third quarter <strong>of</strong> the<br />
junior year the student, with the aid and<br />
approval <strong>of</strong> an adviser, must select a program<br />
<strong>of</strong> mechanical engineering and technical<br />
electives . The following areas <strong>of</strong><br />
specialization are available in the senior year :<br />
energy, environmental, manufacturing,<br />
machine design, propulsion and aerospace .<br />
See page 151 .<br />
.<br />
.<br />
. . .<br />
.<br />
Junior<br />
Mach. Engr . 3311, 3321-30 . . . . . . . . . . . . 3 2 3<br />
Mach . Engr . 3610-20-30 . . . . . . . . . . . . . . . 3 3 3<br />
Mach . Engr . 3040, 3650-60 . . . . . . . . . . . 1 3 3<br />
Mach . Engr . 3910, 3440, 4420 . . . . . . . . . 3 3 3<br />
Aero . Engr. 3511 . . . . . . . . . . . . . . . . . . . . . - - 4<br />
Mach. Engr . 3410 . . . . . . . . . . . . . . . . . . . . - 3 -<br />
Engr. Sci . & Mach 3320 . . . . . . . . . . . . 3 - -<br />
Elec . Engr . 3110-20-30 . . . . . . . . . . . . . . . 3 3 3<br />
.<br />
. . .<br />
. .<br />
.<br />
. . .<br />
Senior<br />
Mach. Engr . 4310-20 . . . . . . . . . . . . . . . . . 1 1<br />
Mach Engr . 4510 . . . . . . . . . . . . . . . . . . . 4 -<br />
Mach Engr . 4471-91 . . . . . . . . . . . . . . . . . 3 3<br />
Mach. Engr . 4670-80 . . . . . . . . . . . . . . . . . 3 3<br />
2Mech . engr . electives . . . . . . . . . . . . . . . . 3 3 6<br />
3Technicalelectives . . . . . . . . . . . . . . . 3 - 3<br />
'Humanities/social studies electives . . . -<br />
Industrial <strong>Engineering</strong> 4520 . . . . . . . . . . . - 3<br />
TOTAL : 203 hours<br />
"Humanities/social studies electives : minimum <strong>of</strong> 19 hours<br />
required.<br />
2Mechanical engineering electives : senior courses in<br />
mechanical engineering not otherwise required .<br />
3Technicalelectives : upper-division courses in engineering,<br />
mathematics, or physics as approved by the department.<br />
Metallurgical <strong>Engineering</strong><br />
- 1<br />
- 3<br />
TOTAL : 206 hours<br />
. . .<br />
. .<br />
.<br />
.<br />
Freshman I 11 111<br />
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . 4 4 4<br />
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . 3 3 -<br />
Basic <strong>Engineering</strong> 1310-20-30 . . . . . . . . . 4 4 4<br />
Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . . - - 2<br />
.<br />
.<br />
Sophomore<br />
Mach . Engr. 2040 . . . . . . . . . . . . . . . . . . . . 1 - -<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3<br />
Engr. Sci . & Mach . 3311, 3700 . . . . . . . . . - 4 4<br />
Met . Engr . 2110 . . . . . . . . . . . . . . . . . . . . . . - 3 -<br />
Speech 2361 . . . . . . . . . . . . . . . . . . . . . . . . . 4 - -<br />
Computer Science 3150 . . . . . . . . . . . . . . - - 3<br />
'Humanitiestsocial studies elective . . . .<br />
; .<br />
. . .<br />
Hours Credit<br />
Freshman I 11 /it<br />
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4<br />
English 1010 or 1011 ; 1020 1033 . . . . . 3 3 3<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . 3 - 3<br />
Basic <strong>Engineering</strong> 1310-30-20 . . . . . . . . . 4 4 4<br />
Basic <strong>Engineering</strong> 1410 . . . . . . . . . . . . . . . - 2 -<br />
.<br />
. .<br />
. . .<br />
. . . .<br />
. .<br />
.<br />
. . .<br />
Sophomore<br />
Chemet. Engr . 2010-20-30 . . . . . . . . . . . . 4 4 4<br />
Chemet. Engr . 2011 . . . . . . . . . . . . . . . . . 0 - -<br />
Chem Engr . 3410 . . . . . . . . . . . . . . . . . . - - 4<br />
Chemistry 2140-49 . . . . . . . . . . . . . . . . 4 - -<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Engr. Sci . & Mach . 2720 . . . . . . . . . . . . - 3 -<br />
ZHumanities/social studies electives . . 4 4 -<br />
Physics 2310-20 . . . . . . . . . . . . . . . . . . . - 3 3<br />
. . .<br />
. . .<br />
.<br />
Junior<br />
Met Engr . 3040-50-60 . . . . . . . . . . . . . . . 4 3 3<br />
Met Engr . 3210-20-30 . . . . . . . . . . . . . . . 4 3 4<br />
'Met . Engr . 3010 . . . . . . . . . . . . . . . . . . . . . - - 1<br />
Met . Engr . 4610 . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
Chem . Engr . 3420 . . . . . . . . . . . . . . . . . . . . 4 - -
130 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
. .<br />
.<br />
. . . .<br />
Elec . Engr . 3110 and<br />
either 3120 or 3130 . . . . . . . . . . . . . . . - 3 3<br />
Engr . Sci & Mach . 3311 . . . . . . . . . . . . . . - 4 -<br />
Math 3150 . . . . . . . . . . . . . . . . . . . . . . . 3<br />
2Humanities/social studies electives . . . 4 4<br />
. . . .<br />
. . . .<br />
. . . .<br />
. . .<br />
. . .<br />
. .<br />
. . . .<br />
. . . .<br />
. . . .<br />
Senior<br />
Met. Engr . 4240-50 . . . . . . . . . . . . . . . 3 3<br />
Met Engr 4510-20 . . . . . . . . . . . . . . . . . 3 3<br />
Met . Engr 4730-40 . . . . . . . . . . . . . . . . 3 3<br />
Met . Engr . 4760-70 . . . . . . . . . . . . . . . . - 3 3<br />
Met . Engr . 3150 . . . . . . . . . . . . . . . . . . . - 3<br />
Chem . Engr . 4110 . . . . . . . . . . . . . . . . . . - 3<br />
Chemet. Engr . 4310-20 . . . . . . . . . . . . 1 1<br />
Technical electives . . . . . . . . . . . . . . . - 3 3<br />
ZHumanities/social studies electives . . . 4 4<br />
Chemistry 4110 . . . . . . . . . . . . . . . . . . . 3<br />
TOTAL : 201 hours<br />
'Not required in the cooperative program .<br />
ZA minimum <strong>of</strong> one-half (12 quarter hours) <strong>of</strong> the<br />
humanities/social studies electives must be taken from a<br />
single group under one <strong>of</strong> the three areas .<br />
Nuclear <strong>Engineering</strong><br />
.<br />
. .<br />
.<br />
.<br />
. .<br />
. . .<br />
Hours Credit<br />
Freshman / 11 111<br />
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
English 1010 or 1011 ; 1020 ; 1033 . . . . 3 3 3<br />
Chemistry 1110-20-30 . . . . . . . . . . . . . . . .<br />
Basic Engr. 1310-30-20 . . . . . . . . . . . . . .<br />
4<br />
4<br />
4<br />
4<br />
4<br />
4<br />
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . 3 - 3<br />
Basic Engr. 1410 . . . . . . . . . . . . . . . . . . - 2 -<br />
.<br />
.<br />
. . .<br />
. . . .<br />
. .<br />
. . .<br />
Sophomore<br />
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . 4 4 4<br />
Nuclear Engr. 2310-20-30 . . . . . . . . . . . . 1 1 1<br />
Physics 2310-20 . . . . . . . . . . . . . . . . . . . 3 3 -<br />
Math 3150 . . . . . . . . . . . . . . . . . . . . . . . - - 3<br />
Engr . Sci . & Mach. 3700, 3311 . . . . . . . - 4 4<br />
Met. Engr. 3110 . . . . . . . . . . . . . . . . . . . 4<br />
Humanities/social studies electives . . . . 4 4 4<br />
. .<br />
. . .<br />
. . .<br />
. . .<br />
. . . .<br />
. . . . .<br />
Junior<br />
Math 4610, 4710, 4550 . . . . . . . . . . . . . . 3<br />
Physics 3710-20-30 . . . . . . . . . . . . . . . . 3<br />
3<br />
3<br />
3<br />
3<br />
Elec Engr 3110-20 . . . . . . . . . . . . . . . . . . 3 3<br />
Nuclear Engr . 3210-20 . . . . . . . . . . . . . . . . 4 4<br />
Nuclear Engr . 3010 . . . . . . . . . . . . . . . . 4<br />
Ind . Engr .4520 . . . . . . . . . . . . . . . . . . . - 3<br />
Met . Engr 3160 . . . . . . . . . . . . . . . . . . - 3<br />
Humanities/social studies electives . . . . - 4 4<br />
.<br />
.<br />
.<br />
. . . .<br />
. .<br />
. . . . .<br />
Senior<br />
Nuclear Engr . 4110-20-30 . . . . . . . . . . . . 3 3 3<br />
Nuclear Engr . 4210-20-30 . . . . . . . . . . . . 3 3 3<br />
Nuclear Engr . 4710-20-30 . . . . . . . . . . . . 4<br />
Nuclear Engr . 3150 . . . . . . . . . . . . . . . 3<br />
4 3<br />
Nuclear Engr .4810-20 . . . . . . . . . . . . . . - 3 3<br />
Tech electives . . . . . . . . . . . . . . . . . . . 3 3 3<br />
TOTAL : 198 hours
Cooperative Curriculum in Aerospace <strong>Engineering</strong><br />
Students Working Spring and Fall Ouarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chem . 1120 . . . . . . . . 4 Chemistry 1130 . . . .4<br />
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 Basic Engr. 1330 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr . 1320 . . .4 Basic Engr. 1410 . . . 2<br />
SECOND Aero . Engr . 2040 . . . 1 Math 2850 . . . . . . . . . 4<br />
YEAR Math 2840 . . . . . . . . . 4 Physics 2320. . . . . . .3<br />
WORK Physics 2310 . . . . . . .3 WORK ES SM3311 . . . . . . .4<br />
Speech 2361 . . . . . . .4 Met. Enpr. 2110 . . . . 3<br />
'Humanities/social 'Humanities/ social<br />
studies elect . . . studieselect . . . ..*<br />
THIRD Math 2860 . . . . . . . . . 4 Aero . Engr . 3040 . . .1<br />
YEAR Physics 2330 . . . . . . . 3 Aero . Engr . 3610 . . .3<br />
WORK ES &M 3700 . . . . . . .4 WORK Elec . Engr. 3110 . . . .3<br />
Comp . Sci . 3150 . . . . 3 ES 3 M 3320 . . . . . . . 3<br />
'Humanities /social Mach . Engr . 3311 . .3<br />
studies elect . . . . ' Mech . Engr . 3910 . .3<br />
FOURTH Aero Engr . 3620 . . . . 3 Aero Engr. 3511 . . . . 4<br />
YEAR Aero Engr .3630 . . . . 3 Aero Engr. 3640 . . . . 3<br />
Elec . Engr . 3120 . . . . 3 Elec . Engr. 3130 . . . .3<br />
WORK Mach . Engr . 3321 . .2 WORK Mach . Engr . 3330 . .3<br />
Mach . Engr . 3410 . .3 Mach . Engr . 4420 . .3<br />
Mech . Engr . 3440 . .3 'Humanities/ social<br />
studieselect. . . .'<br />
FIFTH<br />
YEAR<br />
Aero Engr . 4210 . . . . 3 Aero Engr . 4510 . . . . 3 Aero Engr . 4230 . . . . 3<br />
Aero Engr . 4220 . . . . 3 Aero Engr . 4250 . . . . 3 Aero Engr . 4260 . . . . 3<br />
Aero Engr . 4471 . . . . 3 Aero Engr . 4491 . . . . 3 'Tech . elect . . . . . . . . 6<br />
Aero Engr . 4310 . . . . 1 Aero Engr . 4320 . . . .1 'Humanities/SOCIal<br />
Mech . Engr. 4510 . .4 'Humanities/social studies elect . . . . '<br />
'Tech . elect . . . . . . . . 3 studies elect . . .<br />
Industrial<br />
Engr . 4520 . . . . . 3<br />
Students Working Summerand Winter Quarters-Group B<br />
TOTAL : 203 hours<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chem . 1120 . . . . . . . . 4 Chemistry 1130 . . . . 4<br />
English 1010 or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . .3 WORK<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr . 1330 . . . 4<br />
Basic Engr . 1310 . . . 4 Basic Engr . 1320 . . . 4 Basic Engr . 1410 . . . 2<br />
SECOND Aero Engr . 2040 . . . . 1 Math 2850 . . . . . . . . . 4<br />
YEAR Math 2840 . . . . . . . . . 4 Physics 2320 . . . . . . .3<br />
Physics 2310 . . . . . . .3 WORK ES & M3311 . . . . . . .4 WORK<br />
'Humanities/social Met . Engr . 2110 . . . .3<br />
studies elect . . 'Humanities/ social<br />
Speech 2361 . . . . . . .4 studieselect. . . . '<br />
THIRD Math 2860 . . . . . . . . . 4 Aero Engr . 3040 . . . . 1<br />
YEAR Physics 2330 . . . . . . .3 Aero Engr. 3610 . . . . 3<br />
ES 8 M 3700 . . . . . . .4 Elec . Engr. 3110 . . . . 3<br />
Comp . Sci . 3150 . . . . 3 WORK ES & M 3320 . . . . . . .3 WORK<br />
'Humanities/ social Mech . Engr . 3311 . .3<br />
studies elect . . . . ' Mech . Engr . 3910 . . 3<br />
FOURTH Aero Engr . 3620 . . . . 3 Aero Engr .3511 . . . . 4<br />
YEAR Aero Engr . 3630 . . . . 3 Aero Engr. 3640 . . . . 3<br />
Elec . Engr . 3120 . . . . 3 Elec . Engr. 3130 . . . .3<br />
Mech . Engr. 3321 . .2 WORK Mech . Engr . 3330 . . 3 WORK<br />
Mech . Engr. 3410 . . 3 Mech . Engr . 4420 . . 3<br />
Mech . Engr. 3440 . .3 'Humanities/ social<br />
studieselect . . . . '<br />
FIFTH Aero Engr . 4210 . . . . 3 Aero Engr . 4510 . . . . 3 Aero Engr .4230 . . . . 3<br />
YEAR Aero Engr. 4220 . . . . 3 Aero Engr .4250 . . . . 3 Aero Engr .4260 . . . . 3<br />
Aero Engr. 4471 . . . . 3 Aero Engr .4491 . . . . 3 'Tech . elect . . . . . . . . 6<br />
Aero Engr . 4310 . . . . 1 Aero Engr . 4320 . . . .1 'Humanities/ social<br />
Mech . Engr . 4510 . . 4 'Humanities/social studieselect . . . . '<br />
'Tech . elect . . . . . . . . 3 studies elect . . .<br />
Industrial<br />
Engr . 4520 . . . . .3 TOTAL : 203 hours<br />
"Humanities/social studies electives ; minimum <strong>of</strong> 19 hours required .<br />
'Technical electives ; upper-division courses in engineering, mathematics, or physical science as approved by the department.<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong>
13 2 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
Cooperative Curriculum in Metallurgical <strong>Engineering</strong><br />
Students Working Spring and FallQuarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4<br />
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3<br />
Graphics 1410 . . . . .3 Basic Engr .1410 . . . 2 Basic Engr.1320 . . . 4<br />
Basic Engr. 1310 . . .4 Basic Engr .1330 . . . 4 Graphics 1420 . . . . . 3<br />
SECOND Chemet . Engr . 2010 .4 Chemet. Engr.2030 . 4<br />
YEAR Chemistry 2140-49 . 4 Math 2850 . . . . . . . . . 4<br />
WORK Math 2840 . . . . . . . . . 4 WORK ES SM 2720 . . . . . . . 3<br />
'Humanities/ social 'Humanities/ social<br />
studies elect . . . . 4 studies elect . . . . 4<br />
Physics 2310 . . . . . . . 3<br />
THIRD Chemet . Met . Engr. 3210 . . . .4<br />
YEAR Engr . 2020 . . . . .4 Met . Engr. 3040 . . . .4<br />
WORK Chem . Engr. 3410 . .4 WORK Math 3150 . . . . . . . . .3<br />
Math 2860 . . . . . . . . .4 'Humanities/social<br />
Physics 2320 . . . . . . .3 studies elect . . .4<br />
Met . Engr. 4610 . . . .3<br />
.<br />
. .<br />
.<br />
FOURTH<br />
YEAR WORK<br />
Chem . Engr 3420 . .4<br />
Met . Engr 3220 . . .3<br />
Met . Engr. 3050 . . . .3<br />
Elec . Engr . 3110 . . .3<br />
ES & M 3311 . . . . . . .4<br />
WORK<br />
Met . Engr . 3230 . . . .4<br />
Met . Engr . 3060 . . . .3<br />
Elec. Engr . 3120<br />
or 3130 . . . . . . . . . .3<br />
'Humanities/social<br />
studies elect . . .4<br />
FIFTH Chemet . Eng . 2011 .0 Met. Engr . 4520 . . . .3 Met . Engr. 3150 . . . .3<br />
YEAR Met . Engr. 4240 . . . .3 Met. Engr . 4740 . . . .3 Met . Engr. 4770 . . . .3<br />
Met . Engr. 4510 . . . .3 Met . Engr . 4760 . . . .3 Met . Engr. 4250 . . . .3<br />
Met . Engr. 4730 . . . .3 Chem . Engr . 4110 . .3 Chemet.<br />
Chemet. Tech . elective . . . . . .3 Engr . 4320 . . . . .1<br />
Engr . 4310 . . . . .1 Tech . elective . . . . . .3<br />
Chemistry 4110 . . . .3 'Humanities/social<br />
'Humanities/social studies elect . . .4 TOTAL: 200 hours<br />
studies elect . . .4<br />
Students Working Summerand WinterQuarters-Group B<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4<br />
English1010or 1011 .3 English 1020 . . . . . . .3 English 1033 . . . . . . . 3 WORK<br />
Graphics 1410 . . . . .3 Basic Engr . 1420 . . . 2 Basic Engr . 1320 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr . 1330 . . . 4 Graphics 1420 . . . . . 3<br />
SECOND Chemet. Engr. 2010 .4 Chemet. Engr.2020 . 4<br />
YEAR Chemet. Engr. 2011 .0 Chemet . Engr.2030 . 4<br />
Chemistry 2140-49 . 4 WORK Chem . Engr . 3410 . .4 WORK<br />
Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4<br />
'Humanities/ social<br />
studies elect . . . . 4<br />
THIRD Met . Engr . 3040 . . . .4 Math 2860 . . . . . . . . .4<br />
YEAR Physics 2310 . . . . . . .3 Math 3150 . . . . . . . . .3<br />
Met . Engr . 3210 . . . .4 WORK ES 8 M 2720 . . . . . . .3 WORK<br />
Chem . Engr . 3420 . .4 Physics 2320 . . . . . . .3<br />
'Humanities/social<br />
studies elect . . .4<br />
FOURTH Met. Engr . 3050 . . . .3 Met . Engr. 3060 . . . .3<br />
YEAR Met . Engr . 3220 . . . .3 Met . Engr. 3230 . . . .4<br />
ES 8 M 3311 . . . . . . .4 WORK Elec . Engr. 3120 WORK<br />
Elec . Engr . 3110 . . . .3 or 3130 . . . . . . . .3<br />
'Humanities/social 'Humanities/social<br />
studies elect . . .4 studies elect . . .4<br />
Met . Engr. 4610 . . . .3<br />
FIFTH Met . Engr . 4240 . . . .3 Met . Engr . 4520 . . . .3 Met . Engr . 3150 . . . .3<br />
YEAR Met . Engr . 4510 . . . .3 Met . Engr . 4740 . . . .3 Met . Engr. 4770 . . . .3<br />
Met . Engr . 4730 . ; . .3 Met . Engr . 4760 . . . .3 Met . Engr. 4250 . . . .3<br />
Chemet . Chem . Engr . 4110 . .3 Chemet . Engr . 4320 1<br />
Engr . 4310 . . . . . 1 Tech . elective . . . . . .3 Tech . elective . . . . . .3<br />
Chemistry 4110 . . . .3 'Humanities/social<br />
'Humanities/social studies elect . . .4<br />
studies elect . . .4 TOTAL : 200 hours<br />
'A minimum<strong>of</strong> one-half (12hours) <strong>of</strong> the non-technical electivesmust betakenfrom asingle groupunder one <strong>of</strong> the threeareas<strong>of</strong> the<br />
humanities and social studies electives .
Cooperative Curriculum in Civil <strong>Engineering</strong><br />
Students Working Spring and Fall Quarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4<br />
English1010 or 1011 .3 English 1020 . . . . . . . 3 WORK English 1033 . . . . . . . 3<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr. 1330 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . .4 Basic Engr.1410 . . . 2<br />
SECOND Physics 2310 . . . . . . . 3 Civil Engr . 2260 . . . . 3<br />
YEAR Civil Engr . 2310 . . . . 1 Engr . Sci . & Mach .<br />
WORK Engr . Sci . & Mech . WORK 2720 . . . . . . . . . . .3<br />
3311 . . . . . . . . . . .4 Math 2850 . . . . . . . . . 4<br />
Math 2840 . . . . . . . . . 4 'Humanities/ social<br />
Geology 2610 . . . . . . 3 studies elect . . . . . 4<br />
Physics 2320 . . . . . . .3<br />
THIRD Civil Engr . 3210 . . . . 3 Civil Engr . 3600 . . . . 3<br />
YEAR Engr . Sci . & Mech . Civil Engr . 3710 . . . . 3<br />
WORK 3110 . . . . . . . . . . .3 WORK Civil Engr . 4410 . . . . 3<br />
Math 2860 . . . . . . . . . 4 Elec . Engr . 3110 . . . . 3<br />
Civil Engr. 2360 . . . .3 Envr . Engr . 3120 . . . 3<br />
Envr . Engr. 4510 . . .3 Civil Engr . 4800 . . . . 3<br />
FOURTH Civil Engr . 3310 . . . .3 Civil Engr . 4220 . . . . 3<br />
YEAR Civil Engr . 3610 . . . .3 Comp . Sci . 3150 . . . . 3<br />
WORK Civil Engr . 4110 . . . . 3 WORK Envr. Engr . 4520 . . . 3<br />
Civil Engr . 3320 . . . . 1 Humanities/ social<br />
Envr. Engr . 3330 . . . 3 studies elect . . .4<br />
Civil Engr . 4430 . . . .3 2Mech . Engr . 3110 . .3<br />
.<br />
. . . . .<br />
FIFTH Economics 2110 . . .3 Civil Engr . 4320 . . . . 1 Civil Engr. 4330 . . . . 1<br />
YEAR<br />
Humanities Isocial<br />
studies elect . . . . . 4<br />
'Tech . elect . . . . . . . 9<br />
Humanities/ social<br />
studies elect . . . . .4<br />
Tech . elect . . . . . . .9<br />
4Math/sci . elect . . . . .3<br />
Humanities/ social<br />
studies elect . . . . 7<br />
Tech . elect . . . . . . 9<br />
Students Working Summerand Winter Ouarters-Group 8<br />
TOTAL : 201 hours<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4<br />
English 1010 or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . . 3 WORK<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr . 1330 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . . 4 Basic Engr . 1410 . . . 2<br />
SECOND Civil Engr . 2260 . . . . 3 Civil Engr . 2360 . . . . 3<br />
YEAR Physics 2310 . . . . . . . 3 Engr . Sci . & Mach .<br />
Engr . Sci . & Mach . WORK 2720 . . . . . . . . . . .3 WORK<br />
3311 . . . . . . . . . . .4 Math 2850 . . . . . . . . . 4<br />
Math 2840 . . . . . . . . . 4 'Humanities/ social<br />
Geology 2610 . . . . . . 3 studies elect . . . . . 4<br />
Physics 2320 . . . . . . . 3<br />
THIRD Civil Engr . 2310 . . . . 1 Civil Engr . 4410 . . . .3<br />
YEAR Math 2860 . . . . . . . . . 4 Civil Engr . 3610 . . . . 3<br />
Civil Engr. 3210 . . . .3 Civil Engr . 4800 . . . .3<br />
Engr . Sci . & Mach . WORK Elec . Engr . 3110 . . . .3 WORK<br />
3110 . . . . . . . . . . .3 Civil Engr . 4110 . . . .3<br />
Envr. Engr . 4510 . . .3<br />
Civil Engr . 3710 . . . .3<br />
FOURTH Civil Engr . 3310 . . . . 3 Civil Engr . 4220 . . . .3<br />
YEAR Civil Engr. 3320 . . . . 1 Comp . Sci . 3150 . . . .3<br />
Civil Engr. 3600 . . . . 3 Humanities/ social<br />
Envr . Engr . 3120 . . .3 WORK studies elect . . . . . 4 WORK<br />
MMech . Engr . 3110 . .3 Envr . Engr. 3330 . . . 3<br />
Civil Engr. 4430 . . . . 3 Envr . Engr. 4520 . . . 3<br />
FIFTH Economics 2110 . . . 3 Civil Engr . 4320 . . . . 1 Civil Engr . 4330 . . . . 1<br />
YEAR Humanities/ social Humanities /social Humanities/ social<br />
studies elect . . . . . 4 studies elect . . . . . 4 studies elect. . . . . 7<br />
'Tech . elect . . . . . . . . 9 4Math/sci . elect . . . . .3 Tech . elect . . . . . . . . 9<br />
Tech . elect . . . . . . . . .9<br />
TOTAL : 201 hours<br />
'Humanities/social studies courses approved by the department .<br />
'Mechanical engineering 3520 or 3311 may be substituted .<br />
'Technical electives must be approved by thestudent's adviser and the primary and one <strong>of</strong> thetwosecondary areas <strong>of</strong> study must<br />
come from the departmenal list <strong>of</strong> approved courses for 15 credits and 6 credits respectively .<br />
'Math/science courses approved by the department .<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong>
134 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
Cooperative Curriculum in Electrical <strong>Engineering</strong><br />
Students Working Spring and Fall Quarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4<br />
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3<br />
Basic Engr . 1310 . . .4 Basic Engr . 1330 . . .4 Basic Engr. 1320 . . .4<br />
Basic Engr . 1410 . . .2 Graphics 1420 . . . . .3<br />
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4<br />
YEAR Physics 2310 . . . . . . .3 Physics 2320 . . . . . . .3<br />
WORK EE 2010 . . . . . . . . . . .3 WORK EE 2020 . . . . . . . . . . .3<br />
Met. Engr . 2110 . . . .4 Humanities/social<br />
Humanities/social studies elect . . .4<br />
studies elect . . .4 Engr . Sci . &<br />
Mach . 2720 . . . .3<br />
THIRD Math 2860 . . . . . . . . .4 EE 3810 . . . . . . . . . . .3<br />
YEAR Physics 2330 . . . . . . .3 EE 3040 . . . . . . . . . . .3<br />
WORK EE 2030 . . . . . . . . . . .3 WORK EE 3010 . . . . . . . . . . .3<br />
EM 3710 or Met . EE 3190 . . . . . . . . . . .3<br />
Engr. 3130 . . . . .3 Mach . Engr . 3520 . .3<br />
Humanities/social Math 3150 . . . . . . . . .3<br />
studies elect . . . .4<br />
FOURTH EE 3820 . . . . . . . . . . .3 EE 3830 . . . . . . . . . . .3<br />
YEAR EE 3050 . . . . . . . . . . .3 EE 3060 . . . . . . . . . . .3<br />
WORK EE 3720 . . . . . . . . . . .3 WORK EE 3100 . . . . . . . . . . .3<br />
EE 3180 . . . . . . . . . . .3 Mach . Engr . 3540 . .3<br />
Mach . Engr. 3530 . .3 EE 3090 . . . . . . . . . . .3<br />
EE 3080 . . . . . . . . . . .3<br />
TOTAL : 203-206hours<br />
FIFTH See Senior Year Areas <strong>of</strong> interest, page 128 .<br />
YEAR<br />
Students Working Summer and Winter Quarters-Group 8<br />
Fell Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4<br />
English1010or 1011 .3 English 1020 . . . . . . .3 English 1033 . . . . . . .3 WORK<br />
Graphics 1410 . . . . .3 Basic Engr . 1410 . . .2 Basic Engr . 1320 . . .4<br />
Basic Engr . 1310 . . .4 Basic Engr .1330 .. . . .4 Graphics 1420 . . . . .3<br />
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4<br />
YEAR Physics 2310 . . . . . . .3 Physics 2320 . . . . . . .3<br />
EE 2010 . . . . . . . . . . .3 WORK EE 2020 . . . . . . . . . . .3 WORK<br />
Met . Engr . 2110 . . . .3 Humanities/social<br />
Humanities/social studies elect . . .4<br />
studies elect . . .4 Engr. Sci . &<br />
Mech . 2720 . . . .3<br />
. . .<br />
. .<br />
.<br />
. .<br />
THIRD<br />
YEAR<br />
Math 2860 . . . . . . . .4<br />
Physics 2330 . . . . . . .3<br />
EE 2030 . . . . . . . . . . .3<br />
EM 3710 or Met<br />
Engr . 3130 . . . . .3<br />
Humanities/social<br />
studies elect . . .4<br />
WORK<br />
EE 3810 . . . . . . . . .3<br />
EE 3040 . . . . . . . . .3<br />
EE 3010 . . . . . . . . . .3<br />
EE 3190 . . . . . . . . .3<br />
Mech . Engr . 3520 . .3<br />
Math 3150 . . . . . . . . .3<br />
.<br />
.<br />
FOURTH EE 3820 . . . . . . . . . . .3 EE 3830 . . . . . . . . . . .3<br />
YEAR EE 3050 . . . . . . . . . .3 EE 3060 . . . . . . . . . . .3<br />
EE 3720 . . . . . . . . . .3<br />
EE 3180 . . . . . . . . . . .3 WORK<br />
EE 3100 . . . . . . . . . . .3<br />
Mech . Engr. 3540 . .3<br />
Mech . Engr. 3530 . .3 EE 3090 . . . . . . . . . . .3<br />
EE 3080 . . . . . . . . . . .3<br />
FIFTH See Senior Year Areas <strong>of</strong> interest, page 128 .<br />
YEAR<br />
WORK<br />
WORK<br />
TOTAL : 203-206hours
Cooperative Curriculum in <strong>Engineering</strong> Physics<br />
Students Working Spring and Fall Quarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4<br />
YEAR English1010 or 1011 .3 English 1020 . . . . . . .3 Chemistry 1130 . . . .4<br />
Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 WORK English 1033 . . . . . . .3<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 'Non-tech . elect. . . .4<br />
2Physics 1310 . . . . . .4 2Physics 1320 . . . . . .4 2Physics 1330 . . . . . .4<br />
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4<br />
YEAR Physics 2310 . . . . . . .3<br />
Physics 2320 . . . . . . .3<br />
WORK<br />
3Engr .<br />
WORK<br />
elect. . . . . . . .3<br />
3Engr . elect. . . . . . . .3<br />
'Non-tech . elect . . . .8 'Non-tech . elect . . . .8<br />
THIRD Math 2860 . . . . . . . . .4 Math elective . . . . . .3<br />
YEAR Physics 2330 . . . . . . .3 Physics 3230 . . . . . . .3<br />
WORK Physics 3210 . . . . . . .3 WORK 4Physics lab . . . . . . . .3<br />
4Physics lab . . . . . . . .3 Engr. elective . . . . . .3<br />
'Non-tech . elect . . . .4 'Non-tech . elect . . . .3<br />
FOURTH Math elective . . . . . .3 Math elective . . . . . .3<br />
YEAR Physics 3220 . . . . . . .3 Physics lab . . . . . . . .3<br />
WORK Physics 4210 . . . . . . .3 WORK Physics 4220 . . . . . . .3<br />
Elective . . . . . . . . . . . .3 Elective . . . . . . . . . . . .3<br />
5Tech . elective . . . . .3 5Tech . elective . . . . .3<br />
.<br />
.<br />
. .<br />
. .<br />
. . . .<br />
.<br />
FIFTH<br />
YEAR<br />
aPhysics 4110 . . . . . .3<br />
Physics 4240<br />
or 4250 . . . . . . . .3<br />
7Physics elective . . .3<br />
Elective . . . . . . . . . . .3<br />
aPhysics 4120 . . . . .3<br />
7Physics elective . . .3<br />
5Tech . elective . . . . .3<br />
3Engr. elective . . . . .3<br />
Elective . . . . . . . . . . .3<br />
aPhysics 4130 . . . . . .3<br />
7Physics elective . .3<br />
5Tech . elective . . .3<br />
3Engr . elective . . .3<br />
Elective . . . . . . . . . .3<br />
3Engr . elective . . . .3<br />
Students Working Summer and Winter Quarters-Group 8<br />
. .<br />
. . .<br />
. .<br />
FIFTH<br />
YEAR<br />
aPhysics 4110 . . . . . .3<br />
Physics 4240<br />
or 4250 . . . . . .3<br />
aPhysics 4120 . . . . .3<br />
7Physics elective . . .3<br />
5Tech elective . . . . .3<br />
aPhysics 4130 . . . . .3<br />
7Physics elective . . .3<br />
5Tech . elective . . . . .3<br />
7Physics elective . . .3<br />
Elective . . . . . . . . . . . .3<br />
3Engr.-elective . . . . .3<br />
3Engr. elective . . . . .3<br />
Elective . . . . . . . . . . . .3<br />
3Engr. elective . . . . .3<br />
Elective . . . . . . . . . . 3<br />
'To be taken from the <strong>College</strong> <strong>of</strong> Liberal Arts triads <strong>of</strong> Language, Literature and Arts, or History and Society, with at<br />
least 16 hours from courses approved for Language, Literature and Arts .<br />
2The honors sequence (Physics 1316-28-38) is recommended for qualified majors .<br />
3To be taken in <strong>College</strong> <strong>of</strong> <strong>Engineering</strong> .<br />
4From Physics 3510-20-30, 3610-2030, 4510-20-30, 454050 .<br />
SFrom engineering, mathematics, computer science, physics, chemistry, or astronomy.<br />
°Students not pursing graduate studies may substitute Physics 37102030.<br />
7From Physics 3520, 37102030, 4040, 4110203040, 4160 : 42304050, 451020304050, 46102030, 47102030,<br />
Astronomy 411G- 20- 30 .<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
TOTAL : 199 hours<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4<br />
YEAR English1010 or 1011 .3 English 1020 . . . . . . .3 'Non-tech . elect . . . .4<br />
Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4 WORK<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 English 1033 . . . . . . .3<br />
2Physics 1310 . . . . . .4 2Physics 1320 . . . . . .4 2Physics 1330 . . . . . .4<br />
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4<br />
YEAR 'Non-tech . elect . . . .8<br />
'Non-tech . elect. . . .8<br />
Physics 2310 . . . . . . .3<br />
WORK<br />
Physics 2320 . . . . . . .3<br />
3Engr . elect . . . . . . . .3 3Engr . elect . . . . . . . .3<br />
WORK<br />
THIRD Math 2860 . . . . . . . . .4 Math elective . . . . . .3<br />
YEAR Physics 2330 . . . . . . .3 Physics 3220 . . . . . . .3<br />
Physics 3210 . . . . . . .3 WORK Physics 4210 . . . . . . .3 WORK<br />
4Physics lab . . . . . . . .3 Engr. elect. . . . . . . . .3<br />
'Non-tech elect. . . . .4 'Non-tech . elect . . . .3<br />
FOURTH Math elective . . . . . .3 Math elective . . . . . .3<br />
YEAR 4Physics lab . . . . . . . .3 Physics 4220 . . . . . . .3<br />
sEngr. elective . . . . .3 WORK Physics 3230 . . . . . . .3 WORK<br />
Electives . . . . . . . . . . .6 4Physics lab . . . . . . . .3<br />
3Engr. elect . . . . . . . .3<br />
TOTAL : 199 hours
13 6 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
Cooperative Curriculum in <strong>Engineering</strong> Science<br />
Students Working Spring and Fall Quarters-GroupA<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . .4<br />
English1010or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr .1330 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . . 4 Basic Engr .1410 . . . 2<br />
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4<br />
YEAR Physics 2310 . . . . . . . 3 Physics2320 . . . . . . . 3<br />
WORK Met . Engr .2110 . . . .3 WORK ES &M3311 . . . . . . .4<br />
ES&M 3700 . . . . . . .4 'Humanities /social<br />
'Humanities1 social studies elect . . . . 4<br />
studies elect . . . . 4<br />
THIRD Math 2860 . . . . . . . . . 4 Mech . Engr . 3311 . .3<br />
YEAR Physics 2330 . . . . . . . 3 Else . Engr . 3120. . . . 3<br />
WORK ES&M3110 . . . . . . . 3 WORK Comp . Sci . 3150 . . . . 3<br />
Elec . Engr . 3110 . . . .3 'Phys . or bio . sci .<br />
'Humanities/ social elective . . . . . . . .3<br />
studies elect . . . . 4 'Engr . sci . elect . . . . 3<br />
FOURTH Mach . En r.3440<br />
Math elective . . . . . . 3<br />
YEAR or 3548 . . . . . . . . . 3<br />
'Phys. or bio . sci .<br />
ES & M 3320 elective . . . . . . . .3<br />
WORK or3120 . . . . . . . . . 3, WORK 'Indus. Engr . 4520 . .3<br />
'Phys . or Sio . Sci .<br />
elective . . . . . . . .3<br />
Engr . sci . elect . . . . 6<br />
'Engr . sci . elect . . . . 6<br />
FIFTH ES &M 4810 . . . . . . .4 ES & M 4010 . . . . . . .4 'Engr . sci . elect . . . . 3<br />
YEAR 'Engr . sci . elect . . . . 3 ES & M 4620 . . . . . . .4 'Tech . elective . . . . . 9<br />
'Tech . elect . . . . . . . . 6 'Tech . elect . . . . . . . . 3 'Humanities/ social<br />
'Humanities/ social 'Humanities/social studies elect . . . . 4<br />
studies elect . . . . 4 studies elect . . . . 4<br />
Students Working Summerand Winter Quarters-Group B<br />
'Humanities/ social studies courses approved by the department .<br />
'Appropriate courses approved by thedepartment .<br />
'Appropriate courses in the<strong>College</strong> <strong>of</strong> <strong>Engineering</strong> approved by the department.<br />
'Upper-division courses in mathematics, statistics, natural science, or engineering approved by the department .<br />
TOTAL: 196 hours<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . .4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4<br />
English1010or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . .3 WORK<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr . 1330 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . . 4 Basic Engr .1410 . . . 2<br />
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4<br />
YEAR Physics 2310 . . . . . . .3 Physics 2320. . . . . . .3<br />
Met . Engr . 2110 . . . . 3 WORK ES&M3311 . . . . . . .4 WORK<br />
ES & M 3700 . . . . . . .4 'Humanities/ social<br />
'Humanities/ social studies elect . . . . 4<br />
studies elect . . . . 4<br />
THIRD Math 2860 . . . . . . . . . 4 Mach . Engr. 3311 . .3<br />
YEAR Physics 2330. . . . . . . 3 Elec . Engr. 3120 . . . .3<br />
ES &M3110 . . . . . . .3 WORK Comp . Sci . 3150 . . . . 3 WORK<br />
Elect . Engr . 3110 . . . 3 'Phys . or bit).<br />
'Humanities/ social sci. elect . . . . . . . 3<br />
studies elect . . . . 4 'Engr . sci . elective . 3<br />
FOURTH Mach . Engr. 3440 Math elective . . . . . . 3<br />
YEAR or3540 . . . . . . . . . 3 'Phys . or bio.<br />
ES &M 3320 WORK sci . elect . . . . . . .3 WORK<br />
or3120 . . . . . . . . . 3 Indus . Engr . 4520 . .3<br />
'Phys . or bio. 'Engr . sci . elect . . . . 6<br />
sci . elect . . . . . . . 3<br />
'Engr . sci . elective .6<br />
FIFTH ES &M 4810 . . . . . . .4 ES &M4010 . . . . . . .4 'Engr . sci . elective . 3<br />
YEAR 'Engr . sci . elective .3 ES &M 4620 . . . . . . . 4 'Technical elective . 9<br />
'Technical elective . 6 'Tech . elect . . . . . . . . 3 'Humanities/ social<br />
'Humanities/ social 'Humanities /social studies elect . . . . 4<br />
studies elect. . . . 4 studies elect . . . . . 4<br />
TOTAL : 196 hours
Cooperative Curriculum in Industrial <strong>Engineering</strong><br />
Students Working Spring and FallQuarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4<br />
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3<br />
Basic Engr . 1410 . . .2 Graphics 1410 . . . . .3 Basic Engr . 1330 . . .4<br />
Basic Engr . 1310 . . .4 Basic Eng . 1320 . . . .4 Graphics 1420 . . . . .3<br />
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4<br />
YEAR English elective . . . .4 English elective . . . .4<br />
WORK Physics 2310 . . . . . . .3 WORK Physics 2320 . . . . . . .3<br />
ES & M 3311 . . . . . . .4 ES & M 3700 . . . . . . .4<br />
Indus . Engr . 2310 . .1 Statistics 3450 . . . . .1<br />
THIRD Math 2860 . . . . . . . . .4 Comp. Sci . 3150 . . . .3<br />
YEAR Humanities/social Indus . Engr . 3620 . .3<br />
WORK studies elect . . . .4 WORK Indus . Engr . 3430 . .3<br />
Physics 2330 . . . . . . .3 Elec . Engr . 3110 . . . .3<br />
Indus. Engr. 3610 . .3 Mach . Engr . 3520 . .3<br />
Statistics 3460 . . . . .3 Accounting 2110 . . .3<br />
FOURTH Indus . Engr. 2320 . .3 Indus . Engr . 3510 . .3<br />
YEAR Indus . Engr. 3630 . .3 Indus . Engr. 3520 . .3<br />
WORK Indus . Engr. 3440 . .3 WORK Met . Engr . 2110 . . . .3<br />
Elec . Engr. 3120 . . . .3 Elec . Engr. 3130 . . . .3<br />
Mach . Engr. 3530 . .3 Indus . Engr. 4520 . .3<br />
Accounting 2130 . . .3 Economics 2110 . . .3<br />
FIFTH Humanities/social Indus . Engr. 4200 . .4 Indus . engr. elect . . .3<br />
YEAR studies elect . . .4 Indus . Engr. 4590 . .3 Indus . Engr . 4610 . .3<br />
Indus . Engr. 4060 . .3 Indus . Engr. 4070 . .3 Indus . engr . elect . . .3<br />
Indus . Engr. 4040 . .3 Indus . Engr. 4600 . .3 Indus . Engr. 4840 . .3<br />
Indus . Engr. 4870 . .3 Tech . elective . . . . . .3 Indus . Engr. 4310 . .1<br />
Tech . elective . . . . . .3 Civil Engr . 4230 . . . .3<br />
Students Working Summerand Winter Quarters-Group B<br />
TOTAL : 206 hours<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4<br />
English1010or 1011 .3 English 1020 . . . . . . .3 English 1033 . . . . . . .3 WORK<br />
Basic Engr . 1330 . . .4 Graphics 1410 . . . . .3 Graphics 1420 . . . .3<br />
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . .4 Basic Engr . 1410 . . .2<br />
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4<br />
YEAR English elective . . . .4 English elective . . . .4<br />
Physics 2310 . . . . . . .3 WORK Physics 2320 . . . . . . .3 WORK<br />
ES & M 3311 . . . . . . .4 ES & M 3700 . . . . . . .4<br />
Indus . Engr. 2310 . .1 Statistics 3450 . . . . . 1<br />
THIRD Math 2860 . . . . . . . . .4 Comp. Sci . 3150 . . . .3<br />
YEAR Humanities/social Indus . Engr. 3620 . .3<br />
studies elect . . . .4 WORK Indus . Engr. 3430 . .3 WORK<br />
Physics 2330 . . . . . . .3 Elec . Engr. 3110 . . . .3<br />
Indus . Engr. 3610 . .3 Mach . Engr. 3520 . .3<br />
Statistics 3460 . . . . .3 Accounting 2110 . . .3<br />
FOURTH Indus . Engr. 2320 . .3 Indus. Engr . 3510 . .3<br />
YEAR Indus . Engr. 3630 . .3 Indus. Engr . 3520 . .3<br />
Indus . Engr. 3440 . .3 WORK Met . Engr . 2110 . . . .3 WORK<br />
Elec . Engr. 3120 . . . .3 Elec . Engr . 3130 . . . .3<br />
Mach . Engr. 3530 . .3 Indus . Engr . 4520 . .3<br />
Accounting 2130 . . .3 Economics 2110 . . .3<br />
FIFTH Humanities/social Indus . Engr. 4200 . .4 Indus . engr . elect . . .3<br />
YEAR studies elect . . .4 Indus . Engr. 4590 . .3 Indus . Engr . 4610 . .3<br />
Indus . Engr. 4060 . .3 Indus . Engr. 4070 . .3 Indus . engr . elect . . .3<br />
Indus . Engr. 4040 . .3 Indus . Engr. 4600 . .3 Indus . Engr . 4840 . .3<br />
Indus . Engr. 4870 . .3 Tech . elective . . . . . .3 Indus . Engr . 4310 . .1<br />
Tech . elective . . . . . .3 Civil Engr . 4230 . . . .3<br />
TOTAL : 206 hours<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong>
13 8Co <strong>of</strong> En<br />
Cooperative Curriculum in Mechanical <strong>Engineering</strong><br />
Students Working Spring and Fall Quarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1850 . . . . . . . . .4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4<br />
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3<br />
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 Basic Engr. 1330 . . .4<br />
Basic Engr . 1310 . . .4 Basic Engr . 1320 . . .4 Basic Engr. 1410 . . .2<br />
.<br />
.<br />
.<br />
. .<br />
. .<br />
SECOND Mach . Engr . 2040 1 Math 2850 . . . . . . . .4<br />
YEAR<br />
WORK<br />
Math 2840 . . . . . . . .4<br />
Physics 2310 . . . . . .3 WORK<br />
Physics 2320 . . . . . . .3<br />
ES & M 3311 . . . . . . .4<br />
'Humanities/social Met Engr 2110 . . . .3<br />
studies elect . 'Humanities/social<br />
Speech 2316 . . . . . . .4 studies elect . . .<br />
. .<br />
. .<br />
.<br />
.<br />
.<br />
THIRD Math 2860 . . . . . . . .4 Mach Engr . 3311 . .3<br />
YEAR Physics 2330 . . . . . .3 Mach . Engr . 3610 .3<br />
WORK ES & M 3700 . . . . . . .4 WORK Mach . Engr . 3040 .1<br />
Comp Sci . 3150 . . . .3 Mech . Engr . 3910 . .3<br />
'Humanities/social ES & M 3320 . . . . . .3<br />
studies elect . . . Elec . Engr . 3110 . . . .3<br />
. .<br />
FOURTH Mach . Engr. 3321 . .2 Mach . Engr. 3330 . .3<br />
YEAR Mach . Engr. 3620 . .3<br />
Mech . Engr. 3650 . .3<br />
Mach . Engr . 3630<br />
Mech . Engr . 3660<br />
. .3<br />
. .3<br />
WORK Mech . Engr. 3440 . .3 WORK Mech . Engr. 4220 . .3<br />
Mach Engr. 3410 . .3 Aero . Engr. 3511 . .4<br />
Elec. Engr . 3120 . . . .3 Elec . Engr. 3150 . . . .3<br />
. .<br />
. . .<br />
. .<br />
.<br />
. . . .<br />
. .<br />
FIFTH Mech . Engr . 4310 . .1 Mach Engr 4320 . .1 ZMech . engr . elect . .6<br />
YEAR Mach Engr 4510 . .4 Mach Engr . 4491 . .3 'Tech . elective . . . . .3<br />
Mech . Engr . 4471 .3 Mach Engr . 4680 . .3 'Humanities/social<br />
Mech . Engr . 4670 .3 ZMech . engr . elect . .3 studies elect . . .<br />
ZMech . engr. elect . . .3 'Humanities/social<br />
'Tech elect . . . . .3 studies elect . . .<br />
Industrial<br />
Engr 4520 . . . .3<br />
TOTAL : 203 hours<br />
Students Working Spring and Winter Quarters-Group 8<br />
. . . . . . . .<br />
. .<br />
. .<br />
. .<br />
FIRST<br />
Fall<br />
Math 1840 . . . . . .4<br />
Winter<br />
Math 1850 . . . . . .4<br />
Spring<br />
Math 1860 . . . . . . .4<br />
Summer<br />
YEAR Chemistry 1110 . . .4 Chemistry 1120 . . .4 Chemistry 1130 . . . .4<br />
English1010 or 1011 .3 English 1020 . . . . . .3 English 1033 . . . . . .3 WORK<br />
Graphics 1410 . . . .3<br />
Basic Engr<br />
Graphics 1420 . . . . . .3 Basic Engr. 1330 . .4<br />
. . 1310 . . .4 Basic Engr . 1320 . . .4 Basic Engr 1410 . . .2<br />
. .<br />
. .<br />
.<br />
.<br />
.<br />
SECOND Mach . Engr . 2040 1<br />
YEAR Math 2840 . . . . . . .4<br />
Physics 2310 . . . . . .3<br />
'Humanities/social<br />
WORK<br />
Math 2850 . . . . . . . . .4<br />
Physics 2320 . . . . . . .3<br />
ES & M 3311 . . . . . .4<br />
Met. Engr 2110 . . . .3<br />
WORK<br />
studies elect .<br />
Speech 2316 . . . . . .4<br />
'Humanities/social<br />
studies elect . . .<br />
. .<br />
.<br />
. .<br />
. .<br />
.<br />
.<br />
THIRD Math 2860 . . . . . . . .4 Mech . Engr 3311 . .3<br />
YEAR Physics 2330 . . . . . . .3<br />
ES & M 3700 . . . . . .4<br />
Comp . Sci . 3150 . . . .3<br />
'Humanities/social<br />
WORK<br />
Mech . Engr 3610 . .3<br />
Mach . Engr 3040 . .1<br />
Mech Engr 3910 . .3<br />
ES & M 3320 . . . . . .3<br />
WORK<br />
studies elect . . . Elec Engr . 3110 . . . .3<br />
FOURTH Mech . Engr . 3321 . .2 Mech . Engr . 3330 . .3<br />
YEAR Mech . Engr . 3620 . .3 Mach . Engr . 3630 . .3<br />
Mech . Engr . 3650 . .3 WORK Mach . Engr . 3660 . .3 WORK<br />
Mach . Engr . 3440 . .3 Mech . Engr . 4220 . .3<br />
Mech . Engr . 3410 . .3 Aero . Engr . 3511 . . .4<br />
Elec . Engr . 3120 . . . .3 Elec . Engr . 3130 . . . .3<br />
. . .<br />
. . .<br />
. .<br />
. .<br />
. . .<br />
.<br />
FIFTH<br />
YEAR<br />
Mach . Engr . 4310<br />
Mech . Engr . 4510<br />
Mech . Engr . 4471<br />
Mech . Engr . 4670<br />
.1<br />
.4<br />
.3<br />
.3<br />
Mach Engr . 4320 .1<br />
Mech . Engr . 4491 .3<br />
Mech . Engr . 4680 .3<br />
ZMech engr . elect - .3<br />
ZMech . engr . elect . .3<br />
'Tech . elective . . . .3<br />
'Humanities/social<br />
studies elect . . .<br />
ZMech . engr . elect . . .3 'Humanities/social<br />
'Tech . elect . . . . . .3 studies elect<br />
Industrial<br />
. .<br />
Engr . 4520 . . . .3<br />
TOTAL: 203 hours<br />
"Humanities/social studies electives : minimum <strong>of</strong> 19 hours required .<br />
=Mechanical engineering electives : senior courses in mechanical or aerospace engineering not otherwise required .<br />
'Technical electives : upper-division courses in engineering, mathematics, or physics as approved by the department .
Cooperative Curriculum in Agricultural <strong>Engineering</strong><br />
(See <strong>College</strong> <strong>of</strong> Agriculture Section)<br />
Cooperative Curriculum in Chemical <strong>Engineering</strong><br />
Students Working Spring and Fall Quarters-Group A<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . . 4<br />
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3<br />
Graphics 1410 . . . . .3 Basic Engr. 1410 . . .2 Basic Engr . 1320 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr. 1330 . . .4 Graphics 1420 . . . . . 3<br />
.<br />
. .<br />
.<br />
SECOND<br />
YEAR<br />
WORK<br />
Chemet. Engr.2010 .4<br />
Chemistry 2140-49 .4<br />
Math 2840 . . . . . . .4 WORK<br />
Chemet. Engr. 2030 .4<br />
Math 2850 . . . . . . . .4<br />
ES&M 2720 . . . . . . .3<br />
'Humanities/social<br />
'Humanities/ social<br />
studies elect . . . . . 4 studies elect . . . . . 4<br />
Physics 2310. . . . . .3<br />
.<br />
THIRD<br />
YEAR<br />
WORK<br />
Chemet. Engr. 2020 .4<br />
Chem . Engr . 3410 . .4<br />
Math 2860 . . . . . . . . .4<br />
WORK<br />
Chem : Engr . 3040 . .4<br />
Chemistry 3211-19 . 4<br />
Math 3150 . . . . . . . . 3<br />
Physics 2320 . . . . . . . 3 Humanities/ social<br />
studies elect . . . . . 4<br />
.<br />
.<br />
FOURTH<br />
YEAR<br />
WORK<br />
Chem . Engr . 3420 . .4<br />
Chem . Engr .3050 . .4<br />
Chem . Engr . 4110 . . 3<br />
Chemistry 3221-29 ..4<br />
WORK<br />
Chem . Engr . 3440 . .3<br />
Chem . Engr . 3610 . .3<br />
Elec . En~r . 3120<br />
or3130 . . . . . . . .3<br />
Elec . Engr . 3110 . . . .3 Met . Engr . 3150 . . . . 3<br />
'Humanities/social<br />
studies elect . . . . 4<br />
FIFTH Chemet. Engr. 2011 .0 Chem . Engr . 4410 . .3 Chem . Engr. 4220 . .3<br />
YEAR Chem . Engr . 3620 . .3 Chem . Engr .4530 . .3 Chem . Engr. 4420 . .3<br />
Chem . Engr . 3450 . .3 Chemet. Engr. 4320 .1 Major electives . . . . 3<br />
Chemet. Engr. 4310 .1 Met . Engr . 3520 . . . .3 Technical elective . . 3<br />
Chemistry 3430 . . . . 3 Chemistry 4110 . . . . 3 'Humanities/ social<br />
Technical elective . . 3 Major electives . . . . 3 studies elect . . . . . 4<br />
'Humanities/ social<br />
studies elect . . . . . 4<br />
Students Working Summerand Winter Quarters-Group B<br />
TOTAL: 200 hours<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4<br />
English1010 or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . . 3 WORK<br />
Graphics 1410 . . . . .3 Basic Engr. 1410 . . . 2 Basic Engr . 1320 . . . 4<br />
Basic Engr . 1310 . . .4 Basic Engr. 1330 . . . 4 Graphics 1420 . . . . .3<br />
.<br />
.<br />
SECOND Chemet. Engr. 2010 .4 Chemet . Engr . 2020 . 4<br />
YEAR Chemet. Engr. 2011 . 0<br />
Chemistry 2140-49 . 4<br />
Math 2840 . . . . . . . . 4<br />
'Humanities/ social<br />
studies elect . . . . 4<br />
WORK<br />
Chemet . Engr . 2030 . 4<br />
Math 28'50 . . . . . . . . . 4<br />
Chem . Engr. 3410 . .4<br />
WORK<br />
. .<br />
. . .<br />
.<br />
THIRD<br />
YEAR<br />
ES &M 2720 . . . . . . 3<br />
Chem . Engr . 3040 . .4<br />
Chem . Engr . 3420 . .4<br />
Math 2860 . . . . . . 4<br />
WORK<br />
Elec . Engr 3110 . . . . 3<br />
Physics 2320 . . . . . . . 3<br />
Chemistry 3211-19 .4<br />
Math 3150 . . . . . . . . .3<br />
Physics 2310 . . . . . . 3 'Humanities/ social<br />
studies elect . . . . . 4<br />
WORK<br />
FOURTH Chem . Engr .4110 . .3 Chem . Engr . 3440 _ 3<br />
YEAR Chemistry 3221-29 . 4 Chem . Engr . 3610 . . 3<br />
Elec . Engr . 3120 or WORK Chem . Engr . 3050 . . 4 WORK<br />
3130 . . . . . . . . . . .3 Met . Engr . 3150 . . . .3<br />
Humanities/ social<br />
Humanities Isocial<br />
studies elect . . . . . 4 studies elect . . . . .4<br />
FIFTH Chem . Engr.3620 . .3 Chem . Engr. 4410 . .3 Chem . Engr . 4220 . .3<br />
YEAR Chem . Engr . 3450 . .3 Chem . Engr.4530 . .3 Chem . Engr . 4420 . .3<br />
Chemet. Engr . 4310 .1 Chemet . Engr . 4320 .1 Major elective . . . . . .3<br />
Chemistry 3440 . . . . 3 Met. Engr. 3520 . . . . 3 Technical elective . .3<br />
Technical elective . . 3 Chemistry 4110 . . . . 3 'Humanities/ social<br />
'Humanities/ social Major elect . . . . . . . . 3 studies elect . . . . .4<br />
studies elect . . . . . 4<br />
TOTAL : 200 hours<br />
'A minimum <strong>of</strong> one-half (12 quarter hours) <strong>of</strong> the humanities/ social studies electivesmust betaken from a single group<br />
under one <strong>of</strong> the threeareas <strong>of</strong> the humanities and social studies electives .<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong>
140 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
Cooperative Curriculum in Nuclear <strong>Engineering</strong><br />
Students Working Spring and Fall Quarters-GroupA<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4<br />
YEAR Chemistry 1110 . . . .4 English 1020 . . . . . . . 3 English 1033 . . . . . . .3<br />
English1010or1011 .3 Chemistry 1120 . . . . 4 WORK Chemistry 1130 . . . . 4<br />
Graphics 1410 . . . . .3 Basic Engr.1410 . . . 2 Graphics 1420 . . . . . 3<br />
Basic Engr. 1310 . . .4 Basic Engr. 1330 . . . 4 Basic Engr . 1320 . . . 4<br />
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4<br />
YEAR Physics 2310 . . . . . . .3 Physics 2320 . . . . . . . 3<br />
WORK Met . Engr . 3110 . . . .4 WORK Engr . Sci . &<br />
Nuc . Engr. 2310 . . . . 1 Mach . 3700'. . . . . 4<br />
Humanities lsocial Nuc . Engr . 2320 . . . .1<br />
studies elect . . . . 4 Humanities/ social<br />
studies elect. . . . 4<br />
THIRD Math 2860 . . . . . . . . . 4 Math 4610 . . . . . . . . . 3<br />
YEAR Physics 3710 . . . . . . . 3 Nuc . Engr . 3210 . . . .4<br />
WORK Engr . Sci . & WORK Elec . Engr . 3110. . . . 3<br />
Mach . 3311 . . . . . 4 Math 3150 . . . . . . . . . 3<br />
Nuc . Engr. 2330 . . . .1 Nuc . Engr . 3010 . . . .4<br />
Humanities /social<br />
studies elect . . . . 4<br />
FOURTH Math 4710 . . . . . . . .3 Math 4550 . . . . . . . . . 3<br />
YEAR Physics 3720 . . . . . . .3 Physics 3730 . . . . . . . 3<br />
WORK Elec . Engr . 3120 . . . .3 WORK Indus . Engr . 4520 . .3<br />
Nuc . Engr . 3220 . . . .4 Met . Engr . 3160 . . . .3<br />
Humanities /social Humanities/ social<br />
studies elect . . . . 4 studies elect . . . . 4<br />
FIFTH Nuc . Engr . 4110 . . . . 3 Nuc . Engr . 4120 . . . .3 Nuc . Engr . 4130 . . . .3<br />
YEAR Nuc . Engr . 4210 . . . . 3 Nuc . Engr . 4220 . . . .3 Nuc . Engr . 4230 . . . .3<br />
Nuc.Engr.4710 . . . . 4 Nuc . Engr . 4720 . . . .4 Nuc . Engr . 4730 . . . .3<br />
Nuc . Engr . 3150 . . . . 3 Nuc . Engr . 4820 . . . . 3 Nuc . Engr . 4810 . . . .3<br />
Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3<br />
Students Working Summerand Winter Quarters-Group B<br />
TOTAL : 198 hours<br />
Fall Winter Spring Summer<br />
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . , . . . 4<br />
YEAR Chemistry 1110 . . . .4 English 1020 . . . . . . . 3 English 1033 . . . . . . .3<br />
English1010or1011 .3 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4 WORK<br />
Graphics 1410 . . . . .3 Basic Engr . 1410 . . . 2 Graphics 1420 . . . . .3<br />
Basic Engr . 1310 . . .4 Basic Engr . 1330 . . . 4 Basic Engr . 1320 . . . 4<br />
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4<br />
YEAR Physics 2310 . . . . . . .3 Physics2320 . . . . . . . 3<br />
Met . Engr . 3110 . . . . 4 WORK Engr . Sci . & WORK<br />
Nuc . Engr .2310 . . . . 1 Mach . 3700 . . . . . 4<br />
Humanities/ social Nuc . Engr . 2320 . . . . 1<br />
studies elect . . . . 4 Humanities/ social<br />
studies elect . . . . 4<br />
THIRD Math 2860 .. . . . . . . . . 4 Math 4610 . . . . . . . . . 3<br />
YEAR Physics 3710. . . . . . . 3 Elec . Engr.3110 . . . . 3<br />
Engr . Sci . & WORK Math 3150 . . . . . . . . . 3 WORK<br />
Mech . 3311 . . . . . 4 Physics 3720 . . . . . . . 3<br />
Nuc . Engr .2330 . . . . 1 Humanities/ social<br />
Humanities/ social studies elect. . . . 4<br />
studies elect . . . . 4<br />
FOURTH Math 4710 . . . . . . . . .3 Math 4550 . . . . . . . . . 3<br />
YEAR Nuc . Engr .3210 . . . . 4 Nuc . Engr . 3220 . . . . 4<br />
Nuc . Engr .3010 . . . . 4 WORK Met . Engr. 3160 . . . . 3 WORK<br />
Elec . Engr. 3120 . . . .3 Ind . Engr .4520 . . . . . 3<br />
Humanities/ social Physics 3730 . . . . . . . 3<br />
studies elect . . . . 4<br />
FIFTH Nuc.Engr.4110 . . . . 3 Nuc . Engr. 4120 . . . .3 Nuc . Engr . 4130 . . . .3<br />
YEAR Nuc . Engr . 4210 . . . .3 Nuc . Engr. 4220 . . . . 3 Nuc . Engr . 4230 . . . .3<br />
Nuc . Engr .4710 . . . . 4 Nuc . Engr. 4720 . . . .4 Nuc . Engr . 4730 . . . .3<br />
Nuc . Engr . 3150 . . . .3 Nuc . Engr. 4820 . . .3 Nuc . Engr . 4810 . . . .3<br />
Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3<br />
TOTAL : 198 hours
Departments<br />
<strong>of</strong> Instruction<br />
Agricultural <strong>Engineering</strong><br />
(See <strong>College</strong> <strong>of</strong> Agriculture)<br />
Basic <strong>Engineering</strong><br />
and Graphics<br />
(Non-Departmental Unit)<br />
Basic <strong>Engineering</strong> (179)<br />
Coordinator : W.T . Snyder<br />
1310 Basic Mechanics 1(4) Forces in a plane ; free<br />
body diagram analysis ; equilibrium in two dimensions<br />
; application to frames and machines ; friction ;<br />
introduction to forces in space . Required <strong>of</strong> all engineering<br />
students except engineering physics<br />
majors. Coreq : Math 1840 . 4 hrs lec .<br />
1320 Basic Mechanics II (4) Position and displacement<br />
vectors ; particle kinetics using Newton's laws,<br />
impulse-momentum, work-energy ; introduction to<br />
simple harmonic motion . Prereq : 1310; coreq : Math<br />
1850 . 4 hrs lec .<br />
Coordinator : P.F . Pasqua<br />
1330 Basic Thermodynamics (4) Introduction to<br />
thermodynamics, fluid statics, and mechanics .<br />
Buoyancy, forces on submerged surfaces ; Bernoulli's<br />
equation ; first law <strong>of</strong> thermodynamics discussing<br />
work, heat, and other forms <strong>of</strong> energy. Required<br />
<strong>of</strong> all engineering students except engineering<br />
physics majors . Prereq : 1310 ; coreq : Math 1850 . 3<br />
hrs and one 3-hr lab .<br />
1410 <strong>Engineering</strong> Computations (2) Familiarization<br />
and introduction to the university computing systems<br />
for problems . BASIC language. Prereq : Math<br />
1840 . 2 hrs plus open computation lab .<br />
Graphics (443)<br />
Coordinator :<br />
J.N . Snider<br />
Basic Faculty :<br />
Pr<strong>of</strong>essors C.A . Newton (Emeritus), M.S .<br />
Syracuse ; W.W. Thomas, Jr . (Emeritus), B.S .<br />
<strong>Tennessee</strong> ; Associate Pr<strong>of</strong>essors EX Boyce,<br />
M.S . <strong>Tennessee</strong> ; W.A . Lyday, Jr ., M.S .<br />
<strong>Tennessee</strong> .<br />
1310-20-30 Fundamentals <strong>of</strong> <strong>Engineering</strong>Graphics<br />
(2, 2, 2) Graphic representation <strong>of</strong> three-dimensional<br />
shapeand size by orthographic and pictorial projection<br />
; sketching and dimensioning ; tolerances . Problem<br />
solving utilizing spatial relationships and<br />
graphical vector analysis, and graphic presentation<br />
<strong>of</strong> engineering data . Must be taken in sequence .<br />
Two 3-hr periods or three 2-hr periods .<br />
1410-20 Fundamentals <strong>of</strong> <strong>Engineering</strong> Graphics (3,<br />
3) Graphical representation <strong>of</strong> three-dimensional<br />
shape and size ; space relationships . Graphical<br />
presentation <strong>of</strong> engineering data . Required <strong>of</strong> all<br />
engineering students . Must be taken in sequence .<br />
One lecture and three 2-hr periods or two 3-hr<br />
periods .<br />
<strong>Engineering</strong> Studies<br />
(Non-Departmental Unit)<br />
<strong>Engineering</strong> Studies (338)<br />
Coordinator : E.E . Stansbury<br />
2100 Introduction to <strong>Engineering</strong> Methodology (4)<br />
Introduces non-engineering students to representative<br />
methods utilized in engineering in design, development,<br />
operation, and evaluation <strong>of</strong> processes<br />
and products for society ; use <strong>of</strong> physical laws and<br />
examples <strong>of</strong> techniques such as modeling, systems<br />
analysis, economic balances ; problems <strong>of</strong> resource<br />
useand technology control ;thematic approach may<br />
be used .<br />
4100 History <strong>of</strong> <strong>Engineering</strong> (4) History <strong>of</strong> technology<br />
and engineering with emphasis on identification<br />
<strong>of</strong> and developments in major areas such as<br />
transportation, communication, energy, manufacturing,<br />
design, and materials . Relationship to social<br />
and political structures <strong>of</strong> historical periods . Open<br />
to all students .<br />
4200 Technology Forecasting and Assessment (4)<br />
Procedures and problems in forecasting <strong>of</strong> consequences<br />
<strong>of</strong> existing and new technologies ; assessment<br />
<strong>of</strong> and decisions on use <strong>of</strong> thesetechnologies .<br />
Social, political, economic, and technological implications<br />
<strong>of</strong> consequence-based assessment and<br />
control <strong>of</strong> technology . Open to all students .<br />
4300 The Interaction Between Science and <strong>Engineering</strong><br />
(4) Historical-to-current analysis <strong>of</strong> interactions<br />
between science and engineeringpatterns<br />
<strong>of</strong> mutual stimulation and <strong>of</strong> distinction .<br />
Open to all students .<br />
Chemical, Metallurgical,<br />
and Polymer<br />
<strong>Engineering</strong><br />
Pr<strong>of</strong>essors :<br />
H.F . Johnson (Head), D . Eng . Yale, P.E . ;<br />
D.C . Bogue, Ph .D . Delaware ; C.R . Brooks, Jr .,<br />
Ph .D . <strong>Tennessee</strong> ; E.S. Clark, Ph .D. California<br />
(Berkeley) ; O.L . Culberson, Ph .D. Texas ;<br />
L.W . Crawford*, Ph .D . Cincinnati ; J.F . Fellers,<br />
Ph .D . Akron ; G.C . Frazier Jr ., D . Eng . Johns<br />
Hopkins ; H.W. Hsu, Ph .D . Wisconsin ; S.H. Jury<br />
(Emeritus), Ph .D . Cincinnati, P.E . ; C.D . Lundin,<br />
Ph .D . Rensselaer Polytechnical Institute ;<br />
C.F. Moore, Ph .D . Louisiana State;<br />
E . B . Nauman, Ph .D . <strong>University</strong> <strong>of</strong> Leeds ;<br />
B . F . Oliver, Ph .D . Pennsylvania State ;<br />
J .J . Perona, Ph .D . Northwestern ;<br />
J.W . Prados (Vice President for Academic<br />
Affairs), Ph .D . <strong>Tennessee</strong> ; J.E . Spruiell,<br />
Ph .D . <strong>Tennessee</strong> ; E.E . Stansbury',<br />
Ph .D . Cincinnati ; C . 0. Thomas, Ph .D .<br />
<strong>Tennessee</strong> ; J.L . White 2 , Ph .D . Delaware;<br />
M.A . Wright% Ph .D. Wales .<br />
Associate Pr<strong>of</strong>essor :<br />
W.T . Becker, Ph .D . Illinois . D.D. Bruns,<br />
Ph .D. Houston ; P.J. Meschter, Ph .D .<br />
Pennsylvania .<br />
Lecturer :<br />
G. D . Wigrall? Ph .D . Sheffield <strong>University</strong> .<br />
'Alumni Distinguished Service Pr<strong>of</strong>essor<br />
ZDistinguished Pr<strong>of</strong>essor<br />
3Fionorary.<br />
'Space Institute, Tullahoma<br />
BACHELOR OF SCIENCE PROGRAM<br />
Separate complete curricula are <strong>of</strong>fered in<br />
chemical engineering and in metallurgical<br />
engineering . However, the first two years <strong>of</strong><br />
these curricula are identical and a decision as<br />
to choice can be made in the third year . Both<br />
curricula are arranged to provide a central<br />
core <strong>of</strong> courses with flexibility in the<br />
upper-division years to permit emphasis on<br />
preparation for graduate study or technical<br />
employment . Graduation in either chemical<br />
or metallurgical engineering requires a<br />
minimum grade point average <strong>of</strong> 2.00 for all<br />
departmental courses .<br />
GRADUATE STUDY PROGRAMS<br />
Graduate programs leading to the degrees<br />
<strong>of</strong> Master <strong>of</strong> Science and Doctor <strong>of</strong><br />
Philosophy with majors in chemical<br />
engineering, metallurgical engineering, or<br />
polymer engineering are <strong>of</strong>fered .<br />
A program leading to the M.S . and Ph .D .<br />
degrees with specialization in polymer<br />
science and engineering in chemical<br />
engineering is conducted jointly with the<br />
Department <strong>of</strong> Chemistry which <strong>of</strong>fers a<br />
degree with similar specialization .<br />
These programs have been strengthened<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
14 1<br />
by fellowships or grants provided by<br />
industrial companies including Dow, DuPont,<br />
General Electric, Shell, Texaco, Procter and<br />
Gamble, Celanese, Monsanto, American<br />
Enka, Union Carbide, Stauffer, Owens<br />
Corning, Cities Service, and Eastman Kodak,<br />
and bygraduate fellowships and traineeships<br />
provided by National Science Foundation .<br />
Other aid to students has been available<br />
through research assistantships on contracts<br />
with industry and governmental agencies .<br />
The <strong>University</strong>'s Graduate School operates a<br />
Resident Graduate Program at Oak Ridge,<br />
Kingsport, and Chattanooga .<br />
See the Graduate Catalog for detailed<br />
information .<br />
Chemical and Metallurgical<br />
<strong>Engineering</strong> (227)<br />
2010 Process Principles and Materials 1(4) Behavior<br />
<strong>of</strong> gases . First and second laws <strong>of</strong> thermodynamics,<br />
thermodynamic functions . Single and<br />
multicomponent phase equilibria ; phase diagrams .<br />
Prereq : Basic Engr . 1330, Chemistry 1120, Math<br />
1860 . 3 hrs and 1 lab .<br />
2011 Sophomore Inspection Trip (0) Inspection trip<br />
to industrial plant . Usuallyscheduled in fall on ETEA<br />
day. Required for chemical engineering and metallurgical<br />
engineering majors . S/NC .<br />
2020 Process Principles and Materials 11(4) Applications<br />
<strong>of</strong> first and second laws <strong>of</strong> thermodynamics<br />
to open systems, thermochemistry, and thermophysics<br />
. P-V-T-H relationships for real substances<br />
. Material and energy balances . Prereq :<br />
2010. 3 hrs and 1 recitation period .<br />
2030 Process Principles and Materials 111(4) Materials<br />
structure-property relationships for metals,<br />
inorganic and organic compounds, with emphasis<br />
on mechanisms <strong>of</strong> control<strong>of</strong> properties by chemical<br />
composition, thermal and mechanical treatment ;<br />
crystallography, imperfections, mechanical properties,<br />
heat treatment, molecular weight, and particle<br />
size distributions . Prereq : 2010 ; Chemistry 1130 . 3<br />
hrs and 1 lab period .<br />
2220 Analog Computer Practice (1) Introduction to<br />
fundamentals <strong>of</strong> analog programming . Analog<br />
computer facilities and analog simulation languages<br />
will be emphasized . Prereq : Math 2840 ;<br />
Physics 2310 or Elec . Engr. 3110 or consent <strong>of</strong> instructor<br />
. One lab . S/NC .<br />
2230 Mini Computer Practice (1) Use <strong>of</strong> mini computers<br />
. Prereq : Basic <strong>Engineering</strong> 1410, or consent<br />
<strong>of</strong> instructor. One lab . S/NC .<br />
2240 Mini Computer Data Acquisition (1) Mini computers<br />
for data acquisition . Prereq : 2230 or consent<br />
<strong>of</strong> instructor . One lab . S/NC .<br />
3100 Introduction to the Materials <strong>of</strong> Technology<br />
(4) Examination <strong>of</strong> sources, processing, and properties<br />
<strong>of</strong> metallic, ceramic, polymeric, and composite<br />
materials based upon an historical perspective and<br />
current practices in technology, architecture, and<br />
art . Lectures and demonstrations . Open to students<br />
in all colleges . Prereq : Introductory science course .<br />
4310-20 Seminar (1,1) Presentation and discussion<br />
<strong>of</strong> economic, political, humanistic, and other topics<br />
<strong>of</strong> interest to chemical and metallurgical engineers .<br />
S/NC .<br />
Chemical <strong>Engineering</strong> (226)<br />
3010 Industrial Inspection Trips (1) Technology <strong>of</strong><br />
chemical process industries emphasizing <strong>Tennessee</strong><br />
industry ; plant trips . S/NC .<br />
3040 Chemical <strong>Engineering</strong> Thermodynamics (4)<br />
Applications <strong>of</strong> the second law <strong>of</strong> thermodynamics<br />
to physical and chemical processes and thermodynamic<br />
cycles ; applications <strong>of</strong> the Gibbs function<br />
to one, two, and three phase chemical systems ;<br />
use<strong>of</strong> tabular and graphical data in equilibrium calculations<br />
. Prereq : Chemet . Engr . 2020; Chemistry<br />
1130 ; coreq : Math 2840 . 3 hrs and 1 lab period .<br />
3050 Thermophysical Properties (4) Estimation <strong>of</strong><br />
properties <strong>of</strong> gases, liquids, and solutions . Absorption<br />
phenomena, emulsions . Prereq : 3040 .
142 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
3230 Special Problems (3) Investigation <strong>of</strong> chemical<br />
engineering problems .<br />
3410 Flow <strong>of</strong> Fluids (4) Differential and overall<br />
momentum balances, mechanical energy balances ;<br />
flow in tubes, piping systems, and packed beds ;<br />
metering devices, pumps. Prereq : Chemet . Engr .<br />
2020, Math 2850 . 3 hrs and 1 lab .<br />
3420 Heat Transfer (4) Differential and overall energy<br />
balances ; steady and unsteady state, heat conduction<br />
in simple geometries ; heat transfer in tubes<br />
and heat exchangers ; condensation and boiling<br />
radiation . Prereq : 3410 . 3 hrs and 1 lab .<br />
3440 Stagewise Operations (3) Analytical and<br />
graphical methods to stagewise separatory operations<br />
. Prereq : Chemet . Engr . 3040 .<br />
3450 Diffusional Operations (3) Diffusion simultaneousheat<br />
and mass transfer, applications including<br />
humidification, gas absorption, extraction . Prereq<br />
: 3420, Chemet Engr . 3040 .<br />
3610 Introduction to Process Dynamics and Control<br />
(3) Introduction to concepts <strong>of</strong> process<br />
dynamics and control . Steady-state analysis <strong>of</strong><br />
chemical process control systems . Unsteady state<br />
nature <strong>of</strong> chemical processes . LaPlace transform<br />
techniques, block diagram algebra, and transfer<br />
functions . Mathematical models for several processes<br />
are developed and analyzed in detail . Prereq :<br />
Math 2840 .<br />
3620 Chemical Process Control (3) Basic control<br />
theory applied to chemical processes : feedback<br />
control systems, cascade control, feed-forward control,<br />
stability analysis, frequency response . Survey<br />
<strong>of</strong> modern control <strong>of</strong> typical industrial unit operations<br />
. Pererq : 3610 .<br />
4010-20 Thesis (3, 3) Investigation and report <strong>of</strong><br />
elementary chemical engineering problem .<br />
4110 Chemical <strong>Engineering</strong> Data Analysis (3) Analytical<br />
and experimental identification <strong>of</strong> system extremals<br />
; statistical properties <strong>of</strong> samplesand source<br />
systems ; empirical modeling <strong>of</strong> processes ; statistical<br />
process control . Prereq : 3420, Math 3150 .<br />
4120 Probabilistic Chemical <strong>Engineering</strong> Systems<br />
(3) Experiment designs, simulation <strong>of</strong> stochastic<br />
systems, predictive techniques, and analysis <strong>of</strong> networks<br />
in the process industries . Prereq : 4110.<br />
4130 Introduction to Optimization (3) Principles and<br />
applications <strong>of</strong> optimization techniques to chemical<br />
process design ; unconstrained optimization, equality<br />
constrained optimization, inequality constrained<br />
optimization, and dynamic programming . Prereq :<br />
Math 2840.<br />
4220 Chemical <strong>Engineering</strong> Laboratory (3) Laboratory<br />
investigations <strong>of</strong> controlling factors in chemical<br />
engineering operations . Prereq : 3440-50, 3620,<br />
4530.<br />
4230 Project Laboratory (3) Laboratory investigation<br />
<strong>of</strong> chemical engineering problem, stressing<br />
techniques <strong>of</strong> group effort. May be repeated .<br />
4410 Design <strong>of</strong> Separation Processes (3) Mass<br />
transfer theory applied to design <strong>of</strong> materials separation<br />
processes . Prereq : 3440-50 .<br />
4420 Process Design and Economic Analysis (3)<br />
Development<strong>of</strong> basic information on a process into<br />
an integrated plant design considering mass and<br />
energy balances . Product specifications, equipment<br />
characteristics, capital investment, operating costs,<br />
and economic merit . Prereq : 4410, 4530.<br />
4430 Special Problems in Design and Economics<br />
(3) Extension <strong>of</strong> 4420 for student participation in A .I .<br />
Ch . E . annua l contest problem ; other advanced design<br />
projects. Prereq : 4420 .<br />
4450 Hydrocarbon Processing (3) Study <strong>of</strong> specialized<br />
characterization <strong>of</strong> physical properties <strong>of</strong><br />
fossil fuel raw materials and products, and <strong>of</strong> processes<br />
for conversion <strong>of</strong> fossil fuel raw materials into<br />
products needed in industrial energy, industrial raw<br />
material and consumer markets . Prereq : 3440.<br />
4470 Sulfur Removal from Coal and Associated<br />
Problems (3) Chemical and physical properties <strong>of</strong><br />
domestic coals, sulfur distributions ; beneficiation<br />
by both physical and chemical methods ; fluidized<br />
bed combustion with both natural and synthetic SOx<br />
sorbents ; stackgas SOxscrubbing . Prereq : Consent<br />
<strong>of</strong> instructor .<br />
4480 Coal Processing to Liquid Fuels (3) Characterization<br />
<strong>of</strong> various coals with respect to current<br />
liquification methods ; modeling <strong>of</strong> conversion<br />
processes and estimation <strong>of</strong> maximum yields ; water<br />
and oxygen requirements ; pyrolysis ; catalytic hydrogenation<br />
; reactor design considerations ; review<br />
and critique <strong>of</strong> selected articles from both the current<br />
literature and patents . Prereq : Consent <strong>of</strong> instructor.<br />
4530 Chemical <strong>Engineering</strong> Reaction Kinetics (3)<br />
Chemical reaction rates in closed and flow systems ;<br />
interpretation <strong>of</strong> laboratory and pilot plant data ;<br />
reactor design . Prereq : 3420, Chemet . Engr. 3040,<br />
Chemistry 3430.<br />
4540 Fluid-Solid Operations (3) Heat and mass<br />
transport in fixed and fluidized beds : applications<br />
include absorption, ion exchange, crystallization .<br />
Prereq :3440-50 .<br />
4620 Process Modeling, Simulation, and Control <strong>of</strong><br />
Chemical Processes (3) Development <strong>of</strong> process<br />
models, experimental process identification, process<br />
computer simulation, conventional and nonconventional<br />
feedback control, advanced control<br />
concepts. Prereq : 3620 or equivalent background in<br />
basic control theory and differential equations .<br />
4730 Mass and Energy Flow in Biological Systems<br />
(3) Basic physiochemical and organizational principles<br />
applicable to biological systems . Derivations <strong>of</strong><br />
general equations <strong>of</strong> biomass and energy transfer .<br />
Thermodynamics <strong>of</strong> transport and equilibrium in<br />
biological systems. Discussion <strong>of</strong> Volterra's equation<br />
and biological clocks, etc. Prereq : Consent <strong>of</strong><br />
instructor.<br />
4740 Introduction to Transport Phenomena In<br />
Biological Systems (3) Application <strong>of</strong> principles <strong>of</strong><br />
transport phenomena to biological systems . Transfer<br />
<strong>of</strong> chemical energy and various cellular active<br />
transports ; structure and rheology <strong>of</strong> physiological<br />
fluids, membrane and interfacial phenomena ;<br />
analysis and design <strong>of</strong> artificial organs. Prereq : 3440<br />
and 3450, or consent <strong>of</strong> instructor .<br />
4750 Microbiological Process <strong>Engineering</strong> (3) Application<br />
<strong>of</strong> chemical engineering principles and<br />
design concept to microbiological processes ; continuous<br />
culture <strong>of</strong> microorganisms, food processing<br />
and pharmaceutical processes . Prereq : 3440, 3450,<br />
or consent <strong>of</strong> instructor .<br />
4760 Principles <strong>of</strong> BiochemicalSeparation (3) Fundamental<br />
aspects and similarities <strong>of</strong> modern<br />
biochemical separation methods ; classroom demonstrations,<br />
design <strong>of</strong> production and analytical systems.<br />
Prereq : Consent <strong>of</strong> instructor .<br />
4781-82-83 Topics In Chemical Bioengineering (3,<br />
3, 3) Problems <strong>of</strong> interest in chemical bioengineering<br />
. Prereq : Consent <strong>of</strong> instructor.<br />
4900 SpecialProblems In Chemical <strong>Engineering</strong> (3)<br />
Chemical engineering problems related to recent<br />
developments in industrial practice or engineering<br />
research . Prereq : Consent <strong>of</strong> instructor. May be repeated<br />
. Maximum credit 9 hrs.<br />
GRADUATE<br />
5000 Thesis<br />
5010 Graduate Seminar (1)<br />
5050 <strong>Engineering</strong> Analysis (3)<br />
5120 Heat Convection (3)<br />
5130 Methods <strong>of</strong> Optimization (3)<br />
5210 Process Dynamics (3)<br />
5250 Chemical Process Industry Economics (3)<br />
5310 Thermodynamics <strong>of</strong> Heterogeneous Equilibrium<br />
(3)<br />
5320 Statistical Thermodynamics (3)<br />
5510 Chemical Reactor Design (3)<br />
5610 Stagewise Mass Transfer Operations (3)<br />
5620 Differential Mass Transfer Operations (3)<br />
5810 Mechanics <strong>of</strong> Viscous Flow (3)<br />
5900 Special Topics in Chemical <strong>Engineering</strong><br />
6000 Doctoral Research and Dissertation<br />
6130 Process Optimization (3)<br />
6210 Advanced Diffusional Operations (3)<br />
6250 VentureAnalysis in the Process Industries (3)<br />
6310 Thermodynamics <strong>of</strong> Irreversible Processes<br />
(3)<br />
6320 Statistical Thermodynamics <strong>of</strong> Non-equilibrium<br />
Systems (3)<br />
6410 Stability Phenomena In Chemical <strong>Engineering</strong>:<br />
Discrete Systems (3)<br />
6420 Stability Phenomena in Chemical Engineer-<br />
Ing: Continuous Systems (3)<br />
6510 Applied Chemical Reaction Kinetics (3)<br />
6520 Catalytic Reactor Design (3)<br />
6710 Process Dynamics (3)<br />
6900Advanced Topics <strong>of</strong> Chemical <strong>Engineering</strong> (3)<br />
Metallurgical <strong>Engineering</strong> (679)<br />
2110 <strong>Engineering</strong> Materials 1 (3) Introductory<br />
course correlating the atomic, crystal, and microstructure<br />
<strong>of</strong> solids and mechanical, physical, and<br />
chemical properties <strong>of</strong> engineering significance . 3<br />
hrs or 2 hrs and 1 lab .<br />
2210 Electron Microscopy (1) Presents to science<br />
and engineering students a brief introduction to the<br />
operation <strong>of</strong> the electron microscope and its applications<br />
to scientific problems. Prereq : Physics<br />
2310-20 . 3-hr lab . S/NC .<br />
3010 Industrial Inspection Trips (1) Technology <strong>of</strong><br />
metallurgical industries, emphasizing <strong>Tennessee</strong><br />
industry ; plant trips . S/NC .<br />
3040 Metallurgical Thermodynamics (4) Applications<br />
<strong>of</strong> laws <strong>of</strong> thermodynamics to problems <strong>of</strong><br />
metallurgical interest . Second law and entropy ; auxiliary<br />
functions ; relationship between free energies<br />
and phase diagrams ; reaction equilibria in gases<br />
and between gases and condensed phases. Use <strong>of</strong><br />
heat capacity and free energy data in calculations .<br />
Concepts <strong>of</strong> activityand activity coefficient and their<br />
variation with T, P, and composition . Prereq :<br />
Chemet . Engr . 2020 ; Chemistry 1130 ; coreq : Math<br />
2840 . 3 hrs and 1 lab period .<br />
3050 Production Metallurgy (3) Thermodynamic<br />
and kineticprinciples <strong>of</strong> roasting, smelting, refining .<br />
Prereq : Chemet . Engr. 3040 .<br />
3060 Metallurgical Kinetics (3) Application <strong>of</strong> principles<br />
<strong>of</strong> chemical reaction kinetics, fluid flow, and<br />
heat and mass transfer, to pyro-, hydro-, and eiectrometallurgical<br />
processing . Reaction order and<br />
basic rate laws ; activated complex theory ; principles<br />
<strong>of</strong> adsorption and catalysis. Consideration <strong>of</strong><br />
processes such as roasting <strong>of</strong> sulfides, reduction <strong>of</strong><br />
oxides, smelting, refining, electrolysis, and leaching<br />
. Prereq : Met. Engr .3050 ; Chem. Engr. 3410 and<br />
3420 or equivalent . 3 hrs or 2 hrs and 1 lab .<br />
3110 <strong>Engineering</strong> Materials 1 (4) Introductory<br />
course correlating the atomic, crystal, and microstructure<br />
<strong>of</strong> solids with mechanical, physical, and<br />
chemical properties <strong>of</strong> engineering significance . 3<br />
hrs and 1 lab .<br />
3120 <strong>Engineering</strong> Materials II (3) Extension <strong>of</strong> 2110<br />
with emphasis on control <strong>of</strong> mechanical properties<br />
<strong>of</strong> materials by specification <strong>of</strong> composition, thermal,<br />
and mechanical treatment ; correlation <strong>of</strong> resultant<br />
properties with service performance . Suggested<br />
for mechanical, civil, and industrial engineering<br />
students .<br />
3130 <strong>Engineering</strong> Materials 111 (3) Extension <strong>of</strong> 2110<br />
with emphasis on control <strong>of</strong> electrical and magnetic<br />
properties <strong>of</strong> materials by specification <strong>of</strong> composition,<br />
thermal, and mechanical treatment ; correlation<br />
<strong>of</strong> resultant properties with service<br />
performance . Suggested for electrical engineering<br />
students .<br />
3140 <strong>Engineering</strong> Material IV (3) Extension <strong>of</strong> 2110<br />
with emphasis on materials processing, specification,<br />
and evaluation . Suggested for mechanical and<br />
industrial engineering students .<br />
3150 <strong>Engineering</strong> Materials V (3) Extension <strong>of</strong> 3110<br />
with emphasis on mechanisms and control <strong>of</strong> reactions<br />
<strong>of</strong> engineering materials with aqueous, nonaqueous,<br />
and gaseous environments . Prereq : 2110<br />
or 3110 or Chemet. Engr . 2030 .
3160 <strong>Engineering</strong> Materials VI (3) Extension <strong>of</strong> 2110<br />
with emphasis on materials <strong>of</strong> significance in nuclear<br />
engineering ; nuclear reactor construction materials,<br />
nuclear fuel materials, and interaction <strong>of</strong><br />
radiation with solids to produce changes in engineering<br />
properties . Suggested for nuclear and<br />
mechanical engineers .<br />
3170 <strong>Engineering</strong> Materials Vil (3) Extension <strong>of</strong><br />
2110 to biomedical applications <strong>of</strong> materials . <strong>Engineering</strong><br />
materials in biomedical applications ;<br />
metals, polymers, and ceramics ; prosthetic devices ;<br />
dental applications ; corrosion problems ; failure<br />
analysis ; fabrication . Prereq : 2110 or equivalent .<br />
3210 Plastic Deformation (4) Phenomena and<br />
theory <strong>of</strong> plasticity <strong>of</strong> single and polycrystalline materials<br />
. Applicable concepts <strong>of</strong> crystallography and<br />
x-ray diffraction ; use <strong>of</strong> stereographic projections.<br />
Prereq : Chemet . Engr . 2030 . 3 hrs and 1 lab .<br />
3220 Diffusion and Annealing (3) Introduction to<br />
solid state kinetics : point defects, solid solutions,<br />
diffusion equations and mechanisms, annealing <strong>of</strong><br />
cold worked structures . Prereq : 3040.<br />
3230 Phase Transformations (4) Thermodynamic<br />
and structural factors governing binary equilibrium .<br />
Ternary systems . Kinetics and morphology <strong>of</strong> precipitation<br />
and phase transformations in simple and<br />
complex systems . Prereq : 3220. 3 hrs and 1 lab .<br />
3310 Biomedical Applications <strong>of</strong> Materials for Life<br />
Scientists (3) Principles <strong>of</strong> engineering materials ;<br />
metals, polymers, and ceramics ; methods <strong>of</strong> fabricstion<br />
<strong>of</strong> components ; corrosion ; applications <strong>of</strong><br />
prosthetic devices and dental materials . Prereq :<br />
Chemistry 1110-20-30 or equivalent .<br />
3520 Materials Behavior and Chemical Process<br />
Equipment Design (3) Mechanical, metallurgical,<br />
and chemical considerations in design <strong>of</strong> chemical<br />
processing equipment . Prereq : Chemet . Engr . 2030<br />
or equivalent ; 3150 ; Chem . Engr . 3420 . (Same as<br />
<strong>Engineering</strong> Mechanics 3520.)<br />
3710 Metallurgical Applications in Manufacturing<br />
Technology (3) Fabrication methods and principles<br />
<strong>of</strong> mechanical/thermal processing for finished and<br />
semi-finished articles ; casting, powder metallurgy,<br />
plastic forming, joining, heat treatment . Prereq :<br />
2110 .<br />
4010-20 Thesis (3-6, 3-6) Investigation and report on<br />
metallurgical engineering problem .<br />
4230 Project Laboratory (3) Group or individual investigation<br />
<strong>of</strong> problems related to metallurgical enginering<br />
or materials science . May be repeated for a<br />
maximum <strong>of</strong> 9 credits. Prereq : Minimum <strong>of</strong> one<br />
course beyond 2110, 3110 or Chemet . Engr . 2030 .<br />
4240 <strong>Engineering</strong> Materials Design (3) Property<br />
control through composition, heat treatment, and<br />
transformation in ferrous alloys. Plain carbon steels,<br />
alloy steels, and tool steel processing for property<br />
selection and service requirements . Prereq : 3230 or<br />
consent <strong>of</strong> instructor .<br />
4250 Design and Analysis (3) Design and laboratory<br />
sessions on analysis <strong>of</strong> materials requirements and<br />
performance in engineering structures and components.<br />
Prereq : Senior standing .<br />
4510-20 X-Ray Diffraction and Crystallography (3,<br />
3) Lectures and laboratory work in crystallography,<br />
projections, x-rays, diffraction phenomena, and<br />
techniques ; introduction to structure determinations<br />
. First quarter serves as introduction to subject .<br />
2 hrs and 1 lab .<br />
4540 Fracture-Safe Design (3) (Same as Engr. Sci .<br />
and Mech . 4540 .)<br />
4610 Physical Properties <strong>of</strong> Materials (3) Electron<br />
theory <strong>of</strong> solids, types <strong>of</strong> bonding in solids ; thermal,<br />
electrical, and magnetic properties <strong>of</strong> material ; relationship<br />
between metallurgical structure and properties<br />
. Prereq : 3 hrs or 2 hrs and 1 lab .<br />
4730 Mechanical Metallurgy 1(3) Elastic behavior .<br />
Description <strong>of</strong> stress, strain, and elastic constitutive<br />
relations . Effects <strong>of</strong> composition, microstructure,<br />
and loading on mechanical behavior . Failure by<br />
yielding . 2 hrs and 1 lab or 3 hrs . Prereq : 2110 or<br />
Chemet . Engr. 2030, and Engr . Sci . & Mech . 3311 .<br />
Also suggested for mechanical engineering, engineering<br />
mechanics, and engineering science students<br />
.<br />
4740 Mechanical Metallurgy If (3) Ductileand brittle<br />
fracture, creep and stress rupture, fatigue, and residual<br />
stresses . Effects <strong>of</strong> state <strong>of</strong> stress, loading<br />
rate, time, temperature, and metallurgical structure .<br />
2 hrs and 1 lab or 3 hrs . Prereq : 3120 or 3230, and<br />
4730 or Mech . Engr . 3650 or consent <strong>of</strong> instructor .<br />
Also suggested for mechanical engineering, engineering<br />
mechanics, or engineering science students<br />
.<br />
4760 Casting and Welding (3) Principles and processes<br />
<strong>of</strong> casting and welding : heat transfer, solidification,<br />
segregation, gas-metal and slag-metal interactions,<br />
thermal treatments, associated stresses .<br />
Prereq : 3120 or 3230 . 3 hrs or 2 hrs and 1 lab .<br />
4770 Mechanical Metallurgy III (3) Finite plastic<br />
strain . Plastic stress-strain relations . Principles <strong>of</strong><br />
fabrication : forging, swagging, extrusion, rolling,<br />
deep drawing . 2 hrs and 1 lab or3 hrs . Prereq : 4730<br />
or consent <strong>of</strong> instructor. Also suggested for mechanical<br />
engineering, engineering mechanics, and<br />
engineering science majors .<br />
GRADUATE<br />
5000 Thesis<br />
5010 Graduate Seminar (1)<br />
5050 <strong>Engineering</strong> Analysis (3)<br />
5110 Point Defects and Dislocations (3)<br />
5120 Plastic Deformation 1(3)<br />
5130 Plastic Deformation II (3)<br />
5140 Diffusion and Annealing in Solids (3)<br />
5150 Phase Transformations (3)<br />
5170-80 Plastic Deformation (3, 3)<br />
5210-20-30 Welding Metallurgy (3, 3, 3)<br />
5310 Solidification and Crystal Growth I (3)<br />
5410-20-30 Advanced X-Ray Diffraction (3, 3, 3)<br />
5510-20 Applied Properties <strong>of</strong> Solids (3, 3)<br />
5540-50 Electron Microscopy I and II (3, 3)<br />
5610-20 Radiation Effects on Materials (3, 3)<br />
5750 Corrosion (3)<br />
5610-20-30 Special Topics in Metallurgy (3, 3, 3)<br />
5840-50 Metallurgy <strong>of</strong> Deformation and Fracture (3,<br />
3)<br />
5910-20-30 Metallurgical Thermodynamics (3, 3, 3)<br />
6000 Doctoral Research and Dissertation<br />
6110-20-30 Theoretical Metallurgy (3, 3, 3)<br />
6210-20-30 Rate Processes In Metallurgy (3, 3, 3)<br />
6320-30 Solidification and Crystal Growth If and III<br />
(3,3)<br />
6410-20 Thermodynamics <strong>of</strong> Solids (3, 3)<br />
6810 Mechanical and Physical Properties <strong>of</strong> Crystals<br />
1(3)<br />
6820 Mechanical and Physical Properties <strong>of</strong> Crystals<br />
If (3)<br />
6830 Seminar In Anisotropic Properties <strong>of</strong> Crystals<br />
(3)<br />
Polymer <strong>Engineering</strong> (805)<br />
4230-40 Project Laboratory (3, 3) Laboratory investigation<br />
<strong>of</strong> polymer engineering problem . Written<br />
report required for each quarter.<br />
4910 Applied Polymer Science (3) First course in<br />
physical properties <strong>of</strong> polymers. Polymer structure,<br />
crystalline and glass transitions, physical properties<br />
<strong>of</strong> amorphous and crystalline polymers, crystallization<br />
kinetics, and mechanical properties are discussed<br />
. Prereq : Senior standing in engineering or<br />
science . Not for graduate credit by polymer engineering<br />
majors .<br />
4920 Polymer Processing (3) Rheological properties<br />
<strong>of</strong> polymer meltsand solutions, viscometry ; unit<br />
operations <strong>of</strong> fiber, plastics, and rubber industries :<br />
dimensional analysis and scale-up, flow through<br />
dies and pipelines, screw extrusion, spinning <strong>of</strong> fibers,<br />
injection molding . Prereq : Senior standing in<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
143<br />
engineering or science . Not for graduate credit by<br />
polymer engineering majors .<br />
4930 Principles <strong>of</strong> Fiber Textile <strong>Engineering</strong> (3)<br />
Chemical and crystalline structure <strong>of</strong> important fibers<br />
; melt, wet and dryspinning <strong>of</strong> man-made fibers ;<br />
drawing and texturizing ; preparation <strong>of</strong> yarn ; dyeing,<br />
weaving, and knitting . Emphasison quantitative<br />
aspects . Prereq : Senior standing in engineering or<br />
science .<br />
4940 Plastics Fabrication Operations (3) Lecture<br />
and laboratory course treating unit operations <strong>of</strong><br />
plastics industry. Types and mechanisms <strong>of</strong> operation<br />
<strong>of</strong> machinery used and structure and properties<br />
<strong>of</strong> fabricated parts . Operations to include extrusion,<br />
co-extrusion, injection molding including structural<br />
foam, therm<strong>of</strong>orming, blow molding, rotational<br />
molding, etc . Prereq : Senior standing in engineering<br />
or science .<br />
GRADUATE<br />
5000 Thesis<br />
5010 Graduate Seminar (1)<br />
5050 <strong>Engineering</strong> Analysis (3)<br />
5110 Structural Characterization fo Polymers (3)<br />
5210 Mechanics <strong>of</strong> Polymer Fluids and Solids (3)<br />
5230 Mechanical Behavior <strong>of</strong> Solid Polymers (3)<br />
5310 Polymer Solution Properties and Characterization<br />
(3)<br />
5410 Rheology and Polymer Processing (3)<br />
5510 Modern Research Tools and Instruments for<br />
Polymer Science (3)<br />
5710 Phase Transformations In Polymer Systems<br />
(3)<br />
5810 Physical Properties <strong>of</strong> Polymer Structures (3)<br />
5910-20-30 Selected Topics in Polymer Science (3,<br />
3,3)<br />
6000 Doctoral Research and Dissertation<br />
6110 Optical Properties <strong>of</strong> Polymer (3)<br />
6150 Advanced X-Ray Diffraction Methods for<br />
Characterization <strong>of</strong> Macromolecules (3)<br />
6210 Non-Linear Viscoelasticity (3)<br />
6220Advanced Methods in PolymerProcessing (3)<br />
6230 Advanced Mechanical Behavior <strong>of</strong> Polymers<br />
(3)<br />
6610 Advanced Industrial Polymer Chemistry (3)<br />
6910-20-30 Recent Advances in Polymer Science<br />
and <strong>Engineering</strong> (3, 3, 3)<br />
Civil <strong>Engineering</strong><br />
Including Environmental <strong>Engineering</strong><br />
Pr<strong>of</strong>essors :<br />
W. L . Grecco (Head, Ph .D. Michigan State,<br />
P . E . ; O. S . Beard, .D . American <strong>University</strong> ;<br />
E . G. Burdette, Ph .D. Illinois, P.E . ; F . A . Gifford,<br />
Ph .D. Pennsylvania State ; D . W. Goodpasture,<br />
Ph .D. Illinois, P.E . ; W. A . Goodwin,<br />
M.S .C .E . Kentucky, P.E . ; K . W. Heathington,<br />
Ph .D . Northwestern, P.E . ; J . B . Humphreys,<br />
Ph .D . Texas A & M, P.E . ; F. C . Larson<br />
(Emeritus), M .S . Virginia Polytechnic,<br />
P.E . ; R . A . Minear, Ph .D . Washington ;<br />
D . E . Overton, Ph .D . Maryland ;<br />
E . G . Shelton (Emeritus), M .C .E . Brooklyn<br />
Polytechnic Institute ; B . A . Tschantz, Sc .D . New<br />
Mexico State, P.E . ; C . R . Walker, M.S.<br />
Massachusetts Institute <strong>of</strong> Technology, P.E . ;<br />
F . J . Wegmann, Ph .D . Northwestern .<br />
Associate Pr<strong>of</strong>essors :<br />
W. F. Brandes (Director, Water Resources<br />
Research Center), M.S. Illinois ; A . Chatterjee,<br />
Ph .D . North Carolina State ; R . L . Church,<br />
Ph .D . Johns Hopkins ; W. T . Davis,<br />
Ph .D . <strong>Tennessee</strong> ; B . J . Frederick, B.C.E .<br />
Clarkson <strong>College</strong> <strong>of</strong> Technology, P.E . ;<br />
J . H . Hansen% Ph .D. Missouri ;<br />
D . C . Jameson, Jr., M.S . <strong>Tennessee</strong>, P.E . ;<br />
A . B . Moore, M.S. <strong>Tennessee</strong> ; R.R .F . Tiry,<br />
B.S . Marquette, P.E . ; D . W. Wester,<br />
Ph .D. Purdue, P.E.
144 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
Assistant Pr<strong>of</strong>essors :<br />
P . D . Bernal, Ph .D . <strong>Tennessee</strong> ;<br />
G. A . Briggs, Ph .D . Pennsylvania State ;<br />
S. L . Hanna, Ph .D. Pennsylvania State ;<br />
E . S. Houghland, Ph .D . VPI & SU ;<br />
R . B . Jackson, Ph .D. Illinois.<br />
'Space Institute, Tullahoma<br />
BACHELOR OF SCIENCE PROGRAM<br />
The curriculum in civil engineering is<br />
designed to provide training in fundamental<br />
engineering sciences, certain non-technical<br />
subjects and basic subjects in various civil<br />
engineering fields to serve as a basis for<br />
entrance into civil engineering practice,<br />
and/orforgraduate study . By use <strong>of</strong> technical<br />
electives (27 hours maximum), a student can<br />
specialize as primary or secondary areas <strong>of</strong><br />
study in construction, environmental<br />
engineering, structures, transportation, or<br />
water resources . Primary specialization will<br />
be shown on student's transcript .<br />
Students are required to maintain a<br />
cumulative grade point average <strong>of</strong> at least<br />
2.00 in all civil engineering and environmental<br />
engineering courses taken at The <strong>University</strong><br />
<strong>of</strong> <strong>Tennessee</strong>, Knoxville, and used to satisfy<br />
the graduation requirements .<br />
MASTER OF SCIENCE AND<br />
MASTER OF ENGINEERING PROGRAMS<br />
Graduate programs in civil engineering and<br />
environmental engineering leading to the<br />
degree <strong>of</strong> Master <strong>of</strong> <strong>Engineering</strong> are <strong>of</strong>fered<br />
to graduates <strong>of</strong> recognized undergraduate<br />
curricula .<br />
The general requirements for the masters'<br />
degrees are stated in the Graduate Catalog .<br />
DOCTORAL PROGRAM<br />
Graduate work leading to the degree <strong>of</strong><br />
Doctor <strong>of</strong> Philosophy with a major in civil<br />
engineering is <strong>of</strong>fered . Major fields <strong>of</strong> study<br />
include environmental engineering,<br />
structural engineering, transportation,<br />
construction management, and water<br />
resources .<br />
The general requirements for the doctoral<br />
degree are stated in the Graduate Catalog .<br />
Civil <strong>Engineering</strong> (254)<br />
2260 <strong>Engineering</strong> Surveys (4) Mensuration through<br />
the application <strong>of</strong> surveying techniques ; the theory<br />
<strong>of</strong> errors and their analysis; fundamental concepts<br />
<strong>of</strong> horizontal, vertical, and angular measurement ;<br />
basicsurveying operationsand computations . 3 hrs .<br />
lectures and one 3 hr . lab . Prereq : Math 1850 .<br />
2310 Seminar (1) Presentation and discussion <strong>of</strong><br />
topics related to civil engineering .<br />
2360RoutsSurveying (3) Emphasis on basic principles<br />
and practical applications <strong>of</strong> horizontal and<br />
vertical alignment <strong>of</strong> transportation routes, specifically<br />
covering simple, compound, reverse and<br />
parabolic curves and spirals. Earthwork computations<br />
. Prereq : 2260 .<br />
3210 Stresses in Framed Structures (3) Reactions,<br />
moments, shears, and stresses in trusses and<br />
framed structures from fixed loads ; influence lines<br />
for reactions, moments, and shears ; and graphic<br />
statics . Prereq : Engr . Sci . & Mach . 3311 .<br />
3230 Design <strong>of</strong> Framed Structures (3) Selection <strong>of</strong><br />
rolled beams ; design <strong>of</strong> compression and tension<br />
members for axial and combined axial and bending<br />
stresses . Prereq : 3210.<br />
3310 Physical Properties <strong>of</strong> Soils (3) Introduction to<br />
soils as a construction material, determination <strong>of</strong><br />
physical properties <strong>of</strong> soils, factors affecting physical<br />
properties <strong>of</strong> soils. 2 hrs <strong>of</strong> lecture and 1 lab .<br />
Prereq : Engr . Sci . & Mach . 3110 and 3311 .<br />
3320 Computer Applications in Civil <strong>Engineering</strong><br />
(1) Solution <strong>of</strong> Civil <strong>Engineering</strong> problems through<br />
the use <strong>of</strong> digital computers . Prereq : Basic Engr .<br />
1410 .<br />
3380 Surveying Practice (3) Route surveying procedures<br />
. Two 3-hr labs. Coreq : 2360.<br />
3600 Transportation Planning (3) Emphasis on<br />
transportation problems and perspectives, both<br />
rural and urban ; use <strong>of</strong> the planning process to establish<br />
existing travel patterns, modeling <strong>of</strong> demand,<br />
proposing alternatives and their evaluation,<br />
and plan implementation . Prereq : Junior standing .<br />
3610 Transportation <strong>Engineering</strong> (3) Introductory<br />
course on design, construction, maintenance, and<br />
operation <strong>of</strong> various transportation modes, their<br />
guideways and terminals . Prereq : Junior standing .<br />
3710 Materials <strong>of</strong> Construction (3) Physical and mechanical<br />
properties <strong>of</strong> specific construction materials,<br />
behavior <strong>of</strong> materials and structures under load,<br />
ferrous and nonferrous metals, cements, concrete,<br />
asphalt, and wood . 2 lectures and 1 lab . Prereq :<br />
Engr . Sci . & Mach . 3311 .<br />
4110 Concrete Design (3) Reinforced concrete<br />
beamsand columns ; use <strong>of</strong> standard specifications .<br />
Prereq : 3210 and 3710 .<br />
4120 Concrete Design (3) Reinforced concrete continuous<br />
beams and floor slabs ; footings and retaining<br />
walls . Prereq : 4110 and 4410.<br />
4220 Foundations and Substructures (3) Foundation<br />
explorations ; principles <strong>of</strong> design <strong>of</strong> dry and<br />
subaqueous foundations . Prereq : 3310 .<br />
4230 Legal and Ethical Aspects <strong>of</strong> <strong>Engineering</strong> (3)<br />
Legal principles underlying engineering work ; laws<br />
<strong>of</strong> contracts, torts, agency, real property ; problems<br />
<strong>of</strong> pr<strong>of</strong>essional registration and ethics .<br />
4240 Structural Design (3) Plate girders, composite<br />
steel and concrete beams, connections and details,<br />
and design <strong>of</strong> small industrial buildings . Two 3-hr<br />
periods . Prereq : 3230 and 4410 .<br />
4260 Photogrammetry (3) Methods <strong>of</strong> plotting maps<br />
from aerial photographs ; stereoscopic plotting instruments<br />
; applications . Prereq : 2360, or Forestry<br />
Summer Camp for forestry majors .<br />
4320-30 Seminar (1,1) Selected topics dealing with<br />
historical and modern civil engineering achievements<br />
and pr<strong>of</strong>essional and ethical responsibilities.<br />
Prereq : Senior standing and completion <strong>of</strong> alljunior<br />
level non-elective engineering courses .<br />
4410 Deflections and Statically Indeterminate<br />
Structures (3) Deflections <strong>of</strong> beams and trusses ;<br />
analysis <strong>of</strong> indeterminate beams, trusses, bents, and<br />
frames . Prereq : 3210 .<br />
4420 Analysis <strong>of</strong> Framed Structures (3) Maximum<br />
stresses due to moving loads ; uses <strong>of</strong> influence<br />
lines ; lateral forces due to earthquake and wind ;<br />
analysis <strong>of</strong> portals, building frames, and space<br />
frames . Coreq : 4410 .<br />
4430 Construction Methods and Equipment (3)<br />
Fundamental operations in construction and selection<br />
<strong>of</strong> equipment ; production rates, balancing <strong>of</strong><br />
equipment, and cost estimates . Prereq : 3710.<br />
4460 Land Surveying (3) Procedures <strong>of</strong> locating<br />
properties ; evaluating evidence ; procedures to describe<br />
property, to create land divisions, and to prepare<br />
plots ; laws <strong>of</strong> land surveying . Prereq : 2260 or<br />
equivalent .<br />
4510-20 Advanced Structural Design (3, 3) Plastic<br />
design in steel in 4510 ; design <strong>of</strong> typical short span<br />
highwaybridges in 4520. Prereq : 3230 for4510 ; 3230<br />
and 4110 for 4520 .<br />
4530 Cost Comparisons in Design and Construction<br />
(3) Cost <strong>of</strong> engineering and construction . Cost<br />
comparison <strong>of</strong> alternate designs with emphasis on<br />
applications to civil engineering problems. Prereq :<br />
4430 .<br />
4540 Computer Utilization (3) Computer use, economic<br />
justification, and extent <strong>of</strong> use by industry .<br />
Utilization <strong>of</strong> computers for solution <strong>of</strong> civil engineering<br />
problems . Prereq : 3320 .<br />
4550 <strong>Engineering</strong> Behavior <strong>of</strong> Soils (3) Plastic and<br />
elastic behavior <strong>of</strong> soils, determination and use <strong>of</strong><br />
engineering properties <strong>of</strong> in-situ soils . 2 hrs <strong>of</strong> lecture<br />
and 1 lab . Prereq : 4220 or consent <strong>of</strong> instructor.<br />
4560 Stabilization <strong>of</strong> Soils (3) Mechanical stabilization<br />
<strong>of</strong> soils by compaction, drainage, and blending ;<br />
chemical stabilization <strong>of</strong> soils with admixtures ;<br />
water-pro<strong>of</strong>ing and modifying soils with additives . 2<br />
hrs <strong>of</strong> lecture and 1 lab . Prereq : 3310 .<br />
4600 Highway <strong>Engineering</strong> 1(3) Design, construction,<br />
operation, and maintenance <strong>of</strong> highway<br />
facilities ; includes integration <strong>of</strong> system planning<br />
and project planning to design and construction<br />
procedures . Prereq : 2360, 3600 and 3610 .<br />
4620 Airport Planning and Design 1(3) Emphasison<br />
airport master planning . Included for consideration<br />
on the air side are runway configuration, capacity,<br />
geometrics, and lighting ; and on the land side are<br />
included terminal layout and design, and ground<br />
access systems and parking . Prereq : 3600, 3610 .<br />
4640 Traffic <strong>Engineering</strong> (3) Characteristics <strong>of</strong><br />
driver, vehicle, and roadway and their interrelationship<br />
; traffic studies ; basic considerations <strong>of</strong> traffic<br />
circulation and control ; elements <strong>of</strong> urban transportation<br />
planning studies. Prereq : Senior standing .<br />
4650 Highway <strong>Engineering</strong> II (3) Integration and<br />
application <strong>of</strong> various engineering principles and<br />
techniques to process <strong>of</strong> planning, locating, and<br />
design <strong>of</strong> highway facility through comprehensive<br />
team project . 1 lecture and 2 labs . Prereq : 4600.<br />
4660 Airport Planning and Design II (3) Integration<br />
and application <strong>of</strong> principles <strong>of</strong> airport master planning<br />
for purpose <strong>of</strong> site selection and design <strong>of</strong> an<br />
airport facility through comprehensive team<br />
project; includes environmental evaluation <strong>of</strong> design<br />
. 1 lecture and 2 labs . Prereq : 4620.<br />
4710 Portland Cement Concrete Mix Design (3)<br />
Properties and tests <strong>of</strong> portland cement concrete,<br />
methods <strong>of</strong> concrete mix deisgn, non-destructive<br />
concrete evaluation testing, use <strong>of</strong> concrete admixtures<br />
. 2 lectures and 1 lab . Prereq : 3710 .<br />
4720 Asphalt and Bituminous Concrete (3) Properties<br />
and tests <strong>of</strong> asphalts and asphaltic mixes, mix<br />
design and bituminous concrete. Emphasis on use<br />
<strong>of</strong> asphalt in transportation construction projects . 2<br />
lectures and 1 lab . Prereq : 3710 .<br />
4731-32 Earthquake Resistant Structure 1, II (4, 4)<br />
(Same as Architecture 4731-32.)<br />
4800 Introduction to Civil <strong>Engineering</strong> Systems (3)<br />
Methods <strong>of</strong> modeling civil engineering systems and<br />
their specific application to problems <strong>of</strong> transportation,<br />
environment, water resources, and materials .<br />
Prereq : Senior standing or consent <strong>of</strong> instructor .<br />
4850 Elementary Structural Matrix Methods (4)<br />
(Same as Architecture 4850 and <strong>Engineering</strong> Science<br />
and Mechanics 4850.)<br />
4860 Structural Wood Design (3) The application <strong>of</strong><br />
structural design principles to structural members<br />
<strong>of</strong> various combinations <strong>of</strong> wood products. Beams,<br />
columns, and diaphragmconstruction with plywood<br />
are covered in some detail . Attention is given to<br />
various types <strong>of</strong> fastenings and connections . Prereq<br />
: 3230.<br />
4880 Civil <strong>Engineering</strong> Systems Design and Management(3)<br />
Introduction to basicsystems engineering<br />
concepts within a civil engineering context ; discussion<br />
<strong>of</strong> the role <strong>of</strong> decision maker and use <strong>of</strong><br />
optimal principles in engineering planning . Prereq :<br />
Computer Science 3150 .<br />
4910-20 Special Topics (1-3) Problems relating to<br />
recent developments and current practice in civil<br />
engineering through supervised self-study . Prereq :<br />
Consent <strong>of</strong> individual instructor and approved by<br />
department head . May be repeated .<br />
GRADUATE<br />
5000 Thesis<br />
5002 Non-Thesis Graduation Completion (3-15)<br />
5110-20 Statically Indeterminate Structures (3, 3)<br />
5140 Statically Indeterminate Structures (3)<br />
5150 Matrix Formulation<strong>of</strong> Structural Problems (3)<br />
5160 Analysis and Design <strong>of</strong> Plate Structures (3)<br />
5170 Introduction to Structural Dynamics (3)<br />
5180 Finite Element Structural Analysis (3)
5220 Pavement Design (3)<br />
5240 Advanced Properties <strong>of</strong> Materials : Cement<br />
and Concrete (3)<br />
5250 Advanced Properties <strong>of</strong> Materials : Bituminous<br />
Substances and Mixes (3)<br />
5270 Planning and Transportation (3)<br />
5310 <strong>Engineering</strong> Practice (3)<br />
5320-30 <strong>Engineering</strong> Practice Applied to Administration<br />
<strong>of</strong> <strong>Engineering</strong> Projects (3, 3)<br />
5420 Structural Model Analysis (3)<br />
5430-40-50 Construction Management 1, 11, 111(3, 3,<br />
3)<br />
5460-70 Construction Estimating 1, 11 (3, 3)<br />
5550 Soil Mechanics-Plastic Equilibrium (3)<br />
5560 Soil Mechanics-Elastic Behavior (3)<br />
5570 Soil Mechanics-Seepage (3)<br />
5610 Behavior <strong>of</strong> Steel Structures (3)<br />
5730 Prestressed Concrete (3)<br />
5740 Behavior <strong>of</strong> Reinforced Concrete Members<br />
(3)<br />
5800 Urban Systems : <strong>Engineering</strong> and Management<br />
1(3)<br />
5805 Urban Systems : <strong>Engineering</strong> and Management<br />
II (3)<br />
5810 Traffic <strong>Engineering</strong>-Characteristics (3)<br />
5820 Traffic <strong>Engineering</strong>-Operations (3)<br />
5840 Geometric Design (3)<br />
5850 Functional Design <strong>of</strong> City Streets and Urban<br />
Freeways (3)<br />
5860 Urban Transportation Planning (3)<br />
5870 Public Transit Planning (3)<br />
5690 Traffic Accident Reconstruction (3)<br />
5900 Special Problems in Civil <strong>Engineering</strong> (1-9)<br />
5910-20-30 Special Topics (3, 3, 3)<br />
6000 Doctoral Research and Dissertation<br />
6610 Behavior <strong>of</strong> Steel Bridges and Buildings (3)<br />
6740 Behavior <strong>of</strong> Reinforced Concrete Beams and<br />
Frames (3)<br />
6750 Behavior <strong>of</strong> Reinforced Concrete Slabs (3)<br />
6830 Traffic Flow Theory (3)<br />
6860 Statewide Passenger Transportation Planning<br />
(3)<br />
6870 Future Transit Technology and Research (3)<br />
6880 Planning Models forTransportationSystems I<br />
(3)<br />
6890 Planning Models for Transportation Systems<br />
6910-20-30 SpecialTopics in Civil <strong>Engineering</strong> (3, 3,<br />
3)<br />
Environmental <strong>Engineering</strong> (344)<br />
3000 Introduction to Environmental <strong>Engineering</strong> (3)<br />
Introduction to humans' interaction with the air, water,<br />
and land environment in which they live ; role <strong>of</strong><br />
engineering in environmental control . Prereq :<br />
Junior standing .<br />
3120 Hydraulics (3) Application <strong>of</strong> basic and developed<br />
principles <strong>of</strong> hydraulics. Flow measurement<br />
; flow in closed conduits ; uniform and nonuniform<br />
open channel flow ; pumps and turbines ;<br />
basic hydrodynamics; flow similitude and models .<br />
Two lectures and one 3-hr lab . Prereq : Engr . Mach .<br />
3110 .<br />
3330 Elementary Hydrology(3) Elements <strong>of</strong> hydrology<br />
including both descriptive and quantitative aspects<br />
. Prereq : Engr. Mech . 3110 .<br />
4030 Environmental <strong>Engineering</strong> Chemistry (3)<br />
Fundamentals <strong>of</strong> chemistry related to generation,<br />
formation analysis, and removal <strong>of</strong> environment<br />
contaminants . Prereq : Chemistry 1130 and senior<br />
standing .<br />
4150 Urban Water Management (3) Introduction to<br />
urban water modeling ; evaluation <strong>of</strong> optimum urban<br />
water policies ; formulation <strong>of</strong> system constraints<br />
and analysis <strong>of</strong> decision-making process ; management<br />
<strong>of</strong> storm waterfor beneficial use . Prereq : 3330 .<br />
4210 Water Resources <strong>Engineering</strong> Design (3)<br />
Elements <strong>of</strong> water resource structures and systems,<br />
including reservoirs, dams, control works, and open<br />
channel design . Dam safety control ; environmental<br />
impact <strong>of</strong> reservoir projects . Prereq : 3330 or consent<br />
<strong>of</strong> instructor .<br />
4220 Water Resources <strong>Engineering</strong> Development<br />
(3) Multi-objective evaluation procedures for comparing<br />
and selecting among water resources<br />
development alternatives ; achieving project optimality<br />
; single- and multi-purpose projects ; special<br />
topics in new developments in water resources engineering<br />
. Prereq : 3330 or consent <strong>of</strong> instructor.<br />
4330 Hydrologic Design (3) Application <strong>of</strong> frequence<br />
and regression analysis to hydrologic design<br />
<strong>of</strong> water resources system ; unsteady surface<br />
run<strong>of</strong>f and streamflow modeling ; urban peak run<strong>of</strong>f<br />
design using kinematic wave theory ; evaluation <strong>of</strong><br />
effects <strong>of</strong> land use changes on steam flow quantity<br />
and quality . Prereq : 3330 .<br />
4510 Elements <strong>of</strong> Water and Wastewater Transport<br />
Systems (3) Introduction to theory and design <strong>of</strong><br />
water transportation and distribution systems and<br />
wastewater collection systems . Prereq : 3120 and<br />
3330 .<br />
4520 Elements <strong>of</strong> Water and Wastewater Treatment<br />
Systems Design (3) Introduction to unit operations<br />
and processes employed in physical,<br />
chemical, and biological treatment <strong>of</strong> water and<br />
wastewater . Application <strong>of</strong> unit operations and processes<br />
in design <strong>of</strong> water and wastewater treatment<br />
plants . Prereq : 3120 .<br />
4525 Water and Wastewater Treatment Plant Design<br />
(3) Detailed process design <strong>of</strong> water and/or<br />
municipal industrial wastewater treatment plants ;<br />
sludge handling systems, and ultimate disposal <strong>of</strong><br />
residuals . Prereq : 4520 or equivalent .<br />
4530 Environmental <strong>Engineering</strong> Laboratory (3)<br />
Standard analytical techniques for evaluation <strong>of</strong><br />
specific air, water and solid waste pollutants . 2 hrs<br />
and 1 lab . Prereq : 4030.<br />
4600 Solid and Hazardous Waste Management (3)<br />
Magnitude and characteristics <strong>of</strong> solid and hazardous<br />
waste problems ; collection systems ; disposal<br />
systems including landfill, incineration, composting,<br />
fixation, resource recovery, and proposed new<br />
technologies ; current and future regulations. Prereq<br />
: Junior standing .<br />
4700 Air Pollution-Air Resource Management (3)<br />
Introductory course on concepts <strong>of</strong> air pollution ;<br />
analysis <strong>of</strong> relationship among emission sources,<br />
meterology and topographic factors, and adverse<br />
effects on receptors ; engineering approaches for air<br />
pollution control . Prereq : Senior standing .<br />
4810 Water Law (3) (Same as Law 8975 and Water<br />
Resources Development 4810.)<br />
4820 Environmental <strong>Engineering</strong> Law (3) Legal aspects<br />
<strong>of</strong> water and air pollution, drainage, land use<br />
controls, and environmental impact statements with<br />
emphasis upon federal-state relations, recent legislation<br />
and court decisions, and enforcement . Prereq<br />
: Senior standing .<br />
4910-2030 Special Topics (1-3, 1-3,1-3) Topics related<br />
to recent developments and current practice in<br />
environmental engineering through supervised self<br />
study. Prereq : Consent <strong>of</strong> individual instructor and<br />
approved by department head . May be repeated .<br />
GRADUATE<br />
5000 Thesis<br />
5002 Non-Thesis Graduation Completion (3-15)<br />
5150 Water and Urban Welfare (3)<br />
5160 Planning and Utilities (3)<br />
5230 Surface Water Transport Processes (3)<br />
5232 Sediment Transportation (3)<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong> 145<br />
5240 Flood Control Hydraulics (3)<br />
5261 Basic Principles <strong>of</strong> Remote Sensing (3)<br />
5262 Remote Sensing Data Acquisition (3)<br />
5263 Remote Sensing Data Analysis and Interpretation<br />
(3)<br />
5301 Stormwater Modeling 1(3)<br />
5302 Stormwater Modeling 11 (3)<br />
5310 Groundwater Transport Processes (3)<br />
5330 Descriptive Hydrology (3)<br />
5400 Introduction to Environmental Systems (3)<br />
5501 Water andWastewater Treatment Theory 1(3)<br />
5502 Water and Wastewater Treatment Theory 11<br />
(3)<br />
5513 Advanced Water and Waste Treatment Systems<br />
(3)<br />
5530 Environmental <strong>Engineering</strong> and Natural System<br />
Behavior (3)<br />
5551 Water Quality Management (3)<br />
5561 Environmental Management <strong>of</strong> Water Quality<br />
(3)<br />
5582 Microbiology for Sanitary Engineers (3)<br />
5593 Advanced Sanitary <strong>Engineering</strong> Laboratory<br />
(3)<br />
5600 Solid Wastes (3)<br />
5610 Solid Waste Disposal (3)<br />
5620 Solid Waste Collection Systems (3)<br />
5700 Planning and Air Pollution Control (3)<br />
5710 Air Pollution Control <strong>Engineering</strong> (3)<br />
5720 Air Pollution Particle Collection Theory (3)<br />
5725 Air Quality Modeling and Impact Assessment<br />
(3)<br />
5730 Air Pollution Control Device Design (3)<br />
5735 Industrial Source Sampling (3)<br />
5740 Dynamical and Physical Meteorology (3)<br />
5750 Turbulence in the Atmosphere (3)<br />
5760 Diffusion in the Atmosphere (3)<br />
5900 Special'Problems In Environmental <strong>Engineering</strong><br />
(1-9)<br />
5910-20-30 Special Topics (3, 3, 3)<br />
5990 Environmental <strong>Engineering</strong> Seminar (1)<br />
6110-20 Advanced Topics in Fluid Mechanics and<br />
Convective Transfer (3, 3)<br />
6230 Kinematic Wave Theory (3)<br />
6500 Industrial Waste Treatability and Process<br />
Control (6)<br />
6820 Advanced Theory and Applications In Water<br />
Resources Energy Systems 1(3)<br />
6910-20-30 Special Topics in Environmental <strong>Engineering</strong><br />
(3, 3, 3)<br />
Electrical <strong>Engineering</strong><br />
(320)<br />
Pr<strong>of</strong>essors :<br />
J . M. Googe (Head), Ph .D . Georgia Institute <strong>of</strong><br />
Technology, P.E . ; I . Alexeff, Ph .D . Wisconsin,<br />
P.E . ; J . M. Bailey, Ph .D . Georgia Institute <strong>of</strong><br />
Technology ; A . O . Bishop, Jr ., Ph .D . Clemson ;<br />
T . V. Blalock, Ph .D . <strong>Tennessee</strong> ;<br />
R. E . Bodenheimer, Ph .D . Northwestern ;<br />
W. L. Green, Ph .D . Texas A & M ; R . C . Gonzalez,<br />
Ph .D . Florida ; E . L . Hall, Ph .D .<br />
Missouri ; G . W. H<strong>of</strong>fman, Ph .D . Harvard ;<br />
E . C . Huebschmann', Ph .D . Texas ; J . C . Hung,<br />
Ph .D . New York, P.E . ; E. J . Kennedy, Ph .D.<br />
<strong>Tennessee</strong>, P.E . ; W. O. Leffell, M.S . <strong>Tennessee</strong> ;<br />
H . P . Neff, Ph .D. Auburn, P.E . ;<br />
M. O . Pace, Ph .D . Georgia Institute <strong>of</strong><br />
Technology ; P . Z. Peebles, Jr ., Ph .D. '<br />
Pennsylvania ; J . F . Pierce', Ph .D . Pittsburgh,<br />
P.E . ; R. W. Rochelle, Ph .D . Maryland ; J . R . Roth 2 ,
146 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
Ph .D. Cornell ; F. M. Sh<strong>of</strong>ner, Ph .D. <strong>Tennessee</strong> ;<br />
B . Smith, Jr ., M.S. Illinois, P.E . ; F . W. Symonds,<br />
Ph .D. Nottingham (England) ; J . D . Tillman, Jr.,<br />
Ph .D . Auburn ; C. H . Weaver (Vice President for<br />
Continuing Education ; Dean, Space Institute),<br />
Ph .D . Wisconsin, P.E .<br />
Associate Pr<strong>of</strong>essors :<br />
D. W. Bouldin, Ph .D . Vanderbilt ;<br />
H . M. Long, Ph .D . Oxford (England) ;<br />
L. J . Pinson*, Ph .D . Florida ; T . W. Reddoch, Ph .D .<br />
Louisiana State ; D . Rosenberg, E . Eng . Sc . New<br />
York ; J .W. Waller, Ph .D . <strong>Tennessee</strong>.<br />
Assistant Pr<strong>of</strong>essors :<br />
J . D . Birdwell, Ph .D . M.I .T . ; R. D . Joseph',<br />
Ph .D . Case Institute <strong>of</strong> Technology ; J . S. Lawler,<br />
Ph .D . Michigan State .<br />
'Distinguished Pr<strong>of</strong>essor<br />
ZVisiting<br />
'Space Institute, Tullahoma<br />
UNDERGRADUATE<br />
The Bachelor <strong>of</strong> Science in Electrical<br />
<strong>Engineering</strong> is planned to provide a<br />
foundation in both the basic sciences and<br />
specialized areas <strong>of</strong> modern engineering . The<br />
curriculum also contains a suitable amount <strong>of</strong><br />
cultural work to enhance the growth <strong>of</strong> the<br />
student toward the goal <strong>of</strong> becoming a<br />
pr<strong>of</strong>essional person with strong social<br />
awareness . In the senior year, the student may<br />
specialize in any one <strong>of</strong>the following areas <strong>of</strong><br />
electrical engineering : bioelectric<br />
engineering, computer engineering,<br />
electromagnetic fields and communications,<br />
electronics and instrumentation, energy<br />
conversion and power systems, plasma and<br />
electro-optics engineering, and systems and<br />
networks . All <strong>of</strong> these areas except the<br />
bioelectric engineering option are continued<br />
through the M .S . and Ph .D . programs . The<br />
senior year curriculum is sufficiently flexible<br />
to allow a student to take several courses<br />
outside <strong>of</strong> the chosen area <strong>of</strong> specialization .<br />
All sophomore and junior course work is<br />
<strong>of</strong>fered every quarter and the senior work is<br />
scheduled so that the student mayenteratthe<br />
beginning <strong>of</strong> any quarter . This arrangement<br />
allows maximum flexibility, since the student<br />
mayelectthe normal four-yearschedule, may<br />
choose to graduate in three calendar years, or<br />
may take the Cooperative <strong>Engineering</strong><br />
Program .<br />
In addition to the usual research and<br />
teaching facilities in machinery, electronics,<br />
microwaves, solid state devices, and control<br />
equipment, the department has both digital<br />
and analog computers .<br />
MASTER OF SCIENCE PROGRAM<br />
Graduate work leading to the Master <strong>of</strong><br />
Science degree may be completed during one<br />
academic year <strong>of</strong> full-time study orthe degree<br />
may be obtained i n two or three years <strong>of</strong> study<br />
in the evening .<br />
Graduate assistantships and scholarships<br />
are available for outstanding students .<br />
Graduate assistants may obtain the master's<br />
degree in one calendar year .<br />
Course work leading to the degree <strong>of</strong><br />
Master<strong>of</strong> Science in Electrical <strong>Engineering</strong> is<br />
<strong>of</strong>fered in the evening . Each course meets for<br />
two and one-half hours each week .<br />
THE DOCTORAL PROGRAM<br />
Graduate work leading to the degree <strong>of</strong><br />
Doctor <strong>of</strong> Philosophy with a major in<br />
electrical engineering is <strong>of</strong>fered . The<br />
department also participates in the<br />
engineering science doctoral program .<br />
General policies <strong>of</strong> the Graduate School,<br />
residence, language, research, examinations,<br />
and admission to candidacy requirements are<br />
explained in the Graduate Catalog .<br />
2010 Circuits 1(3) Circuitvariables. Current, voltage,<br />
power, energy, resistance, capacitance, and inductance<br />
. Kirchh<strong>of</strong>f's laws . Writing circuit equilibrium<br />
equations using loop currents as well as node voltages.<br />
Solution for resistive networks using matrix<br />
algebra . Reduction by Y-1/3 transformation . Network<br />
theorems . Coreq : Math 2610 . 3 hrs including<br />
biweekly lab .<br />
2020 Circuits II (3) Elementary transient analysis <strong>of</strong><br />
circuits with one storage element . Networks in<br />
sinusodial steady-state . Use <strong>of</strong> complex algebra.<br />
Power and power factor. Phasors and transforms .<br />
Concept <strong>of</strong> transform networks, and complex impedances<br />
. Resonance . Prereq : 2010, Math 2840 concurrently<br />
. 3 hrs including biweekly lab .<br />
2030 Circuits III (3) Polyphase networks considered<br />
as networks with more than one source . Magnetically<br />
coupled circuits . Transient analysis <strong>of</strong> circuits<br />
containing more than one storage element<br />
using classical methods . Steady-state analysis <strong>of</strong><br />
networks containing sinusoidal sources <strong>of</strong> more<br />
than one frequency . Prereq : 2020, Math 2850 concurrently<br />
. 3 hrs including biweekly lab.<br />
3010 Transient Analysis (3) Analysis <strong>of</strong> transient<br />
response <strong>of</strong> networks and systems ; Laplace transform<br />
method and classical differential equation<br />
methods for system analysis ; complex frequency<br />
concept and pole-zero concepts ; application to engineering<br />
problems. Prereq : 2030.<br />
3040 Basic Communication Systems (3) Fourier<br />
series and transforms . Network response to signals<br />
and noise. Elements <strong>of</strong> amplitude, frequency, and<br />
phase modulation systems for analog messages .<br />
Noise performance. Fundamentals <strong>of</strong> broadcastAM,<br />
broadcast FM, FM stereo, and television systems .<br />
Prereq : Math 2850 . 3 hrs including biweekly lab .<br />
3050 Basic Field Theory (3) Forces between<br />
charges, electric and magnetic fields, Gauss' law<br />
and divergence, potential and line integrals, material<br />
bodies, polarization, magnetic circuits, Maxwell's<br />
equations, dynamic potentials . Prereq : Math<br />
2860 .<br />
3060 Propagation I (3) Plane waves, refelection,<br />
guided waves, transmission lines, standing waves,<br />
impedance, impedance matching, graphical<br />
methods, rectangular wave guides. Prereq : 3050. 3<br />
hrs including biweekly lab .<br />
3080 Energy Conversion (3) Magnetic circuits,<br />
transformer theory and operation, principles <strong>of</strong> electromechanical<br />
energy conversion with emphasis on<br />
input-output characteristics ; steady-state analysis<br />
<strong>of</strong> induction motors and d . c . machinery . Prereq :<br />
3040. Includes a biweekly lab.<br />
3090 Energy System Operation (3) Sychronous machines,<br />
transmission-lines, and transformers as<br />
power system elements ; power system representation,<br />
per unit calculation, symmetrical components,<br />
and fault studies . Prereq : 3080 . Includes a biweekly<br />
lab .<br />
3100 Random Signals and Noise in <strong>Engineering</strong> (3)<br />
Theory <strong>of</strong> random signals and spectral analysis <strong>of</strong><br />
noise as applied to engineering problems . Random<br />
signal response <strong>of</strong> linear networks. Transformation<br />
<strong>of</strong> random signals by non-linear networks. Prereq :<br />
3010 and 3040 . 3 hrs including biweekly lab .<br />
3110 Basic Electrical <strong>Engineering</strong>-Circuits and<br />
Fields (3) For non-electrical engineering majors .<br />
Prereq : Math 2850, Physics 2310-20 . 3 hrs including<br />
biweekly lab .<br />
3120 Basic Electrical <strong>Engineering</strong>-Electronics (3)<br />
For non-electrical engineering majors. Prereq :<br />
3110 . 3 hrs including biweekly lab .<br />
3130 Basic Electrical <strong>Engineering</strong>-Machinery (3)<br />
For non-electrical engineering majors . Prereq :<br />
3110 . 3 hrs including biweekly lab .<br />
3135 Basic Electrical <strong>Engineering</strong> Circuits-<br />
Instrumentation (3) For non-electrical engineering<br />
majors . Use <strong>of</strong> operational amplifiers for signal<br />
processing, logic systems applications, signal conditioning<br />
; input-output devices-transducers, recorders,<br />
oscilloscopes ; automated data collection ;<br />
safety and grounding requirements . 2 labs. Prereq :<br />
3120 .<br />
3180 Logic Design <strong>of</strong> <strong>Digital</strong> Systems (3) Introduction<br />
to boolean algebraand design <strong>of</strong> combinational<br />
circuits . Presents gate and flipflop characteristics .<br />
Design <strong>of</strong> clocked sequential circuits and other systems<br />
containing memory . Introduction to minicomputer<br />
architecture and system components to include<br />
basic structure and function <strong>of</strong> Arithmetic,<br />
Storage, Input/Output, and Control Systems. Instruction<br />
set capabilities and machine language<br />
programming . Prereq : 3010, Computer Science<br />
3150 . 3 hrs including biweekly lab .<br />
3190 Plasma 1(3) <strong>Engineering</strong> applications <strong>of</strong> physical<br />
electronics, plasma effects and devices . Topics<br />
include electrostatic precipitators and plasma light<br />
sources, laser operation and applications (electrooptics),<br />
and MHD, controlled thermonuclear, and<br />
other techniques <strong>of</strong> advanced power production . 3<br />
hrs including biweekly lab . Prereq : Physics 2310-<br />
20-30.<br />
3720 Linear Systems Analysis (3) Steady-state and<br />
transient response ; log-frequency, gain-phase, and<br />
polar plots ; block diagram transformation ; signal<br />
flow graphs ; analogous systems, properties <strong>of</strong> second<br />
order systems ; introduction to feedback theory ;<br />
stability criteria . Prereq : 3010and Math 3150 ; coreq :<br />
3180 . 3 hrs including occasional labs.<br />
3810 Basic Electronics 1(3) Band theory fundamentals<br />
; theory and applications <strong>of</strong> p-n junctions ; simple<br />
power supplies ; theory <strong>of</strong> operation <strong>of</strong> field-effect<br />
transistors and applications in simple circuits .<br />
Coreq : 2030 . 3 hrs including project laboratory.<br />
3820 Basic Electronics II (3) Physical operation <strong>of</strong><br />
bipolar transistors and vacuum tubes with applications<br />
in basic amplifiers. Integrated circuit fundamentals<br />
. Prereq : 3810 . 3 hrs including project laboratory<br />
.<br />
3830 Basic Electronics III (3) Frequency and transient<br />
response <strong>of</strong> open-loop transistor amplifiers .<br />
Fundamentals <strong>of</strong> integrated-circuit operational<br />
amplifiers and applications in basic feedback configurations.<br />
Basic digital switching circuits . Prereq :<br />
3820 . 3 hrs including project laboratory .<br />
4020 Direct Electrical Energy Conversion (3) Basic<br />
principles, typical devices, and applications for<br />
production <strong>of</strong> electrical energy by thermoelectric<br />
effects, thermionic conversion, magnetohydrodynamics,<br />
solar cells, and fuel cells . Laboratory demonstrations<br />
. Prereq : 3050, 3190, and 3810 .<br />
4080 Microwave Circuits and Electronics (3) Circuits<br />
represented by wave scattering, isolators,<br />
gyrators, couplers, microwave vacuum diodes and<br />
klystrons, crossed field devices, parametric<br />
amplifiers, power generator semiconductors, varactor<br />
semiconductors . Prereq : 3060 . 3 hrs including<br />
biweekly lab .<br />
4090 Propagation 11 (3) Metal tube, dielectric rod,<br />
and stripline waveguides. Waveguide resonators<br />
andotherloading components . Design <strong>of</strong> structures<br />
utilized for microwave power transmission and for<br />
microwave integrated circuits. Prereq : 3060. 4 labs .<br />
4100 <strong>Digital</strong> Communications Systems (3) Principles<br />
<strong>of</strong> pulse and digital communication systems .<br />
Sampling theorems, pulse amplitude, duration, and<br />
position modulation methods. Quantization, coding,<br />
and pulse code modulation . Generalized digital<br />
signals and carrier modulation with digital<br />
waveforms. Delta, adaptive delta, delta-sigma, and<br />
delta PCM systems . Prereq : 3100 .<br />
4210 Introduction to Artificial Intelligence (3) Same<br />
as Computer Science 4210 .)<br />
4350 Elements <strong>of</strong> Network Synthesis (3) Energy<br />
relationships in networks . Quadratic forms .<br />
Positive-real functions ; properties and tests . Synthesis<br />
<strong>of</strong> L-C networks . Application to the synthesis<br />
<strong>of</strong> lossless twoports in form <strong>of</strong> ladder networks . Prereq<br />
: Senior standing .<br />
4370 Introduction to Feedback System Design (3)<br />
Mathematical formulation <strong>of</strong> control systems ;<br />
steadystate error and error constants ; root-locus<br />
methods ; optimum gain adjustment ; compensation<br />
networks ; introduction to compensation . Prereq :<br />
3720 . Lab optional .<br />
4381 Introduction to Applied Modern Control<br />
Theory (3) Project-oriented course stressing applications<br />
<strong>of</strong> optimal control theory. Topics include<br />
state-space representation <strong>of</strong> systems, controllabil-
ity and observability, minimum principle, dynamic<br />
programming and the Hamilton-Jacobi equation for<br />
deterministic systems, optimal linear systems design<br />
with quadratic criteria, pole placement and observers<br />
for linear systems, stability theory. Prereq :<br />
3720, Computer Science 3150, Math 2860 and 4120 .<br />
4391 Introduction to AppliedOptimal Estimation (3)<br />
A project-oriented course stressing applications <strong>of</strong><br />
optimal estimation theory . Course topics include :<br />
the state-space representation <strong>of</strong> systems, probability<br />
theory and stochastic processes, uncertain systems,<br />
least squares estimation, Wiener filtering, the<br />
Kalman filter . Prereq : Electrical <strong>Engineering</strong> 3720,<br />
Computer Science 3150, Math 2860. Math 4120 recommended<br />
.<br />
4410 Power System Components and Control (3)<br />
Analysis <strong>of</strong> power system components and their interconnection<br />
. Studies in control <strong>of</strong> power and frequency<br />
as well as voltage and reactive power . Prereq<br />
: 3090 .<br />
4420 Power Systems Analysis (3) System studies<br />
including load flow, faults, and stability . Prereq :<br />
3090 .<br />
4430 Transmission, Distribution, and Protection (3)<br />
Studies in underground and d. c . transmission ; consideration<br />
<strong>of</strong> over-voltages and insulation requirements<br />
; system protection against faults. Prereq :<br />
3090.<br />
4460 Losers and Masers (3) Principles <strong>of</strong> laser and<br />
maser operation based on classical concepts and<br />
electrical engineering analogies . Consideration <strong>of</strong><br />
practical devices and applications . Prereq : Senior<br />
standing .<br />
4470 Plasma If (3) Magnetohydrodynamics . Prereq :<br />
3190.<br />
4480 Plasma 111(3) Macroscopic plasma equations,<br />
particle orbits, interactions, oscillations, and waves .<br />
Prereq : 3190 .<br />
4490 Electro-Optics (3) Fourier optics. Diffraction,<br />
lenses, coherent and incoherent imaging . <strong>Engineering</strong><br />
applications : holography . Prereq : Senior standing<br />
.<br />
4500 Electro-Optic Detection and Instrumentation<br />
(3) Sensitivity, resolution (frequency response) and<br />
noise concepts <strong>of</strong> and practical engineering data for<br />
both spatial recording media (e .g . photographic<br />
emulsions) and temporal detectors (e .g . photodiodes)<br />
will be given . Last third <strong>of</strong> the course will be<br />
devoted to selected electro-optic instrumentation<br />
systems (e .g . laser light scattering, optical data<br />
processing, holographic interferometry) .<br />
4540 Antennas and Propagation (3) Dipole and<br />
linear antennas, arrays and simple antennas. Antenna<br />
gain, impedance, andotherparameters . Wave<br />
propagation in free space, earth's troposphere, and<br />
ionosphere . Wave reflections from earth . Prereq :<br />
3060 .<br />
4570 Electro-Acoustics (3) Reproduction <strong>of</strong><br />
monophonic and stereophonic sound, microphones,<br />
loud speakers, disc recording, magnetic<br />
recordings, film recording, acoustics<strong>of</strong> studios, auditoriums<br />
. Prereq : Senior standing .<br />
4600 Analog Signal Processing Circuits for Electronic<br />
Instrumentation (3) Use <strong>of</strong> operational<br />
amplifiers, instrumentation amplifiers, and other integrated<br />
circuits in signal processing . Design<br />
examples such as active filters, amplifiers, attenuators,<br />
function generators, active rectifiers, and<br />
synchronous demodulators . Analysis <strong>of</strong> interfacing<br />
problems between transducers and signalprocessors<br />
. Prereq : 3830. 3 hrs including project<br />
laboratory .<br />
4610 Analog-<strong>Digital</strong> Systems (3) Principles <strong>of</strong><br />
analog computing components . Applied to analog<br />
computing to include problem set-up and scaling .<br />
Characteristics <strong>of</strong> analog multipliers, dividers, and<br />
function generators . Presents comparators, digital<br />
to analog conversion, and analog to digital conversion<br />
techniques. Prereq : 3180 and 3830 . 3 hrs including<br />
biweekly lab.<br />
4620 Sequential Machine and <strong>Digital</strong> System<br />
Theory (3) Design aspects <strong>of</strong> pulse-mode, clockmode,<br />
and level-mode sequential circuits . Theory<br />
and characteristics <strong>of</strong> one- and two-dimensional<br />
iterative networks . Design <strong>of</strong> large scale digital systems<br />
using MSI and LSI technologies . Principles <strong>of</strong><br />
reliability and error detection in digital systems . Prereq<br />
: 3180. 3 hrs including biweekly lab .<br />
4630 <strong>Digital</strong> System Organization and Design (3)<br />
System organization <strong>of</strong> digital systems including<br />
minicomputer and microprocessor architectures<br />
and comparisons . Characteristics <strong>of</strong> ALU and CPU<br />
structures, storage systems (RAM, ROM, and PROM<br />
building blocks), and Input/Output systems. Control<br />
Unit organization to include serial-parallel modes <strong>of</strong><br />
operation, synchronous-asynchronous time sequencing,<br />
and microprogramming <strong>of</strong> control functions<br />
. Prereq : 3180. 3 hrs including biweekly lab .<br />
4660 Bloelectric Instrumentation (3) Nature and<br />
origin <strong>of</strong> bioelectric potentials, transducers,<br />
amplifier requirements, recording systems, and<br />
noise problems . Prereq : Senior standing .<br />
4680 Electric Amplifiers (3) Feedback amplifier<br />
principles. Wideband linear amplifiers . Audio and<br />
radio-frequency power amplifiers . Prereq : 3830,<br />
3720. 3 hrs including project laboratory .<br />
4690 Communications Electronics(3) Receiver and<br />
transmitter circuits for communications. Prereq :<br />
3040, 3830 . 3 hrs including project laboratory.<br />
4700 <strong>Digital</strong> Integrated Electronics (3) Comparators,<br />
logic gates, flip-flops, registers, counters,<br />
memories, analog switches, A/D and D/A conversion,<br />
clipping, clamping, and sweep circuits. Prereq<br />
: 3830, 3180 . 3 hrs including project laboratory.<br />
4740 Integrated Circuits (3) Processing and fabricstion<br />
<strong>of</strong> active and passive components for<br />
monolithic and hybrid circuits . Design techniques<br />
for linear and digital circuits . Prereq : 3830 . 3 hrs<br />
including project laboratory .<br />
4750 Interactive Computer Graphics (3) (Same as<br />
Computer Science 4750 and Geography 4750 .)<br />
4780 Synchronous Machines (3) Development <strong>of</strong><br />
2-axis model for synchronous machines . Applications<br />
to analysis <strong>of</strong> steady state and transient operation<br />
. Excitation and governor control . Prereq : 3090 .<br />
4790 Electromechanical Components <strong>of</strong> Control<br />
Systems (3) Characteristics and analysis <strong>of</strong> electromechanical<br />
devices used in control system .<br />
Single phase induction motors, servo motors,<br />
tachometers, synchros . Dynamic behavior <strong>of</strong> do machine<br />
systems . Applications in industrial process<br />
control . Prereq : 3080 and 3720 .<br />
4800 Hardware-S<strong>of</strong>tware Interface in Minicomputer<br />
and Microprocessor System Design (3)<br />
Minicomputer and microprocessor interface design<br />
. Hardware-s<strong>of</strong>tware interaction and trade-<strong>of</strong>f .<br />
Priority interrupt structures . Telecommunications .<br />
Project oriented, contract course. Completion <strong>of</strong><br />
two projects, one utilizing a minicomputer and the<br />
other a microcomputer, are minimal course requirements<br />
. Prereq : 3180.<br />
4810 Discrete-Data Systems (3) Introduction to<br />
analysis and design <strong>of</strong> discrete data control systems<br />
using frequency domain techniques . Real-time digital<br />
filtering techniques ; application <strong>of</strong> digital computers<br />
in closed-loop feedback sysems.<br />
4820 Introduction to Pattern Recognition (3) Role <strong>of</strong><br />
pattern recognition within framework <strong>of</strong> artificial intelligence<br />
. Design <strong>of</strong> learning and adaptive machines.<br />
Typical applications <strong>of</strong> pattern recognition<br />
to problems <strong>of</strong> practical significance . Computer<br />
simulation <strong>of</strong> elementary pattern recognition problems.<br />
Prereq : Either 3100 and Computer Science<br />
3150, orStatistics 3450 and Computer Science 1510.<br />
(Same as Computer Science 4820 .)<br />
4830 <strong>Digital</strong> Image Processing (3) Principal<br />
methods <strong>of</strong> coding, storing, and processing images<br />
by means <strong>of</strong> digital computers . Computational algorithms<br />
for image operations . Prereq : 3100 and<br />
Computer Science 3150, or Statistics 3450 and<br />
Computer Science 1510 . (Same as Computer Science<br />
4830 .)<br />
4850 Small Computer Systems (3) Basic structure<br />
<strong>of</strong> small computer systems, input-output techniques,<br />
interrupt structures, peripheral devices, system<br />
s<strong>of</strong>tware, and assembly language programming<br />
. Course is project oriented . Prereq : Basic<br />
Engr . 1410, Computer Science 1510 or 3150, or consent<br />
<strong>of</strong> instructor. (Same as Computer Science<br />
4850 .)<br />
49102030 Special Electrical <strong>Engineering</strong> Prob-<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
14 7<br />
lams (3, 3, 3) Problems in electrical engineering<br />
involving library and experimental research .<br />
GRADUATE<br />
5000 Thesis<br />
5040-50-60 Electrical <strong>Engineering</strong> Research (3, 3,<br />
3)<br />
5070-80 Modern Transform Methods (3, 3)<br />
5110 Introduction to Network Analysis (3)<br />
5120 Network Synthesis and Design (3)<br />
5130 Advanced Network Analysis (3)<br />
5170 Blosngineering Systems 1 : Models, Systems<br />
Analysis, and Simulation (3)<br />
5180 Bloongineering Systems 11 : Bloelectric<br />
Phenomena (3)<br />
5190 Blosngineering Systems III : Instrumentation<br />
and Analysis (3)<br />
5210-20 Advanced Electrical Machinery (3, 3)<br />
5230 Advanced Electrical Machinery Applications<br />
(3)<br />
524050-60 Control Systems Design 1,11, 111(3, 3, 3)<br />
5271 Modern Systems Theory 1 (3)<br />
5281 Modern Systems Theory il (3)<br />
5291 Modern Systems Theory 111 (3)<br />
5310 Basic Requirements for Plasma Fusion (3)<br />
5320 Diagnostics for Fusion (3)<br />
5330 <strong>Engineering</strong> <strong>of</strong> Fusion (3)<br />
5340 Introduction to Quantum Electronics (3)<br />
5350 Properties <strong>of</strong> Quantum Devices (3)<br />
5360 Application <strong>of</strong> Quantum Electronic Devices<br />
(3)<br />
5370 Advanced Direct Electrical Energy Conversion<br />
1(3)<br />
5380 Advanced Direct Electrical Energy Conversion<br />
11 (3)<br />
5390 Advanced Direct Electrical Energy Conversion<br />
111 (3)<br />
5410 Power System Networks (3)<br />
5420 Fault and Load Flow Studies (3)<br />
5430 Power System Stability and Control (3)<br />
5440 Distribution Systems (3)<br />
5460 Selected Topics in Power Systems (3)<br />
55102030 Advanced Analog Electronics (3, 3, 3)<br />
5540 Thick Film Hybrid Microcircuits (3)<br />
55708090 Advanced Electronic Switching Circuits<br />
(3, 3, 3)<br />
561020 Logic Design and Finite Automata Theory<br />
(3,3)<br />
5615-25 Introduction to Switching Theory and<br />
Logic Design (3, 3)<br />
5630 <strong>Digital</strong> System Architecture (3)<br />
5635 Introduction to <strong>Digital</strong> Computer and Analog<br />
Systems (3)<br />
5650-60 Electric Communications Systems (3, 3)<br />
567080 Pattern Recognition (3, 3)<br />
5690 Introduction to Artificial Intelligence (3)<br />
5710 Random Process Theory for Engineers (3)<br />
572030 Prediction, Filtering and Detection Theory<br />
(3,3)<br />
5740 <strong>Digital</strong> Processing <strong>of</strong> Signals (3)<br />
5750-60 Radar Systems Analysis (3, 3)<br />
5770 System Identification (3)<br />
5800 Power Transmission Lines (3)<br />
581020 Electromagnetic Fields (3, 3)<br />
5830 Linear Antennas and Antenna Arrays (3)
148 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
5840 Aperture Antennas (3)<br />
5850 Microwave Electronics (3)<br />
5860 Electromagnetic Wave Propagation (3)<br />
5870 Introductory Microwave Networks (3)<br />
5930 <strong>Digital</strong> Image Processing (3)<br />
5940-50 Advanced Small Computer Systems (3,3)<br />
6000 Doctoral Research and Dissertation<br />
6240-50-60 Advanced Systems Theory 1, 11, 111(3, 3,<br />
3)<br />
6270-80-90 Special Topics in Systems Methodology<br />
(3, 3, 3)<br />
6340-50-60 Special Topics In Quantum Electronics<br />
(3, 3, 3)<br />
6410-20-30 Modern Techniques <strong>of</strong> Electrical Energy<br />
Systems (3, 3, 3)<br />
6500-10 Electrical Conduction In Gases and Plasma<br />
Physics (3,31)<br />
6530 Special Topics in Image and Pattern Analysis<br />
(3)<br />
6610-20-30 Microwave Networks (3, 3, 3)<br />
6650 Advanced Antenna Theory (3)<br />
6660 Electromagnetic Diffraction and Scattering<br />
(3)<br />
6710"20-30 Network Synthesis (3, 3, 3)<br />
6750 Detection Theory (3)<br />
6760 Coding Theory (3)<br />
6800-10-20 Advanced Topics in Electronic Instrumentation<br />
(3, 3, 3)<br />
6910"20-30 Advanced Sequential Machine and Automats<br />
Theory (3, 3, 3)<br />
<strong>Engineering</strong><br />
Administration<br />
(See Graduate School.)<br />
<strong>Engineering</strong> Science<br />
and Mechanics<br />
Pr<strong>of</strong>essors :<br />
W . T . Snyder (Head), Ph .D . Northwestern ;<br />
H . B . Aiken (Emeritus), M .S. <strong>Tennessee</strong> ;<br />
J . E. Akin, Ph .D . Virginia Polytechnic, P.E . ;<br />
A . J . Baker, Ph .D . SUNY (Buffalo), P .E. ;<br />
T . G . Carley, Ph .D . Illinois, P .E . ; B . R . Dewey,<br />
Ph .D . Illinois, P .E . ; A. H . Eraslan, Ph .D . North<br />
Carolina State ; J . H . Forrester, Ph .D . Iowa State,<br />
P .E . ; D . R . Keefer*, Ph .D . Florida ;<br />
C . W . Lee, Ph .D . Illinois Institute <strong>of</strong><br />
Technology ; J . R . Maus*, Ph .D . North<br />
Carolina State ; W . A . Miller, Jr .<br />
(Associate Dean), Ph .D . Georgia Institute<br />
<strong>of</strong> Technology . P .E . ; H . Pih, Ph .D .<br />
Illinois Institute <strong>of</strong> Technology, P .E . ;<br />
C . J . Remenyik, Ph .D . Johns Hopkins ;<br />
C . D . Scott, Ph .D . <strong>Tennessee</strong> ;<br />
L . R. Shobe, M.S . Kansas State, P .E . ;<br />
J . E . Stoneking, Ph .D . Illinois, P .E . ;<br />
D . G . Thomas, Ph .D . Ohio State, P .E .<br />
Associate Pr<strong>of</strong>essors :<br />
1L. Adler, Ph .D . <strong>Tennessee</strong> ;<br />
B . Antar', Ph .D . Texas ;<br />
J . E. Caruther', Ph .D . Georgga Institute<br />
<strong>of</strong> Technology ; R . J . Jendrucko, Ph .D .<br />
Virginia, P .E . ; A. Mathews, Ph .D.<br />
Illinois, P.E . ; T. F . Moriarty, Illinois ;<br />
W . E . Scott, Ph .D . Johns Hopkins ;<br />
J . F . Wasserman, Ph .D . Cincinnati .<br />
Assistant Pr<strong>of</strong>essors :<br />
J . M . Carter", Ph .D . Missouri .<br />
' Space Institute, Tullahoma<br />
'Honorary<br />
BACHELOR OF SCIENCE PROGRAM<br />
The curriculum in engineering science will<br />
provide students an opportunity for<br />
education with breadth in engineering<br />
science, mathematics, and physical (or<br />
biological) science . Such a program will<br />
prepare students for a career in engineering<br />
development and research, pr<strong>of</strong>essional<br />
education at the M .S . level, or additional<br />
graduate study leading to the master's or the<br />
doctoral degrees . The curriculum will provide<br />
students a broad engineering education<br />
which permits a strong emphasis on<br />
engineering principles and basic science .<br />
In the first two years students in the<br />
engineering science program study<br />
engineering, science, and mathematics . The<br />
engineering science program in the<br />
upper-division years is essentially an elective<br />
curriculum in which the special interests <strong>of</strong><br />
students can be met which cannot be<br />
accommodated in other programs . Examples<br />
<strong>of</strong> special interest elective groups presently<br />
available in the engineering science program<br />
are biomedical engineering, engineering<br />
analysis and synthesis, environmental<br />
sciences, and engineering materials . Other<br />
elective groups are currently being developed<br />
and will be available in the future .<br />
The biomedical engineering elective group<br />
provides the basic background for an<br />
engineer to contribute to the fields <strong>of</strong> biology<br />
and medicine in such technical areas as the<br />
design <strong>of</strong> research and diagnostic<br />
equipment, the development <strong>of</strong> artificial<br />
organs, and the application <strong>of</strong> the<br />
engineering sciences to further the basic<br />
understanding <strong>of</strong> biological systems. With<br />
some modifications, the program can<br />
emphasize other areas such as the use <strong>of</strong><br />
computer systems to automate hospital<br />
operations, to analyze medical data, and to<br />
contribute to the broad area <strong>of</strong> health care<br />
delivery systems . Interested and qualified<br />
students may choose to use this program as a<br />
background for graduate study in<br />
engineering orthe life sciences . The program<br />
includes the courses required for entrance<br />
into most medical schools, including The<br />
<strong>University</strong> <strong>of</strong> <strong>Tennessee</strong> Center for the Health<br />
Sciences in Memphis .<br />
The engineering mechanics elective group<br />
focuses on analytical and experimental<br />
methods used in investigating the interaction<br />
<strong>of</strong> forces and matter . It is designed especially<br />
to develop engineers capable <strong>of</strong> engaging in<br />
research and development in industrial and<br />
governmental research laboratories .<br />
Because such preparation involves emphasis<br />
on the link between the basic sciences and<br />
engineering fundamentals, the engineering<br />
mechanics elective group provides a good<br />
theoretical background for students wishing<br />
to pursue engineering graduate studies .<br />
The engineering analysis and synthesis<br />
elective group affords a concentration on the<br />
application <strong>of</strong> such mathematical techniques<br />
as numerical analysis and similitude for the<br />
solution <strong>of</strong> practical engineering problems .<br />
As such, heavy emphasis is placed on the use<br />
<strong>of</strong> digital computing .<br />
The environmental sciences elective group<br />
introduces the student to some <strong>of</strong> the areas <strong>of</strong><br />
knowledge and to some <strong>of</strong> the basic skills<br />
involved in engineering efforts aimed at<br />
solving environmental and ecological<br />
problems. This program gives the necessary<br />
background in both stress/structural analysis<br />
for a higher level <strong>of</strong> competence in this<br />
specialty during pr<strong>of</strong>essional practice or<br />
through formal graduate study .<br />
The engineering materials elective group<br />
provides background in the use <strong>of</strong> materials<br />
in the solution <strong>of</strong> engineering problems . This<br />
includes the selection <strong>of</strong> the proper materials<br />
to support the anticipated loads and<br />
consideration <strong>of</strong> the environmental<br />
conditions that are expected to exist during<br />
the design life <strong>of</strong> the system . There is a special<br />
need in industry for individuals with<br />
background in both stress/structural analysis<br />
and materials properties . The engineering<br />
materials elective group provides the student<br />
an opportunity to acquire this background .<br />
The basic engineering sciences curriculum<br />
provides an opportunity to study significant<br />
blocks <strong>of</strong> the engineering science areas<br />
recognized by the American Society for<br />
<strong>Engineering</strong> Education such as<br />
(1) mechanics ; (2) electrical science, electric<br />
and magnetic fields, circuits, and<br />
electronics ; (3) thermodynamics and<br />
statistical mechanics ; (4) materials<br />
science ; (5) information science ;<br />
(6) transfer and rate processes such as heat,<br />
mass, and momentum transfer . Other modern<br />
engineering fields which may be studied in<br />
the engineering science option are the space<br />
sciencesand the environmental sciences . It is<br />
not expected that a student will study all the<br />
engineering sciences but will structure a<br />
course plan to provide depth in some <strong>of</strong> the<br />
engineering sciences .<br />
Because <strong>of</strong> the large number <strong>of</strong> elective<br />
courses to be selected in the engineering<br />
science degree program, faculty advising<br />
plays an essential role in the process <strong>of</strong><br />
developing the student's course <strong>of</strong> study .<br />
Before the end <strong>of</strong> the sophomore year,<br />
students in the engineering science program<br />
are required to develop, in concert with a<br />
faculty adviser, a statement <strong>of</strong> objectives and<br />
a course plan for the upper-division years .<br />
This course plan must be filed with the<br />
Office <strong>of</strong> Admissions and Records before<br />
students with morethan 90 quarter hours can<br />
register for courses, and before a student's<br />
senior standing sheet can be prepared .<br />
MASTER OF SCIENCE AND<br />
DOCTORAL PROGRAMS<br />
Graduate programs leading to the degrees<br />
<strong>of</strong> Master <strong>of</strong> Science and Doctor <strong>of</strong><br />
Philosophy with a major in engineering<br />
science are available to graduates <strong>of</strong><br />
recognized curricula in engineering,<br />
mathematics, or one <strong>of</strong> the physical or<br />
biological sciences . Program options include<br />
solid mechanics, fluid mechanics, biomedical<br />
engineering, and other engineering sciences .<br />
In the biomedical and engineering science<br />
option, interdisciplinary programs are<br />
arranged to meet individual needs or<br />
interests . Each applicant will be advised as to<br />
any prerequisite courses before entering a<br />
program ; the student's program <strong>of</strong> study<br />
must be approved by his or her advisory<br />
committee, and must comply with the<br />
requirements <strong>of</strong> the Graduate School . The<br />
student's major pr<strong>of</strong>essor may be selected<br />
from a department other than the Department<br />
<strong>of</strong> <strong>Engineering</strong> Science and Mechanics .<br />
The flexibility and interdisciplinary aspects<br />
<strong>of</strong> the program options are intended to be <strong>of</strong><br />
particular interest to prospective students<br />
currently employed in research,<br />
development, or design activities and whose<br />
interests in continuing education (either<br />
full-time or part-time) lie at one <strong>of</strong> the<br />
interfaces between science and engineering,<br />
or can best be met by interdisciplinary study<br />
in engineering . The department's course
<strong>of</strong>ferings and research activities are also<br />
intended to meet the needs <strong>of</strong> students who<br />
seek preparation for employment in<br />
engineering areas requiring specialization in<br />
mechanics, or in related interdisciplinary<br />
studies such as biomechanics .<br />
General policies <strong>of</strong> the Graduate School<br />
relating to admission, residence,<br />
examinations, and research are described in<br />
the Graduate Catalog .<br />
<strong>Engineering</strong> Science<br />
and Mechanics (335)<br />
2705 Elementary Statics and Dynamics (3) Resolution<br />
and composition <strong>of</strong> forces ; moments ; resultants<br />
<strong>of</strong> force systems ; free body diagrams and coplanar<br />
equilibrium ; friction ; particle dynamics.<br />
(Primarily for transfer students .) Prereq : <strong>College</strong><br />
Physics (Mechanics) ; coreq : Math 1850 or equivalent.<br />
2710 Statics (3) Resultants <strong>of</strong> space force systems ;<br />
static equilibrium <strong>of</strong> structural elements and space<br />
frames ; belt friction ; first and second moments . Prereq<br />
: 2705 or Basic Engr. 1310, Math 1860 .<br />
2720 Dynamics (3) Absolute and relative kinematics<br />
<strong>of</strong> rigid bodies ; kinetics <strong>of</strong> rigid bodies using Newton's<br />
laws, work-energy, and impulse-momentum .<br />
Prereq : 2705 or Basic Engr . 1320, Math 2840 .<br />
3010 Seminar (1) Discussions <strong>of</strong> engineering pr<strong>of</strong>essionalism<br />
. Field trips and career planning . S/NC.<br />
3110-20-30 Fluid Mechanics (3, 3, 3) Basic laws <strong>of</strong><br />
fluids, effects <strong>of</strong> viscosity and compressibility ; empirical<br />
analysis : Navier-Stokes equations ;<br />
boundary-layer concepts ; potential flow . Must be<br />
taken in sequence. 3-hr lab in 3120 and 3130 . Prereq :<br />
2720 or 3700, Math 2840 ; coreq for 3120 : Mach .<br />
Engr . 3311 or equivalent .<br />
3310-20 Mechanics <strong>of</strong> Materials (3) Concepts <strong>of</strong><br />
stress and strain, stress-strain relations, and Mohr's<br />
circle ; stresses and displacements in thin-walled<br />
pressure vessels, shafting ; determinate, indeterminate,<br />
and non-homogeneous beams ; column<br />
theory . Must be taken in sequence . Prereq : Basic<br />
Engr . 1310 ; coreq : Math 2840 .<br />
3311 Mechanics <strong>of</strong> Materials (4) Concepts <strong>of</strong> stress<br />
and strain ; stress-strain relations and Mohr s circle ;<br />
static analysis <strong>of</strong> members ; area moment <strong>of</strong> inertia ;<br />
stress and displacement analysis <strong>of</strong> axially-loaded<br />
members ; torsion ; bending . Not for departmental<br />
graduate credit . Prereq : Basic Engr. 1310 ; coreq :<br />
Math 2840 .<br />
3410 Introduction to Biomedical <strong>Engineering</strong> (4)<br />
Introduces the facets and opportunities <strong>of</strong> biomedical<br />
engineering, and provides basic terminology<br />
and background knowledge for further courses in<br />
the field . Subjects include anatomy, physiology,<br />
biomaterials, mathematical models <strong>of</strong> body systems,etc.<br />
Coreq : Math 2840or consent <strong>of</strong> instructor.<br />
3420 Introduction to Clinical <strong>Engineering</strong> (3) <strong>Engineering</strong><br />
applications in the clinical/hospital setting<br />
; description, analysis, and design <strong>of</strong> health care<br />
delivery systems ; hospital organization and structure<br />
; clinical use <strong>of</strong> biomedical equipment ; principles<br />
<strong>of</strong> safety engineering in the hospital and applicable<br />
codes, standards and regulations . Prereq :<br />
3410, Physics 2320, or consent <strong>of</strong> instructor.<br />
3510 Materials <strong>of</strong> <strong>Engineering</strong> (3) Mechanical properties<br />
<strong>of</strong> engineering materials ; behavior <strong>of</strong> materials<br />
under load . 3 hrs or 2 hrs and 1 lab . Prereq : 3311<br />
and Met. Engr. 2110 or 3110.<br />
3520 Materials Behavior and Chemical Process<br />
Equipment Design (3) (Same as Met . Engr . 3520 .)<br />
3700 Dynamics (4) Kinematics <strong>of</strong> rigid bodies ; mass<br />
moments <strong>of</strong> inertia ; coulomb friction ; kinetics <strong>of</strong><br />
rigid bodies using force, mass, acceleration ; workenergy<br />
; impulse-momentum . Not for departmental<br />
graduate credit . Prereq : 2705 or Basic Engr . 1320,<br />
Math 2840 .<br />
3710 Intermediate Dynamics (3) Three-dimensional<br />
dynamics <strong>of</strong> particles and rigid bodies ; dynamics <strong>of</strong><br />
bodies with varying mass ; central force motion ;<br />
Lagrange's equations . Prereq : 2720, Math 2850 .<br />
4010 Project in Design and Development (4) Investigation,<br />
design, and report <strong>of</strong> an engineering science<br />
project . Prereq : Senior standing and a grade <strong>of</strong><br />
C or better in 3311, 3700, and 3110 .<br />
4011 Project in Design and Development (3) Investigation,<br />
design, and report <strong>of</strong> an engineering science<br />
project . Prereq : Senior standing .<br />
4430 Orthopedic Biomechanics (3) Introduction to<br />
engineering principles and applications in orthopedics<br />
and rehabilitation . Topics include statics,<br />
Newton's laws <strong>of</strong> motion, stresses in simple sections,<br />
engineering materials, and biological materials<br />
. Prereq : Consent <strong>of</strong> instructor . For nonengineering<br />
majors .<br />
4500 Applied Mechanics for Life Scientists (4) Concise<br />
and broad coverage <strong>of</strong> basic principles and<br />
concepts <strong>of</strong> mechanics . Fundamental concepts,<br />
statics, vibrations, continuum mechanics, and<br />
properties <strong>of</strong> materials . Applications in engineering<br />
and medicine. Prereq : Math 1860 or consent <strong>of</strong> instructor.<br />
Primarily for non-engineering majors .<br />
4520 Biomedical Fluid Mechanics (3) Discuss<br />
objectives, review foundations, and present<br />
developments in biomedical fluid mechanics . Properties<br />
<strong>of</strong> human blood and blood vessels, determinants<br />
<strong>of</strong> cardiac performance, analysis and measurement<br />
<strong>of</strong> flow and pressure in arteries,nontraumatic<br />
study <strong>of</strong> circulatory system, mechanics <strong>of</strong><br />
microcirculation . Applications to areas <strong>of</strong><br />
hemolysis, thrombosis, and fluid dynamics <strong>of</strong> heart<br />
assist devices. Prereq : 4500 or a course in fluid mechanics<br />
or consent <strong>of</strong> instructor.<br />
4530 Biomechanics (3) Discuss objectives, review<br />
foundations, and present developments in areas <strong>of</strong><br />
mechanical properties <strong>of</strong> living tissues, biomechanics<br />
<strong>of</strong> injury and prosthesis, material compatibility<br />
<strong>of</strong> prosthetic devices, and biomechanical<br />
problems related to impact. Prereq : 3311 or 4500 or<br />
consent <strong>of</strong> instructor .<br />
4540 Fracture-Safe Design (3) A critical review <strong>of</strong><br />
mechanical properties <strong>of</strong> materials that are indicative<br />
<strong>of</strong> fracture resistance, including transition temperature,<br />
R-curves, stress intensity factors, and<br />
J-integrals ; the use <strong>of</strong> these properties in design . 3<br />
hrs or 2 hrs and 1 lab . Prereq : 3311 and Met . Engr .<br />
2110. (Same as Met . Engr . 4540.)<br />
4550 Design <strong>of</strong> Artificial Internal Organs (3) Study<br />
<strong>of</strong> the design, development and evaluation <strong>of</strong> artificial<br />
internal organs including Federal regulation<br />
and ethical considerations. Review <strong>of</strong> currently<br />
available devices and new developments . Prereq :<br />
3110, 3410, Math 2850 .<br />
4580 Principles <strong>of</strong> Non-destructive Testing (3)<br />
(Same as physics 4580 .)<br />
4610 Experimental Stress Analysis (3) Basic concepts<br />
: theory, techniques, and instrumentation <strong>of</strong><br />
resistance strain gauges ; theory and techniques <strong>of</strong><br />
brittle coating method ; introduction to other stress<br />
analysis methods . Prereq : 3311, Elec. Engr . 2020 or<br />
3110. 2 hrs and a 3-hr lab .<br />
4620 Dynamic Data Acquisition (4) Instrumentation<br />
<strong>of</strong> measuring systems for dynamic events and responses<br />
; signal conditioning ; oscillographs, oscilloscopes,<br />
and magnetic tape recording ; telemetry<br />
and data transmission ; data processing . Prereq :<br />
3700, 3311, Elec . Engr . 3120 . 3 hrs and a 3-hr lab .<br />
4630 Introductory Photomechanics (3) Introduction<br />
to photoelasticity, photoelastic coating method,<br />
Moire method, interferometry, and holography . Prereq<br />
: 3311, Physics 2320. 2 hrs and a 3-hr lab .<br />
4710 Fundamentals <strong>of</strong> Vibrations (3) Free and<br />
forced vibrations <strong>of</strong> damped and undamped lumped<br />
parameter systems ; energy methods . Prereq : 2720<br />
or 3700, Math 2860.<br />
4780 <strong>Engineering</strong> Acoustics (3) Concepts <strong>of</strong> acoustics<br />
. Measures <strong>of</strong> sound and their units . Noise generation<br />
and transmission . Noise control principles<br />
and application . Materials and procedures for noise<br />
abatement . Prereq : Introductory course in vibration<br />
or acoustics.<br />
4810-20 <strong>Engineering</strong> Analysis (4, 3) Integration <strong>of</strong><br />
fundamental physical laws and mathematical<br />
methods<strong>of</strong> analysis with emphasis on application to<br />
realistic engineering problems . Prereq : 3110, 3311,<br />
and Computer Science 3150 .<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong> 14 9<br />
4850 Elementary Structural Matrix Methods (4)<br />
(Same as Architecture 4850 and Civil <strong>Engineering</strong><br />
4850.)<br />
4910-20 Special <strong>Engineering</strong> Science Topics (3, 3)<br />
Problems related to recent developments and practice<br />
. Open to juniors or seniors with consent <strong>of</strong> instructor<br />
. May be repeated for credit once .<br />
GRADUATE<br />
5000 Thesis<br />
5002 Non-Thesis Graduation Completion (3-15)<br />
5110-20 Fluid Dynamics (3, 3)<br />
5130 Introduction to Turbulence (3)<br />
5140 Finite Element Methods in Fluid Mechanics<br />
(3)<br />
5180 Finite Element Structural Analysis (3)<br />
5220 Mechanics <strong>of</strong> Viscous Flow (3)<br />
5230 Non-Newtonian Fluid Mechanics (3)<br />
5410-20 Theory <strong>of</strong> Elasticity (3, 3)<br />
5430 Thermal Stresses (3)<br />
5440 Theory <strong>of</strong> Linear Viscoelasticity (3)<br />
5550 Fracture Mechanics (3)<br />
5630-40 Photoelasticity (3, 3)<br />
5710-20 Advanced Dynamics (3, 3)<br />
5730 Advanced Vibrations (3)<br />
5740 Vibrations <strong>of</strong> Continuous Media (3)<br />
5750 Orbital Mechanics (3)<br />
5800 Introduction to Continuum Mechanics (3)<br />
5840 Perturbation Methods in Mechanics<br />
5860 Introductory Finite Element Methods (3)<br />
5910 Special Topics in <strong>Engineering</strong> Mechanics (3)<br />
6000 Doctoral Research and Dissertation<br />
6110-20 Advanced Topics in Fluid Mechanics and<br />
Convective Transfer (3, 3)<br />
6140 Advanced Finite Element Methods in Fluid<br />
Dynamics (3)<br />
6230-40-50 Theory <strong>of</strong> Turbulence (3, 3, 3)<br />
6310 Theory <strong>of</strong> Plates (3)<br />
6320 Analysis and Design <strong>of</strong> Thin Shell Structures<br />
(3)<br />
6330 Theory <strong>of</strong> Elastic Stability (3)<br />
6340 Theory <strong>of</strong> Plasticity (3)<br />
6610 Photoelasticity (3)<br />
6710 Impact and Stress Waves in Solids (3)<br />
6800 Non-Linear Viscoelasticity (3)<br />
6810 Energy Methods (3)<br />
6910 Special Topics in <strong>Engineering</strong> Mechanics (3)<br />
<strong>Engineering</strong> Physics<br />
Pr<strong>of</strong>essorW. M. Bugg (Head) ; Physics staff as<br />
shown on page 221 .<br />
The curriculum in engineering physics is<br />
designed to fulfill the educational<br />
requirements for pr<strong>of</strong>essional work in various<br />
fields <strong>of</strong> applied science which are based<br />
upon a thorough knowledge <strong>of</strong> physics . The<br />
first two years are concerned with<br />
fundamental courses in engineering, science,<br />
and mathematics . In the upper division, the<br />
curriculum allows some choice <strong>of</strong> courses in<br />
engineering and in physics depending upon<br />
the interest <strong>of</strong> the student . The<br />
undergraduate program is a complete,<br />
pr<strong>of</strong>essional program, equipping the student<br />
for entry into a variety <strong>of</strong> work in industry and<br />
research . The program also leadsto graduate<br />
work in either physics or engineering .
150 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
The courses in the engineering physics<br />
curriculum are shown in tabular form on page<br />
129. Descriptions <strong>of</strong> the physics courses are<br />
found on page 221 .<br />
Industrial <strong>Engineering</strong><br />
(556)<br />
J . N . Snider (Head), Ph .D . Ohio State, P.E . ;<br />
D . C . Doulet, M.S . <strong>Tennessee</strong>, P.E . ;<br />
H . P . Emerson (Emeritus), S.B. Massachusetts<br />
Institute <strong>of</strong> Technology, P.E . ; R . M.LaForge<br />
(Emeritus), M.S . Georgia Institute <strong>of</strong> Technology,<br />
P .E ., H . L . Loveless, M.S . North Carolina State,<br />
P.E. ; W. G . Sullivan, Ph .D . Georgia Institute <strong>of</strong><br />
Technology, P.E .<br />
Associate Pr<strong>of</strong>essors :<br />
E . K . Boyce, M.S . <strong>Tennessee</strong> ;<br />
W. W. Claycombe, Ph .D . Virginia Polytechnic ;<br />
E . L. DePorter, Ph .D . VPI & RU ;<br />
D . H . Hutchinson, Ph .D . Georgia Institute <strong>of</strong><br />
Technology ; W. A . Lyday, M.S . <strong>Tennessee</strong>.<br />
Assistant Pr<strong>of</strong>essors :<br />
M. K . Goodman, M .S . <strong>Tennessee</strong>, P.E . ;<br />
J . C. Hungerford, M.S . Ohio State ;<br />
K . E . Kirby, Ph .D. <strong>Tennessee</strong> .<br />
'Kingsport<br />
UNDERGRADUATE<br />
The undergraduate curriculum in industrial<br />
engineering provides a strong background in<br />
both fundamental engineering principles and<br />
the analytic methods necessary for solving<br />
the multi-faceted problems associated with<br />
the production, maintenance, and delivery <strong>of</strong><br />
goods and services . In particular, this<br />
curriculum emphasizes the knowledge and<br />
skills necessary to design integrated systems<br />
<strong>of</strong> people, materials, equipment, and energy<br />
wherevertheyarefound, such thattheoverall<br />
system functions at an optimal level and such<br />
that the needs <strong>of</strong> the human components <strong>of</strong><br />
the system are adequately met .<br />
This curriculum, which is built upon a<br />
strong background in mathematics and<br />
statistics, includes fundamental course work<br />
in all <strong>of</strong> the engineering sciences,<br />
introductory economics and accounting,<br />
training in fundamental human factors which<br />
influence engineering design, the economic<br />
analysis <strong>of</strong> alternative design choices, quality<br />
control techniques, manufacturing<br />
processes and materials, production and<br />
inventorysystem designand control, material<br />
handling systems and facilities design, the<br />
mathematical modeling and simulation <strong>of</strong><br />
complex systems, and the design and<br />
installation <strong>of</strong> information acquisition and<br />
control systems . The technical and<br />
non-technical electives further allow the<br />
students to specialize in an area(s) which<br />
meet particular needs .<br />
The solid, broad base in engineering,<br />
combined with training in applying<br />
engineering methodology to traditionally<br />
non-engineering problem areas as provided<br />
through the industrial engineering<br />
curriculum, leads to participation by<br />
industrial engineers in an unlimited range <strong>of</strong><br />
fields including, among others, retail<br />
distribution, banking, health care delivery,<br />
corporate management, municipal<br />
management, aerospace systems, research<br />
groups, and government as well as in the<br />
traditional area <strong>of</strong> manufacturing .<br />
MASTER OF SCIENCE PROGRAM<br />
The graduate program in industrial<br />
engineering contains a basic "core" <strong>of</strong> 18<br />
hours <strong>of</strong> course work covering topics in<br />
industrial engineering at the graduate level .<br />
The remaining 18hoursinthethesisprogram<br />
are based upon the educational objective <strong>of</strong><br />
the student and determined with the approval<br />
<strong>of</strong> the student's adviser . A minor is usually<br />
taken in an area related to industrial<br />
engineering, and a thesis is required . The<br />
program is open to graduates <strong>of</strong> recognized<br />
curricula in all fields <strong>of</strong> engineering .<br />
A non-thesis program <strong>of</strong> 45 hours <strong>of</strong> course<br />
work plus a 3-hour project is also available<br />
and open to graduates in engineering . The<br />
core courses (5280, 5360, 5520, 5700, 5710,<br />
5720) comprise 18 hours <strong>of</strong> the total and are<br />
identical to the basic courses in the program<br />
forthesis students . An option is selected from<br />
manufacturing, health systems, operations<br />
research, human factors, or industrial<br />
administration . Each option requires 9 hours<br />
<strong>of</strong> non-engineering electives to support the<br />
selected option . The project requires the<br />
design <strong>of</strong> a procedure or operating system<br />
based especially upon the course work in the<br />
selected option and clearly applicable as a<br />
solution to a problem in actual pr<strong>of</strong>essional<br />
practice . The student is examined on the<br />
project and related course work .<br />
2310 Seminar (1) Introduction to the industrial engineering<br />
pr<strong>of</strong>ession, its history, and current trends.<br />
Plant trips and lectures by the faculty . Prereq :<br />
Sophomore standing .<br />
2320 Modeling <strong>of</strong> Industrial Processes (3) Introduction<br />
to model building . Techniques <strong>of</strong> developing<br />
models <strong>of</strong> industrial processes, elementary simulation<br />
techniques, and concept <strong>of</strong> optimization. Prereq<br />
: Basic Engr . 1410 .<br />
3330 Computer Applications and Analysis<br />
Methods In Industrial <strong>Engineering</strong> (3) Use <strong>of</strong> digital<br />
computer in problem solving involving matrix operations,<br />
deterministic and stochastic simulations,<br />
large scale data base manipulation, and general optimization<br />
techniques . Prereq : 2320 and Math 1860 .<br />
3410 Textile Industry Systems (3) History, basicoperations,<br />
products, and economics <strong>of</strong> the industry ;<br />
the application <strong>of</strong> industrial engineering techniques.<br />
Prereq : Junior standing and consent <strong>of</strong> instructor<br />
.<br />
3430 Probabilistic Methods in Industrial <strong>Engineering</strong><br />
(3) Combinatorial and probabilistic methods for<br />
industrial engineers . Markov Chains, Tolerancing,<br />
Goodness <strong>of</strong> Fit Tests, and Elementary Reliability .<br />
Prereq : 2320 and Statistics 3460.<br />
3440 Quality Control (3) Application <strong>of</strong> statistical<br />
methods to control quality <strong>of</strong> manufactured parts<br />
and techniques <strong>of</strong> inspection . Prereq : 3430 .<br />
3510 Introduction to Operations Research 1(3) Introduction<br />
to methodology <strong>of</strong> operations research<br />
and the application <strong>of</strong> operations research to industrial<br />
problems . Topics covered include statistical inference,<br />
decision theory, and queuing theory. Prereq<br />
: 3430 and Computer Science 3150 .<br />
3520 Introduction to Operations Research II (3) Introduction<br />
to mathematical programming includes<br />
classical optimization theory, linear programming<br />
(with emphasis on the simplex method, the transportation<br />
problem, and the assignment problem),<br />
and dynamic programming . Prereq : Computer Science<br />
3150 or consent <strong>of</strong> instructor.<br />
3530 Introduction to Operations Research 111 (3)<br />
Introduction to random processes and use <strong>of</strong> probabilistic<br />
methods in replacement and industrial<br />
analysis . Prereq : 3430 and 3510 .<br />
3600 Motion and Time Study (3) Design <strong>of</strong> work<br />
methods, including analysis, improvement, timing<br />
<strong>of</strong> work, and determining standards . Laboratory<br />
work included. For non-industrial engineering students.<br />
Prereq : Junior standing.<br />
3610 Human Factors in Work Design 1(3) Human<br />
capabilities and limitations which must be reflected<br />
in : work place layout ; working environment specifications<br />
; tool,equipment, and vehicledesign ; and<br />
in design <strong>of</strong> industrial communication-control sys-<br />
tems . Prereq : Junior standing in <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
or consent <strong>of</strong> instructor .<br />
3620 Work Methods and Design (3)Job analysis,job<br />
evaluation, design <strong>of</strong> wage structures, design <strong>of</strong><br />
work-place layouts, flow charting, activity chart and<br />
analysis, and methods improvement . Laboratory<br />
work included . Prereq : 2310 and 3610 .<br />
3630 Work Measurement (3) Use <strong>of</strong> work measurement<br />
tools such as time study, predetermined time<br />
systems, work sampling, historical data analysis.<br />
Construction <strong>of</strong> time formulas, development <strong>of</strong><br />
standard time data, use <strong>of</strong> learning curves, and design<br />
<strong>of</strong> wage inventive systems . Laboratory work<br />
included . Prereq : 3620 and Statistics 3450 .<br />
4040 Manufacturing Materials and Processes (3)<br />
Study <strong>of</strong> characteristics <strong>of</strong> various manufacturing<br />
materials and techniques common to industrial<br />
manufacturing processes . Prereq : Engr . Mach .<br />
3310, Met . Engr . 2110 .<br />
4060 Production Systems Planning and Control 1(3)<br />
Theory and application <strong>of</strong> forecasting, capacity and<br />
materials planning, production systems design and<br />
inventory control . Prereq : 3510-20 .<br />
4070 Production Systems Planning and Control II<br />
(3) Theory and application <strong>of</strong> master scheduling,<br />
materials requirements planning systems, lot sizing<br />
and safety stocks, and distribution requirements<br />
planning . Prereq : 4060 .<br />
4060 Forecasting Methods in Industrial <strong>Engineering</strong><br />
(3) Application <strong>of</strong> technological forecasting<br />
techniques to industrial engineering problems. Includes<br />
moving averages and exponential smoothing,<br />
linear and polynomial regression models, autocorrelated<br />
time-series analysis, Delphi methods,<br />
and other selected industrial forecasting methods.<br />
Prereq : 4060 .<br />
4150 ProjectControlwith CPM and PERT(3) A study<br />
<strong>of</strong> project planning and control based primarily on<br />
"critical path" techniques, including resource allocation,<br />
time-cost trade <strong>of</strong>f-algorithms, multi-project<br />
control, and computer programs. Prereq : 3430 .<br />
4160 Materials Handling (3) Analysis and planning<br />
for the overall problem <strong>of</strong> moving, packaging, and<br />
storing <strong>of</strong> materials ; equipment comparison and<br />
selection ; cost analysis . Prereq : 3630, 4520, and<br />
Engr . Mach . 3310.<br />
4170 Automatic Process Control (3) Characteristics<br />
<strong>of</strong> automatic processes and controllers ; elementary<br />
open and closed loop analysis, and applications to<br />
industrial systems . Prereq : Math 2860 and Engr .Sci .<br />
and Mech . 2720 .<br />
4200 Production Facilities Design (4) Design <strong>of</strong><br />
production facilities including materials handling,<br />
plant layout, service areas, inventory control applications,<br />
and operating procedures design . Prereq :<br />
3630, 3510-20, 4060, 4520 .<br />
4230 Scheduling Systems (3) Performance measures<br />
for job shop and flow shop scheduling, including<br />
both static and dynamic conditions, as well as<br />
techniques for generating production schedules.<br />
Deterministic and probabilistic dispatching conditions.<br />
Prereq : 3520.<br />
4250 Work Measurement Applications (3) Application<br />
<strong>of</strong> learning curves, queuing theory, standard<br />
data methods, and incentive systems to the design<br />
<strong>of</strong> industrial work situations . Prereq : 3630 .<br />
4310 Seminar (1) Discussions, lectures, and trips to<br />
unify student's educational experience . Prereq :<br />
Senior standing in industrial engineering .<br />
4520 <strong>Engineering</strong> Economy (3) Methods and problems<br />
in selection or replacement <strong>of</strong> equipment . Decisions<br />
among engineering alternatives involving<br />
capital recovery, economic life <strong>of</strong> equipment, and<br />
rate <strong>of</strong> return on investment .<br />
4530 Case Studies in <strong>Engineering</strong> Economy (3) Extension<br />
<strong>of</strong> basic engineering economy principles to<br />
actual problems faced by competitive firms and regulated<br />
industries . Case studies taken from literature<br />
form basis <strong>of</strong> classroom discussion . Out-<strong>of</strong>-class<br />
assignment involves working with local companies<br />
to evaluate make or buy options, leasing versus cash<br />
purchases, equipment replacement studies, energy<br />
source economies, etc . Prereq : 4520 .<br />
4540 Industrial Development (3) Factors other than
mechanical or chemical which enter into successful<br />
establishment <strong>of</strong> manufacturing enterprise. Cost<br />
and location studies and market analysis to determine<br />
the commercial feasibility <strong>of</strong> new plants or<br />
projects .<br />
4590 Simulation (3) Generation <strong>of</strong> outcome <strong>of</strong> complex<br />
random process by computer . Models <strong>of</strong> complex<br />
systems using available simulation languages .<br />
Simulation as design tool in industrial systems . Prereq<br />
: 3430 and Computer Science 3150.<br />
4600 Predetermined Time Systems(3) Work design<br />
and measurement using a predetermined time system<br />
such as Methods Time Measurement, Basic Motion<br />
Time-Study, or Work Factor. Theory and application<br />
. Prereq : 3630 .<br />
4610 Human Factors In Work Design II (3) Human<br />
capabilities and limitations affecting work place<br />
layouts, working environments, design <strong>of</strong> tools and<br />
equipment, and communications and response in<br />
man-machine systems . Prereq : 3600, 3630, or consent<br />
<strong>of</strong> instructor.<br />
4830 Health Systems <strong>Engineering</strong> (3) Hospital<br />
management systems and means by which they may<br />
be improved through application <strong>of</strong> modern industrial<br />
engineering principles and techniques . Prereq :<br />
3620.<br />
4840 Industrial Plant Problems Analysis (3) Industrial<br />
problems, application <strong>of</strong> industrial engineering,<br />
field assignment in local industry, problem definition,<br />
analysis, and presentation . Prereq : 3630, 3440,<br />
3510, 3520, 4520, 4860 .<br />
4860 Industrial Systems Analysis (3) Matrices and<br />
linear vector spaces for industrial systems models .<br />
Laplace and Z transform techniques and applications.<br />
General system description and modeling .<br />
Applications to industrial processes and systems .<br />
Prereq : 3510, 3520, Math 2860.<br />
4870 Mini-Computer Applications in Industrial <strong>Engineering</strong><br />
(3) Introduction to computer hardware<br />
and man-computer interfaces ; emphasis on small<br />
computers as an element <strong>of</strong> larger system ; applications<br />
and limitations <strong>of</strong> small computers in solving<br />
industrial engineering problems. Prereq : Senior<br />
standing .<br />
4910-20-30 Special Industrial <strong>Engineering</strong> Topics<br />
(3, 3, 3) May be repeated for credit . Prereq : Consent<br />
<strong>of</strong> instructor .<br />
4950 Industrial Safety (3) Development <strong>of</strong> organization<br />
and programs for prevention and control <strong>of</strong><br />
accidents with emphasis on OSHA Rules and Regulations<br />
. Prereq : Senior standing .<br />
GRADUATE<br />
5000 Thesis<br />
5002 Non-Thesis Graduation Completion (3-15)<br />
5110 Work Design (3)<br />
5210 Advanced Work Measurement (3)<br />
5240 Facilities Planning and Design (3)<br />
5250 Advanced Scheduling (3)<br />
5260 Information Systems Design (3)<br />
5280 Production and Inventory Systems (3)<br />
5340 Applied Decision Theory (3)<br />
5380 Statistical Methods in Industrial <strong>Engineering</strong><br />
(3)<br />
5300 Seminar (3)<br />
5420 Reliability <strong>Engineering</strong> (3)<br />
5520 Advanced <strong>Engineering</strong> Economy (3)<br />
5600 Human Factors <strong>Engineering</strong> (3)<br />
5610 Human Factors <strong>Engineering</strong> (3)<br />
$700 Optimization Methods in Industrial <strong>Engineering</strong><br />
(3)<br />
5701 Operations Research Applications (3)<br />
5710 Linear, Quadratic, and Dynamic Programming<br />
(3)<br />
5720 Queuing Models, Inventory, and Simulation<br />
(3)<br />
5730 Game Theory and Random Processes (3)<br />
5810 Theory <strong>of</strong> Industrial Automatic Control (3)<br />
5830 Health Systems <strong>Engineering</strong> II (3)<br />
5840 Air Traffic Control Systems (3)<br />
5850 Dynamic System Simulation (3)<br />
5900 Design Project (1-9)<br />
5910-20-30 Special Topics in Industrial <strong>Engineering</strong><br />
(3, 3, 3)<br />
6400 Probabilistic Methods In <strong>Engineering</strong> Systems<br />
(3)<br />
6520 Operations Research Models in <strong>Engineering</strong><br />
Economy Decisions (3)<br />
6700 Nonlinear Programming (3)<br />
6730 Dynamic Programming (3)<br />
6740 Advanced Topics in Optimization and<br />
Dynamic Systems (3)<br />
6910Advanced Topics in Industrial <strong>Engineering</strong> (3)<br />
Mechanical and<br />
Aerospace <strong>Engineering</strong><br />
Pr<strong>of</strong>essors :<br />
M . W. Milligan (Head), Ph .D. <strong>Tennessee</strong> P.E . ;<br />
J . F . Bailey , Ph .D . Lehigh, P.E . ; G . W. Braun'<br />
(Emeritus), Ph .D . Gottingen ; A. J . Edmondson,<br />
Ph .D . Texas A 8 M, P.E . ; W. Frost', Ph .D.<br />
Washington ; B . H . Goethert' (Emeritus), Ph .D .<br />
Berlin ( ermany) ; K . E . Harwell*, Ph .D. California<br />
Institute <strong>of</strong> Technology ; J . W. Hodgson, Ph .D .<br />
Georgia Institute <strong>of</strong> Technology, P.E . ;<br />
R . W. Holland, M.S . <strong>Tennessee</strong>, P.E . ;<br />
W. S. Johnson, Ph .D . Clemson, P.E. ;<br />
E. G . Keshock, Ph .D . Oklahoma State ;<br />
H . Liston, Jr . (Associate Vice Chancellor for<br />
Academic Affairs), M.E.A . George Washington ;<br />
E . Lumsdainez, Ph .D . New Mexico State ;<br />
R . C . Matthews (Emeritus), B.S . Illinois ;<br />
R . L. Maxwell, M.S . Case, P.E . ; M. K . Newman*<br />
(Emeritus), Ph .D . Columbia, P.E . ; R. L . Reid,<br />
Ph .D. Southern Methodist ; F . Shahrokhi',<br />
Ph .D. Oklahoma ; F . H . Speckhart, Ph .D . Georgia<br />
Institute <strong>of</strong> Technology, P.E . ; W. K. Stair, M.S .<br />
<strong>Tennessee</strong> ; J . M. Tucker (Emeritus), M.S . Illinois ;<br />
H . J . Wilkerson, Ph .D . <strong>Tennessee</strong>, P.E . ;<br />
J . M. Wu', Ph .D. California Institute <strong>of</strong><br />
Technology ; J . C . L . Wu', Ph .D. California<br />
Institute <strong>of</strong> Technology ; R . L . Young', Ph .D .<br />
Northwestern, P.E .<br />
Associate Pr<strong>of</strong>essors :<br />
R . V . Arimilli, Ph .D . VPI S SU ;<br />
S . E . Becker, Ph .D . North Carolina State, P.E . ;<br />
C . W. Brown, M.S . <strong>Tennessee</strong>, P.E . ;<br />
S . N . Chaudhuri', Ph .D. Indian Institute <strong>of</strong><br />
Science ; F. G . Collins, Ph .D . California<br />
(Berkeley) ; J . A . Euler, Ph .D . Purdue ;<br />
T. Feagin', Ph .D . Texas ; R . J . Krane,<br />
Ph .D . Oklahoma ; M. Kurosaka',<br />
Ph .D . California Institute <strong>of</strong> Technology ;<br />
J . R . Maus', Ph .D . North Carolina State ;<br />
T. H . Moulder', Ph .D . <strong>Tennessee</strong> ;<br />
G . V. Smith, Ph .D. Pennsylvania State ;<br />
J . W. White, Ph .D . Stanford .<br />
Assistant Pr<strong>of</strong>essors :<br />
C . D . Nelson, Ph .D . Clemson ; J . R. Missimer,<br />
Ph .D . <strong>Tennessee</strong> ; M. Parang, Ph .D.<br />
Oklahoma ; J . R . Parsons, Jr ., Ph .D .<br />
North Carolina State ; T . C. Powell*,<br />
Ph .D . Kentucky .<br />
Instructor :<br />
W. J . Collie, M.S . Florida .<br />
'Alumni Distinguished Service Pr<strong>of</strong>essor .<br />
20n leave.<br />
'Space Institute, Tullahoma.<br />
BACHELOR OF SCIENCE PROGRAM<br />
Separate, complete curricula are <strong>of</strong>fered in<br />
areospace engineering and mechanical<br />
engineering ; however, the first two years <strong>of</strong><br />
these curricula are identical . During the first<br />
two years, the curricula provide for training<br />
and study in the basic sciences <strong>of</strong> physics,<br />
mathematics, chemistry, and engineering<br />
common tothese fields . The third year <strong>of</strong> both<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong> 15 1<br />
programs continues with the development <strong>of</strong><br />
the particular engineering sciences <strong>of</strong> the<br />
aerospace and mechanical engineering<br />
fields . In the senior year an opportunity is<br />
provided for the student to apply this<br />
fundamental knowledge to mechanical<br />
aerospace engineering problems . Both<br />
curricula are arranged with flexibility in the<br />
upper-division years to permit emphasis on<br />
preparation for graduate study or technical<br />
employment .<br />
Aerospace engineering has scientific<br />
foundations close to those <strong>of</strong> mechanical<br />
engineering . The aerospace engineer,<br />
however, devotes attention particularly to the<br />
research, development, design, testing, and<br />
production <strong>of</strong> aerospace vehicles-aircraft,<br />
spacecraft, missiles ; auxiliary<br />
systems-heating, cooling, guidance,<br />
control ; and propulsion systems-piston<br />
engines, turbo-jets, ramjets, and rockets .<br />
Mechanical engineering has its foundation<br />
in the basic sciences and requires an<br />
understanding <strong>of</strong> such areas <strong>of</strong> applied<br />
science as solid and fluid mechanics,<br />
thermodynamics, heat transfer, structures,<br />
vibrations, mechanical design,<br />
manufacturing processes, and<br />
instrumentation in order to resolve the<br />
complex engineering problems <strong>of</strong> the real<br />
world .<br />
In the mechanical engineering curriculum,<br />
the student, with the aid and approval <strong>of</strong> an<br />
adviser, must select a senior year program <strong>of</strong><br />
mechanical engineering and technical<br />
electives . The following areas <strong>of</strong><br />
concentration are available :<br />
Energy . A study <strong>of</strong> energy conversion<br />
systems and the laws governing energy<br />
transformations . This option includes the<br />
design and analysis <strong>of</strong> conventional and<br />
future power generating systems utilizing<br />
various energy sources . The central courses<br />
are Mech . Engr. 4140-50-60 .<br />
Environment. A study <strong>of</strong> the systems which<br />
control the environment within enclosed<br />
spaces . The program includes the design and<br />
analysis <strong>of</strong> airconditioning, refrigeration, and<br />
heat pump devices encompassing heating,<br />
cooling, ventilation, humidifying, and noise<br />
control . The central courses are Mech . Engr.<br />
4710-20-30 .<br />
Manufacturing. A study <strong>of</strong> manufacturing<br />
methods and production processes common<br />
to mass production industries . The program<br />
includes the selection <strong>of</strong> processes, design <strong>of</strong><br />
tools and fixtures, numerical control, and<br />
analysis and design <strong>of</strong> the total<br />
manufacturing system . The central courses<br />
are Mech . Engr. 4621-22-23-24 with related<br />
courses in metallurgy .<br />
Machine Design .The study and application<br />
<strong>of</strong> the principles <strong>of</strong> mechanics, materials, and<br />
manufacturing processes to the design and<br />
analysis <strong>of</strong> machine elements, machines, and<br />
structures . The central courses are Mech .<br />
Engr . 4660 and 4690 .<br />
Propulsion . The study <strong>of</strong> propulsion<br />
devices for ground vehicles, aircraft, and<br />
spacecraft . The program covers the analysis<br />
and design <strong>of</strong> internal combustion engines,<br />
gas turbines, jet and rocket engines using<br />
conventional and non-conventional fuels.<br />
The central courses are Mech . Engr. 4810and<br />
Aero . Engr . 4250-60 .<br />
Aerospace. The study <strong>of</strong> aircraft and<br />
spacecraft including the mechanics <strong>of</strong> flight<br />
and related systems and propulsion devices .
152 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
The program includes the analysis and design<br />
<strong>of</strong> a variety <strong>of</strong> aerospace vehicles and<br />
systems . The central courses are Aero . Engr .<br />
4240-50-60 .<br />
GRADUATE STUDY PROGRAMS<br />
Graduate programs leading to the degrees<br />
<strong>of</strong> Master <strong>of</strong> Science, Master <strong>of</strong> <strong>Engineering</strong>,<br />
and Doctor <strong>of</strong> Philosophy with specialization<br />
in mechanical engineering or aerospace<br />
engineering are available to graduates <strong>of</strong><br />
recognized undergraduate curricula in<br />
mechanical or aerospace engineering and to<br />
graduates <strong>of</strong> other curricula who satisfy the<br />
necessary prerequisite courses . The general<br />
requirements for advanced degrees are<br />
summarized in the Graduate Catalog .<br />
Mechanical <strong>Engineering</strong> (650)<br />
2040 Introduction to Mechanical <strong>Engineering</strong> (1)<br />
Presentation and discussion <strong>of</strong> topics related to mechanical<br />
engineering . S/NC .<br />
3000 Energy-An Overview (4) Introduction to<br />
available energy resources, recovery, and utilization<br />
; power generation techniques including conservation<br />
schemes ; emphasis on the resourcesenvironment-man<br />
interaction associated with energy<br />
; primarily for non-engineering students .<br />
3040 Seminar (1) Presentation and discussion <strong>of</strong><br />
topics related to mechanical engineering . Prereq :<br />
Junior standing . S/NC .<br />
3110 Applied <strong>Engineering</strong> Thermodynamics (3)<br />
Energy and laws governing energy transformations ;<br />
thermodynamic properties ; applications to engineering<br />
problems . Prereq : Basic Engr . 1330,<br />
Chem . 1130, and Math 1860 ; for non-departmental<br />
engineering students .<br />
3311 <strong>Engineering</strong> Thermodynamcis (3) Energy and<br />
laws governing energy transformations ; thermodynamic<br />
properties . Prereq : Basic Engr . 1330,<br />
Chem . 1130, and Math 1860 .<br />
3321-30 <strong>Engineering</strong> Thermodynamics (2, 3) Properties<br />
<strong>of</strong> gases and gas mixtures ; chemical reactions<br />
; equilibrium ; applications to mechanical<br />
engineering problems . Prereq : 3311 and 3321 respectively<br />
.<br />
3410 Fluid Flow (3) Development <strong>of</strong> continuity,<br />
momentum, andenergy principles for fluid systems ;<br />
applications to mechanical and aerospace engineering<br />
problems . Prereq : Math 2850 ; coreq :<br />
3311 .<br />
3440 Heat Transfer (3) Heat transfer processes, heat<br />
conduction, thermal radiation . Prereq : 3910, Math<br />
2860 ; coreq : 3311 .<br />
3520-30-40 Thermal Sciences (3, 3, 3) Fundamental<br />
principles <strong>of</strong> thermodynamics and transport<br />
phenomena as applied to engineering design . For<br />
non-departmental majors . To be taken in sequence .<br />
Prereq : Math 2850 and Basic Engr . 1330.<br />
3610 Mechanics <strong>of</strong> Machinery-Kinematics (3) Machine<br />
motions, graphical and analytical methods ;<br />
instantaneous centers ; velocities ; accelerations.<br />
Prereq : Graphics 1330 and Engr. Sci . & Mach . 3700 .<br />
3620 Mechanics <strong>of</strong> Machinery-Dynamics (3) Applications<br />
<strong>of</strong> Newton's laws, work, energy, and impact<br />
to machinery . Force analysis <strong>of</strong> mechanisms,<br />
balancing, gyroscopic effects, fly-wheels. Prereq :<br />
3610 .<br />
3630 Mechanics <strong>of</strong> Machinery-Vibrations (3) Free<br />
and forced vibrations <strong>of</strong> single and multiple degree<br />
vibrating systems . Balancing <strong>of</strong> machinery. Prereq :<br />
3620, 3910 .<br />
3650 Introduction to Machine Design (3) Ductilebrittle<br />
behavior <strong>of</strong> materials under static and cyclic<br />
loading . Stress concentration, design factors, and<br />
theories <strong>of</strong> failure . Changes in material behavior in<br />
processing and fabrication . 2 hrs and 1 2-hr lab .<br />
Prereq : Met . Engr . 2110, Engr. Sci & Mach . 3311 .<br />
3660 Manufacturing Processes (3) Selection <strong>of</strong><br />
processesas related to the design <strong>of</strong> machine parts.<br />
Casting, hot and cold forming, metal removal, and<br />
weldments . Manufacturing tolerances and surface<br />
finishes . 2 hrs and one 2-hr lab . Prereq : Met . Engr .<br />
2110 .<br />
3910 <strong>Engineering</strong> Analysis (3) Advanced analysis<br />
techniques for problems <strong>of</strong> aerospace and mechanical<br />
engineering . Emphasis on approximate<br />
methods. Prereq : Computer Science 3150 .<br />
4010 Thesis (3) Problem investigation and report .<br />
Prereq : Senior standing .<br />
4140 Energy Conversion Systems (3) Laws governing<br />
energy transformations and their application to<br />
power plants. Prereq : 3330 ; coreq : 4420 .<br />
4150 Energy Conversion Systems (3) Operating<br />
and design characteristics <strong>of</strong> new technology energy<br />
conversion systems, selected direct conversion<br />
techniques. Prereq : 3330, 4420 .<br />
4160 Energy Conversion Systems (3) Economic<br />
and technical design parameters as applied to<br />
power plants for public utilities or industrial applications<br />
; selected design and layout problems . Prereq :<br />
4140-50 and Ind . Engr . 4520 .<br />
4170 Turbo-Machinery (3) Basic principles <strong>of</strong><br />
turbo-machinery ; systematic methods <strong>of</strong> analysis,<br />
design, performance evaluation . Prereq : Aerospace<br />
Engr . 3511 .<br />
4180 Energy Production and Utilization (3) Thermodynamic<br />
constraints on energy production ;<br />
comparison <strong>of</strong> new energy sources and concepts ;<br />
energy conservation schemes . Prereq : Senior<br />
standing in engineering .<br />
4220 Environmental Noise (3) Basic principles <strong>of</strong><br />
acoustics-measurement and control <strong>of</strong> noise in industrial<br />
and community environments . Prereq :<br />
Senior standing in engineering or consent <strong>of</strong> instructor.<br />
4310 Seminar (1) Discussion <strong>of</strong> topics related to<br />
engineering ; includes inspection trips to industrial<br />
plants. Prereq : Senior standing . S/NC .<br />
4320 Seminar (1) Presentation and discussion <strong>of</strong><br />
topics related to engineering . Prereq : Senior standing<br />
.<br />
4420 Heat Transfer (3) Heat transfer by free and<br />
forced convection, heat transfer in phase change,<br />
heat transfer in high speed flow, heat exchanger<br />
applications . Prereq : 3440; coreq : Aerospace Engr .<br />
3511 .<br />
4450 Lubrication (3) Hydrodynamic theory <strong>of</strong> lubrication<br />
<strong>of</strong> sliding bearings ; application <strong>of</strong> Navier-<br />
Stokes equations to infinite and finite bearings ; analytical<br />
and numerical solutions ; applications to design<br />
. Prereq : 3440, Aerospace Engr . 3511 .<br />
4471-91 Experimental Mechanical <strong>Engineering</strong> (3,<br />
3) Experimental methods and measurements <strong>of</strong><br />
force, length, time, temperature, pressure,transport<br />
rates, and physical properties. Planning, conducting,<br />
analyzing, and reporting experimental tests run<br />
according to test standards and other specifications<br />
. Prereq : 3321, 3410, 3440, Engr. Sci . &<br />
Mach . 3320 for 4471 ; 4471 and 4420 for 4491 .<br />
4510 System Dynamics (4) Analytical models <strong>of</strong><br />
physical systems, linearization, Laplace transforms,<br />
dynamic characteristics and stability <strong>of</strong> systems,<br />
numerical simulations, and analog computer solutions.<br />
Not for departmental graduate credit. Prereq :<br />
3610 or Aerospace Engr . 3620 and Aerospace Engr .<br />
3511 and Elec . Engr. 3110.<br />
4520-30 Creative Design (3, 3) Application <strong>of</strong> engineering<br />
principles to the solution <strong>of</strong> current problems<br />
with emphasis on design innovation . Prereq :<br />
Consent <strong>of</strong> instructor.<br />
4621 Manufacturing Processes (3) Comparison <strong>of</strong><br />
machining methods ; plastic production ; metrology.<br />
Prereq : 3650 and 3660 or consent <strong>of</strong> instructor .<br />
4622 Tool Design (3) Principles underlying tool and<br />
die design, design <strong>of</strong> high-volume production tools<br />
and molds, work holding fixtures. Prereq : 3650-60 or<br />
consent <strong>of</strong> instructor .<br />
4623 Numerical Control Processing (3) Application<br />
<strong>of</strong> data processing to machinetool control . Machine<br />
language and computer utilization . Automatic tool<br />
changing and transfer machines . Prereq : 3660 and<br />
Computer Science 3150 .<br />
4624 Manufacturing <strong>Engineering</strong> Systems Design<br />
(3) Design <strong>of</strong> complete manufacturing system for a<br />
particular product : manufacturing planning, tool<br />
and fixture design, selection <strong>of</strong> manufacturing operations,<br />
redesign <strong>of</strong> product to reduce cost . Prereq :<br />
4621 and Ind . Engr. 4520 ; coreq : Met . Engr . 3710.<br />
4625 Manufacturing Process <strong>Engineering</strong> 1(3)<br />
Product specification : dimensional analysis <strong>of</strong> size<br />
and form ; true position tolerance theory ; tolerance<br />
analysis ; and workplace control for production to<br />
tolerance . Prereq : 3660 or Ind . Engr. 4040 .<br />
4631 Energy Methods In Mechanical Design (3) Application<br />
<strong>of</strong> strain energy principles in complex<br />
beams and structures. Prereq : 3630, 3650, and<br />
Computer Science 3150 or consent <strong>of</strong> instructor .<br />
4632 Application <strong>of</strong> Lagrangian Mechanics in Vibration<br />
Problems (3) Generalized coordinates and<br />
multiple degree <strong>of</strong> freedom vibrating systems . Prereq<br />
: 4631 .<br />
4633 Matrix Analysis (3) Application <strong>of</strong> matrices to<br />
solution <strong>of</strong> complex structures and lumped parameter<br />
vibrating systems . Prereq : 4632 .<br />
4880 Materials and Manufacturing Process (3)<br />
Selection <strong>of</strong> materials in design process, emphasizing<br />
relationship between stress and strain analysis,<br />
material properties, environment, temperature,<br />
manufacturing technology, and cost . Prereq : 3650,<br />
3660.<br />
4670 Machine Elements (3) Application <strong>of</strong> strength<br />
and properties <strong>of</strong> materials, design factors, theories<br />
<strong>of</strong> failure to design <strong>of</strong> machine elements, springs<br />
and shafting, selection <strong>of</strong> sleeve and rolling element<br />
bearings . Prereq : 3620, 3650, Engr . Sci . and Mach .<br />
3320 .<br />
4680 Machine Elements (3) Application <strong>of</strong> strength<br />
and properties <strong>of</strong> materials, design factors, theories<br />
<strong>of</strong> failure to design <strong>of</strong> cams, gearing, brakes, and<br />
clutches ; selection <strong>of</strong> chains and belting . Prereq :<br />
3630, 3650, and Engr. Sci . & Mach . 3320 .<br />
4690 Machine Design (3) Innovative design <strong>of</strong> complete<br />
machine ; documentation including specifications,<br />
design calculations, working drawings,<br />
and cost analysis . Written and oral report . Prereq :<br />
4670-80, and Ind . Engr . 4520.<br />
4710 Thermal Environmental Systems (3) Vapor<br />
compression and absorption cycles ; heat pump systems<br />
; moist air properties ; psychrometric processes<br />
. Prereq : 3330, 3440.<br />
4720 Thermal Environmental Systems (3) Design<br />
analysis <strong>of</strong> air washers, cooling towers and extended<br />
surface coils ; solar radiation ; building heat<br />
transmission ; physiological effects . Prereq : 4420,<br />
4710.<br />
4730 Thermal Environmental Systems (3) Design <strong>of</strong><br />
heating ventilation and air conditioning systems .<br />
Prereq : 4720 and Ind . Engr. 4520.<br />
4740 Solar Energy Utilization (3) Nature and availability<br />
<strong>of</strong> solar radiation ; review <strong>of</strong> selected heat<br />
transfer topics pertinent to solar energy collection<br />
and use ; design analysis <strong>of</strong> solar energy collectors<br />
and method <strong>of</strong> storage ; selected applications . Prereq<br />
: 3321, 4420, or consent <strong>of</strong> instructor .<br />
4810 Internal Combustion Engines (3) Thermochemical<br />
phenomena in internal combustion and<br />
propulsion engines. Combustion, detonation ; equilibrium<br />
; dissociation . Analysis <strong>of</strong> internal combustion<br />
engines using ideal and real fluids . Prereq :<br />
3330, 3440 .<br />
4830 Propulsion Systems (3) Design <strong>of</strong> propulsion<br />
engine and supporting systems . Prereq : 4810 and<br />
Ind . Engr . 4520.<br />
4910-20-30 Selected Topics in Mechanical <strong>Engineering</strong><br />
(3, 3, 3) Problems related to developments<br />
and practice in mechanical engineering . Prereq :<br />
Consent <strong>of</strong> instructor.<br />
GRADUATE<br />
5000 Thesis<br />
5002 Non-Thesis Graduation Completion (3-15)<br />
5110 Conduction Heat Transfer (3)<br />
5120 Convection Heat Transfer (3)<br />
5130 Radiation Heat Transfer (3)<br />
5140 Phase Change Heat Transfer (3)
5210 Classical Thermodynamics (3)<br />
5220 Microscopic Thermodynamics (3)<br />
5230 Special Topics in Thermodynamics (3)<br />
5310 Intermediate Fluid Mechanics (3)<br />
5314 Hydrodynamic Lubrication (3)<br />
5410-20-30 Research in Mechanical <strong>Engineering</strong><br />
(3, 3, 3)<br />
5510-20-30 Mechanical <strong>Engineering</strong> Design (3, 3, 3)<br />
5540-50-60 Advanced Strength <strong>of</strong> Materials(3,3, 3)<br />
5610-20-30 Experimental Stress Analysis (3, 3, 3)<br />
5640-50-60 Advanced Machine Design (3, 3, 3)<br />
5670-80 Dynamics <strong>of</strong> Machinery (3, 3)<br />
5690 Vibrations <strong>of</strong> Mechanical Systems (3)<br />
5710 Metal Machining (3)<br />
5800 Transfer Matrix Methods in Elastomechanics<br />
(3)<br />
5810-20 "30 Rocket Propulsion Systems (3, 3, 3)<br />
5840-50-60 Turbo-Machinery Systems (3, 3, 3)<br />
5870 Dynamic Modeling and Simulation (3)<br />
5900 Selected <strong>Engineering</strong> Problems (3-9)<br />
5950 Seminars (1)<br />
5990 Special Topics In Mechanical <strong>Engineering</strong><br />
(1-3)<br />
6000 Doctoral Research and Dissertation<br />
6110-20 Advanced Topics In Fluid Mechanics and<br />
Heat Transfer (3, 3)<br />
6130-40 Advanced Radiation Heat Transfer (3, 3)<br />
6420-30 Selected Topics in Thermodynamics (3,3)<br />
6610 <strong>Engineering</strong> Vibrations (3)<br />
Aerospace <strong>Engineering</strong> (018)<br />
2040 Introduction to Aerospace <strong>Engineering</strong> (1)<br />
Presentation and discussion <strong>of</strong> topics related to<br />
aerospace engineering . S/NC .<br />
3040 Seminar (1) Presentation and discussion <strong>of</strong><br />
topics related to aerospace engineering . Prereq :<br />
Junior standing . S/NC .<br />
3511 Fluid Flow (4) Continuity, momentum, and energy<br />
theorems . Incompressible and compressible<br />
flow in passages . Viscous losses. Includes weekly<br />
lab . Prereq : Mech . Engr . 3311 and 3410.<br />
3610 Dynamics (3) Newton's Law : work-energy<br />
impluse-momentum, Lagrange equations, central<br />
force, gyroscopic effects. Applications to aerospace<br />
systems. Prereq : Engr . Sci . & Mech . 3700 ; coreq :<br />
Mech . Engr. 3910 .<br />
3620 Mechanical Vibrations (3) Free and forced vibrations<br />
<strong>of</strong> single and multiple degree vibrating systems,<br />
balancing <strong>of</strong> rotating machinery. Prereq : 3610<br />
and Mech . Engr . 3910 .<br />
3630"40 Structural Analysis <strong>of</strong> AerospaceVehicles<br />
(3,3) Fundamentals <strong>of</strong> structural analysis as applied<br />
to configurations <strong>of</strong> aerospace interest. Introduction<br />
to aeroelasticity phenomena. Must be taken in<br />
sequence . Prereq : Engr . Sci . and Mech . 3311 for<br />
3630 ; Engr . Sci . and Mech . 3320 for 3640 .<br />
4010 Thesis (3) Problem investigation and report<br />
Prereq : Senior standing .<br />
4110 Aerodynamic Fundamentals (3) Atmosphere,<br />
dynamics and thermodynamics <strong>of</strong> perfect gases,<br />
fluid flow types, airfoil theory, wing theory, drag . For<br />
non-aerospace engineering majors only. Prereq :<br />
Consent <strong>of</strong> instructor.<br />
4120 Aircraft Propulsion and Performance (3)<br />
Propellers, propulsion systems for aircraft, static<br />
performance and special performance problems,<br />
maneuvers, control surfaces, stability, and control .<br />
For non-aerospace engineering majors only . Prereq<br />
: 4110.<br />
4210 Compressible Flow (3) One-dimensional<br />
internal flow ; shock and expansion waves ; friction<br />
and non-adiabatic flow . Prereq : 3511 and Mech .<br />
Engr. 3321 .<br />
4220 Low Speed Aerodynamics (3) Potential flow<br />
theory ; kinematics and dynamics <strong>of</strong> perfect fluids ;<br />
analysis and design <strong>of</strong> aerodynamic bodies . Prereq :<br />
3511 and Mach . Engr. 3910.<br />
4230 Viscous Flow (3) Boundary layer theory ; laminar<br />
and turbulent flow ; compressibility effects ; numerical<br />
solution methods . Prereq : 3511 and Mach .<br />
Engr . 3910, 4420.<br />
4240 Astronautics (3) Propulsion, trajectories,<br />
guidance, control, andatmospheric reentry<strong>of</strong>space<br />
vehicle systems. Prereq : 3620, Mach . Engr . 3330 .<br />
4250 Propulsion (3) Principles <strong>of</strong> propulsion devices<br />
; turbo-jet, ram-jet, and rocket engines . Prereq :<br />
4210 and Mech . Engr. 3330 .<br />
4260System Design (3) Synthesis <strong>of</strong> aerospace system<br />
. Design report on the system . Prereq : 4250 and<br />
Mech . Engr. 3910 .<br />
4310 Seminar (1) Discussion <strong>of</strong> topics related to<br />
engineering ; includes inspection trips to industrial<br />
plants . Prereq : Senior standing . S/NC.<br />
4320 Seminar (1) Presentation and discussion <strong>of</strong><br />
topics related to engineering . Prereq : Senior standing<br />
.<br />
4471-91 Experimental Aerospace <strong>Engineering</strong> (3,<br />
3) Experimental methods and measurements <strong>of</strong><br />
force, length, time, temperature, pressure,transport<br />
rates, and physical properties . Planning, conducting,<br />
analyzing, and reporting experimental tests run<br />
according to test standards and other specifications<br />
. Prereq : Mech . Engr . 3321, 3410, 3440<br />
and Engr. Sci . & Mech . 3320 for 4471 ; 4471 and<br />
Mech . Engr . 4420 for 4491 .<br />
4510 Airplane Performance (3) Introduction to airfoil<br />
and wing characteristics, drag ; propellers ; static<br />
performance and maneuvers ; theory and design <strong>of</strong><br />
control surfaces ; stability. Prereq : 3511 .<br />
4910 Selected Topics in Aerospace Science (3)<br />
Current problems in aerospace science ; topics in<br />
science and engineering required for an understanding<br />
<strong>of</strong> the several areas <strong>of</strong> aerospace science .<br />
Prereq : Consent <strong>of</strong> instructor.<br />
GRADUATE<br />
5000 Thesis<br />
5002 Non-Thesis Graduation Completion (3-15)<br />
5110 Fundamentals <strong>of</strong> Aerodynamics (3)<br />
5120 Experimental Methods in Fluid Mechanics (3)<br />
5150-60-70 Vehicle Aerodynamics and Performance<br />
(3, 3, 3)<br />
3)10-20 Aerodynamics <strong>of</strong> Compressible Fluids (3,<br />
5240 Dynamics <strong>of</strong> Viscous Fluids (3)<br />
5250 Introduction to Hypersonic Flow (3)<br />
5260 Selected Topics In Aerodynamics (3)<br />
5270-80-90 Aerospace Ground Test Facilities (3, 3,<br />
3)<br />
5310 Magnetchydrodynamics (3)<br />
5340-50 Atmospheric Entry (3)<br />
5440-50 Transonic Flow (3, 3)<br />
5510-2030 Aerospace Mechanics (3, 3, 3)<br />
5)540-50 Aerospace VehicleStability andControl(3,<br />
5560 Vertical or Short Take-Off and Landing Aircraft(3)<br />
5570 Aerospace Vehicle Flutter and Vibration (3)<br />
5580-90 Aeroslasticity (3, 3)<br />
5610 Applied Acoustics (3)<br />
5620 Aeroacoustics 1(3)<br />
5810 Aviation Systems : An Overview (3)<br />
5820 Air Vehicles (3)<br />
5900 Selected <strong>Engineering</strong> Problems (3-9)<br />
5950 Seminars (1)<br />
<strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
5990 Special Topics in Aerospace <strong>Engineering</strong><br />
(1-3)<br />
8000 Doctoral Research and Dissertation<br />
6310-20-30 Magnetohydrodynamics (3, 3, 3)<br />
6410-20 Physical Gasdynamics (3,3)<br />
8510-20-30 Advanced Aerodynamics (3, 3, 3)<br />
6810 Advanced Boundary Layer Theory (3)<br />
6910 Advanced Topics In Gas Dynamics (3)<br />
Nuclear <strong>Engineering</strong><br />
(716)<br />
Pr<strong>of</strong>essors :<br />
P . F . Pasqua (Head), Ph .D . Northwestern, P.E . ;<br />
G. de Saussure', Ph .D . Massachusetts ;<br />
J . B . Fussell, Ph .D . Georgia Institute <strong>of</strong><br />
Technology ; T . W. Kerlin, Jr., Ph .D. <strong>Tennessee</strong> ;<br />
H . G. MacPherson (Emeritus), Ph .D . California<br />
(Berkeley) ; J. T . Mihalezo, Ph .D . <strong>Tennessee</strong> ;<br />
J. E . Mott, Ph .D . Minnesota ; R . B . Perez,<br />
Ph .D . <strong>University</strong> <strong>of</strong> Madrid ; J.C . Robinson,<br />
Ph .D . <strong>Tennessee</strong> ; H . C . Roland, Ph .D .<br />
<strong>Tennessee</strong> ; P.N . Stevens, Ph .D .<br />
Northwestern, P.E . ; J. J . Wagschal',<br />
Ph .D . Hebrew <strong>University</strong> .<br />
Associate Pr<strong>of</strong>essors :<br />
H . L . Dodds, Ph .D . <strong>Tennessee</strong>, P.E . ;<br />
O . L . Smith, Ph .D . Missouri .<br />
Assistant Pr<strong>of</strong>essors :<br />
E . M. Katz, Ph .D. <strong>Tennessee</strong> ; L . F . Miller, Ph .D .<br />
Texas A& M; B . R . Upadhyaya, Ph .D . California<br />
(San Diego) .<br />
'Honorary .<br />
BACHELOR OF SCIENCE PROGRAM<br />
The curriculum in nuclear engineering is<br />
designed to provide basic training in many <strong>of</strong><br />
the fields encountered in the applications <strong>of</strong><br />
nuclear and radioactive materials. The first<br />
two years are concerned with the<br />
fundamental courses in engineering, physics,<br />
mathematics, chemistry, and English . The<br />
last two years encompass scientific and<br />
engineering courses equipping the student<br />
for entry into a variety <strong>of</strong> work in industry,<br />
research, or graduate studies .<br />
MASTER OF SCIENCE AND MASTER<br />
OF ENGINEERING PROGRAMS<br />
A graduate program leading to a degree <strong>of</strong><br />
Master <strong>of</strong> Science and Master <strong>of</strong> <strong>Engineering</strong><br />
is available to graduates <strong>of</strong> recognized<br />
undergraduate curricula in engineering and<br />
physics . Each applicant will be advised as to<br />
the necessary prerequisite courses before<br />
entering the program .<br />
The general requirements <strong>of</strong> the masters'<br />
degrees are summarized in the Graduate<br />
Catalog .<br />
DOCTORAL PROGRAM<br />
A program leading to the Ph .D . degree is<br />
available in nuclear engineering . For details,<br />
see the Graduate Catalog .<br />
2310-20-30 Seminar (1, 1, 1) Presentation and discussion<br />
<strong>of</strong> topics related to nuclear engineering .<br />
S/NC .<br />
3010 Nuclear Reactor Systems (4) Nuclear fuel<br />
cycle-mining through waste disposal, priciples <strong>of</strong><br />
nuclear reactors, radiation effects, treatment <strong>of</strong><br />
radioactive effluents, power plant siting, reactor<br />
safety . Prereq : Physics 2320 .<br />
3030 Introduction to Reactor Analysis (3) Nuclear<br />
reactions and radiations, cross section, fission<br />
process, diffusion and slowing down, steady state<br />
reactor theory criticality condition, reflected reactors<br />
. Prereq : Physics 3720 ; Math 4710 .<br />
3040 Environmental Effects <strong>of</strong> Nuclear Technology<br />
(3) Study <strong>of</strong> effects on environment since advent <strong>of</strong><br />
153
15 4 <strong>College</strong> <strong>of</strong> <strong>Engineering</strong><br />
military and peaceful uses <strong>of</strong> nuclear energy . Prereq<br />
: one year <strong>of</strong> biological or physical science .<br />
3150 Dynamics and Controls (3) Systems differential<br />
equations ; solution by classical methods ; Laplace<br />
transform method ; frequency response, stability,<br />
and control . Coreq : 4110.<br />
3210-20 Thermodynamics (4,4) Properties and laws<br />
<strong>of</strong> .thermodynamic systems . First and second laws<br />
used to analyze power plant systems-both fossil<br />
and fission . Prereq : Math 2860and Basic Engr .1330 .<br />
3730 Momentum Transport (4) Development <strong>of</strong> differential<br />
and integral momentum equations ;<br />
elementary theory <strong>of</strong> turbulence, applications to piping<br />
systems, pumps and nuclear reactors . 3 lecs .<br />
and one lab . Prereq : Math 4710.<br />
4010 Thesis (3) Investigation and report <strong>of</strong> nuclear<br />
engineering problems . Prereq : Senior standing .<br />
4110-20-30 Introduction to Nuclear Reactor Theory<br />
(3, 3, 3) Nuclear structure ; radioactive decay laws ;<br />
neutron interaction ; fission process, chain-reacting<br />
systems ;<br />
diffusion equation including multigroup<br />
diffusion theory, neutron moderation ; reactivity<br />
coefficients ; perturbation theory . Prereq : Physics<br />
3730 or consent <strong>of</strong> instructor .<br />
4140 Thermonuclear Systems (3) Fusion reactions ;<br />
properties <strong>of</strong> plasmas ; plasma containment ; plasma<br />
diagnostics ; thermonuclear devices . Prereq :<br />
Physics 3730 ; Math 4550 .<br />
4210-20-30 Nuclear <strong>Engineering</strong> Laboratory (3, 3, 3)<br />
Radiation detection and counting instrumentation,<br />
counting statistics, half-life and decay schemes,<br />
gammaspectrometry, cross-section measurements,<br />
analog computation, diffusion properties <strong>of</strong> neutrons,<br />
critical loading experiments, control rod calibration,<br />
statistical weight, shielding, xenon poisoning,<br />
prompt critical reactor behavior, fission density,<br />
and adjoint flux . Prereq : 4110 (or registration<br />
therein), or equivalent .<br />
4430 Probabilistic Safety <strong>of</strong> Nuclear Power Systems<br />
(3)Techniques for evaluation <strong>of</strong> nuclear power<br />
system safety and risk from a probabilistic point <strong>of</strong><br />
view. Concepts <strong>of</strong> fault trees, event trees and block<br />
diagram. Qualitative and quantitative techniques .<br />
Prereq : Senior standing in engineering .<br />
4610-20-30 Reactor PowerSystems(3,3, 3) Nuclear<br />
structure, decay laws, neutron diffusion, time behavior<br />
<strong>of</strong> reactors, heat removal, analysis <strong>of</strong> reactor<br />
power plants ; economic, safety, and environmental<br />
aspects <strong>of</strong> nuclear power. Prereq : Math 4610 ; nonnuclear<br />
engineering students only.<br />
4710 Energy Transport(4) Development <strong>of</strong> differential<br />
and integral energy conservation equations ;<br />
conduction, convection, and radiation heat transfer ;<br />
application <strong>of</strong> nuclear reactor fuel elements and<br />
hear exchangers . Prereq : 3730.<br />
4720 Reactor Thermal Design (4) Hydrodynamics<br />
and heat transfer in boiling systems ; boiling crises ;<br />
fuel element thermal design, steam generator design<br />
. Prereq : 4710.<br />
4730 Nuclear Reactor Design (3) First order reactor<br />
design, integration with non-nuclear heat transfer<br />
and power conversion system, economic evaluation<br />
; optimization procedures, description <strong>of</strong> typical<br />
systems. Coreq : 4130<br />
4810 Radiation Shielding (3) Types <strong>of</strong> radiation<br />
sources, gamma ray and neutron attenuation,<br />
biological effects<strong>of</strong> radiation, shield design . Prereq :<br />
Physics 3730, Math 4550 .<br />
4820 Reactor Kinetics and Controls (3) Derivation<br />
<strong>of</strong> kinetic equations ; basic kinetic parameters ;<br />
transient response with feedback ; control and protective<br />
systems . Prereq : 4110 .<br />
4840 Nuclear Reactor Safety (3) Presentation <strong>of</strong><br />
reactor safety concepts and criteria ; credible accidents<br />
; fission product release and transport ; containment<br />
systems ; accident analysis ; engineered<br />
safeguards . Prereq : 4120 .<br />
4930 Nuclear Fuel Management (3) Discussion <strong>of</strong><br />
problems associated with processing <strong>of</strong> nuclear materials<br />
; fuel cycle analysis ; burn-up calculation . Prereq<br />
: 4120 .<br />
GRADUATE<br />
5000 Thesis<br />
5002 Non-Thesis Graduation Completion (3-15)<br />
5110-20-30 Transport Processes in Nuclear <strong>Engineering</strong><br />
(3, 3, 3)<br />
5210 System Dynamics (3)<br />
5220 Reactor System Dynamics (3)<br />
5230 Experimental Methods in Reactor Dynamics<br />
(3)<br />
5240 Reactor Instrumentation (3)<br />
5310-20-30 Nuclear Systems Reliability (3, 3, 3)<br />
5510-20-30 Nuclear Systems (3, 3, 3)<br />
5710-20-30 Nuclear Reactor Theory (3, 3, 3)<br />
5740 Reactor Shielding (3)<br />
5790 Monte Carlo Shield Design Shielding (3)<br />
5840-50 Fast Breeder Reactors (3, 3)<br />
5970 Special Topics In Nuclear <strong>Engineering</strong> (3)<br />
5980 Nuclear <strong>Engineering</strong> Practice (3-12)<br />
6000 Doctoral Research and Dissertation<br />
6110-20-30 Selected Topics in ReactorTheory (3, 3,<br />
3)<br />
6140 Radiation Shielding (3)<br />
6150 Reactor Dynamics (3)<br />
6510 Nuclear Reactor Noise Analysis (3)<br />
6710 Two-Phase Flow and Heat Transfer (3)