College of Engineering - University of Tennessee Digital Library ...

College of Engineering
William K . Stair, Acting Dean
William A . Miller, Associate Dean
The engineer applies mathematical and
scientific knowledge in planning economical
ways of providing materials and energy in
forms that are useful to humankind . !n today's
technology-based society, everyone feels the
effects of the engineer's plans and decisions .
Hence, there is a continuing and urgent need
for engineering graduates who possess a
thorough understanding of mathematical and
scientific principles, who can apply these
principles to the solution of practical
problems, and who can view the solutions in
their overall social perspective so that the
actions that they recommend will be truly
beneficial . It is the purpose of the College of
Engineering to educate men and women to
the high levels of technical competence and
social understanding that will enable them to
fulfill their responsibilities as professional
engineers .
Graduates of the B .S . curricula offered by
the college may enter directly a position in
industry, government, or private practice, or
may pursue advanced study in graduate
school . Their professional activities include
research, development, design, operations,
analysis, construction, production
supervision, and technical sales . Many
practice their profession in Tennessee ; but
engineering knows no geographical bounds,
and graduates of the college serve
throughout the nation and in other countries
as well .
The college had its beginnings early in the
history of the University when surveying was
introduced into the curriculum in 1838 . In
1877 civil engineering was first recognized as
a curriculum . The first mechanical course
appeared in about 1847 ; other mechanical
courses followed, and in 1877 this body of
studies was designated as mechanical
engineering . By 1877 mining had found a
place in the University, but it was later
dropped . Electrical engineering appeared in
about 1896, when a Professor of Physics and
Electrical Engineering was appointed .
Although metallurgy was announced in the
catalog as early as 1888, it was dormant until it
was revived in the Department of Chemical
Engineering shortly after 1940 . A separate
degree in metallurgical engineering was
authorized in 1957 . Although the rudiments of
chemical engineering appeared in the form of
industrial chemistry shortly after 1900, a full
chemical engineering program and a
department were not established until 1936 .
Industrial engineering was introduced in
1940, was dropped for a time during the war
years, and was reinstated in 1947 .
Nuclear engineering was established as a
separate curriculum in 1957 in response to
the rapidly increasing demand for engineers
with a knowledge of nuclear phenomena .
Engineering physics, a program operated
jointly with the physics department, first
appeared as an engineering curriculum
around 1942 . Curricula in aerospace
engineering and engineering mechanics
were added in 1966, and a curriculum in
engineering science was added in 1967 .
The first dean of the college, Professor
Charles E . Ferris, was appointed in 1912 . Prior
to that time the engineering programs were
organized as a school, with a chairman of the
faculty . Other former deans are Nathan W .
Dougherty, who served from 1940 to 1956,
Armour T . Granger, who served from 1956 to
1965, Charles H . Weaver, who served from
1965to 1968, and Fred N . Peebles, who served
from 1968 to 1980 .
The Cooperative Engineering Program was
established in 1926 . The University of
Tennessee was one of the early pioneers in
this valuable type of education, which
originated at the University of Cincinnati in
1905 . A Cooperative Engineering Scholarship
Program was formally established in 1957,
with emphasis on participation bystudents of
superior ability. A conventional cooperative
program, open essentially to all students in
good standing in the college, was
re-established in 1967 .
The Engineering Experiment Station was
established in 1922 .
The college has ten major undergraduate
curricula in which a student may specialize :
124
areospace, chemical, civil, electrical,
industrial, mechanical, metallurgical, nuclear
engineering, engineering physics, and
engineering science .
Agricultural engineering is taught in the
College of Agriculture with facilities located
on the Agricultural Campus . The agricultural
engineering curriculum is offered
cooperatively by the College of Agriculture
and the College of Engineering . Details of the
curriculum may be found in the College of
Agriculture section of this catalog .
Facilities
The College of Engineering is housed in
Ferris, Estabrook, Perkins, Dougherty, and
Berry Halls, and the Nuclear Engineering
Building, all located on the southeastern end
of the campus .
Ferris Hall . This building houses the
offices, laboratories, and shops of the
electrical engineering department and the
Water Resources Laboratory . There is alsoan
auditorium with a seating capacity of about
300 persons, and a remote input/output
terminal connecting with The University of
Tennessee Computing Center .
Estabrook Hall. Some operations of the
Departments of Civil Engineering and
Engineering Science and Mechanics, and of
the Engineering Experiment Station are
carried on in Estabrook Hall .
Perkins Hall . This building houses the
Departments of Civil Engineering,
Engineering Science and Mechanics,
Industrial Engineering, and the Office of the
Dean of the College of Engineering . The
building contains laboratories, drafting
rooms, and a small auditorium with a capacity
of about 80 persons .
Nuclear Engineering Building . This
building houses operations of the nuclear
engineering department and it contains
laboratories and equipment for monitoring,
counting, and investigating various nuclear
phenomena ; it also houses subcritical
reactors .
Nathan W . Dougherty Engineering
Building . This building, the most recent and
largest of the engineering buildings, houses
the Departments of Chemical, Metallurgical,

and Polymer Engineering, and Mechanical
and Aerospace Engineering . In addition to
classrooms and instructional laboratories, it
provides modern facilities forvarious typesof
research .
Berry Hall . This building is used by the
Department of Civil Engineering and the
Engineering Experiment Station .
Tau Beta Pi
National Headquarters
The college is honored to have the National
Headquarters of Tau Beta Pi, the National
Engineering Honor Society, housed on our
campus . This honor was earned in part
through the untiring efforts of R .C . "Red"
Matthews, who served as secretary-treasurer
for the organization from 1905 to 1947 . The
suite of offices, located in Dougherty Hall, is
occupied by Mr . R .H . Nagel,
secretary-treasurer, and his staff .
Chi Epsilon
National Headquarters
The college is also honored to have the
National Headquarters of Chi Epsilon, the
National Civil Engineering Honor Society,
located in Perkins Hall . Chi Epsilon was
founded in 1922 . Dexter C . Jameson, Jr .,
associate professor of civil engineering,
serves as the first executive secretary of Chi
Epsilon .
Cooperative Engineering Program
The five-year Cooperative Engineering
Program is offered to students in the college
in order to provide a superior engineering
education that affords the opportunity to
combine significant experience in industry
with academic preparation .
Cooperative work assignments differ from
part-time or summer employment in that they
involve regularly scheduled cycles of full-time
academic quarters alternated with full-time
work quarters-usually seven, a minimum of
five-in career-related, planned assignments
of progressive complexity and responsibility .
In exposing the student in this manner to the
world of work, the college and the facilities of
industry join together to offer a broader and
richer preparation for postgraduate
employment and for life in general than can
be provided by a conventional academic
program alone . This experience in an
industrial and professional environment
contributes to the student's maturity,
increases the scope of acquaintances and
concepts, and enables the student to define
more clearly educational and career interests
and objectives . Some of the experience
received is at a subprofessional level not
available to an engineer after graduation, yet
is of great significance in total education and
effectiveness .
Admission to the Cooperative Engineering
Program is open to any student in the college
(or in agricultural engineering in the College
of Agriculture) who is in good standing,
whose record indicates capability and
dependability, and who is acceptable to a
co-op employer . In general, work periods
begin at the end of the second or third quarter
of the freshman year and continue for seven
alternating work and school cycles .
Applicants must be able to schedule a
minimum of five such cycles before the
beginning of their senior work in order to
qualify for co-op placement .
Students in the Cooperative Engineering
Program are classified as follows in terms of
quarter hours credit of completed courses :
Freshman 0- 52 .9
Sophomore 53-103 .9
Junior
104-153 .9
Senior 154-up
Academic schedules for co-op students are
shown elsewhere in this section . A brochure
with further details may be obtained from the
Office of the Coordinator, Cooperative
Engineering Program, College of
Engineering .
Binary Program
A binary program in engineering is
available . The college has agreements with a
number of liberal arts colleges to conduct a
five-year program, three years of which will be
given at the liberal arts college and the last
two years at The University of Tennessee in
engineering . At the end of the fifth year, the
college will award a baccalaureate degree in
one of the branches of engineering .
Institutions cooperating with The
University of Tennessee in offering this
Liberal Arts-Engineering 3-2 Binary Plan
include :
Belmont College, Nashville, Tennessee
Bethel College, McKenzie, Tennessee
Carson-Newman College, Jefferson
City, Tennessee
David Lipscomb College, Nashville,
Tennessee
East Tennessee State University,
Johnson City, Tennessee
King College, Bristol, Tennessee
Knoxville College, Knoxville,
Tennessee
Maryville College, Maryville, Tennessee
Middle Tennessee State University,
Murfreesboro, Tennessee
Southwestern University, Memphis,
Tennessee
Tennessee Wesleyan College, Athens,
Tennessee
Union University, Jackson, Tennessee
Questions about courses to be taken in
preparation for transfer to The University of
Tennessee may be directed to the dean of
engineering .
Graduate Program
GENERAL
Graduate programs leading to the degree
of Master of Science are offered in all areas of
study, and the degree of Doctorof Philosophy
is offered in eight major subjects : aerospace
engineering, chemical engineering, electrical
engineering, engineering science,
mechanical engineering, metallurgical
engineering, nuclear engineering, and
polymer engineering . A Master of
Engineering degree focusing on engineering
design and professional practice is offered in
aerospace, civil, electrical, environmental,
industrial, mechanical, and nuclear
engineering . Information concerning
graduate programs is given in the Graduate
Catalog
MASTER OF SCIENCE PROGRAM
IN ENGINEERING ADMINISTRATION
A program leading to the degree of Master
of Science with a major in engineering
administration is offered . This is an
College of Engineering
125
engineering program, directed toward
preparing individuals for line management
positions in construction, design,
development, manufacturing, etc ., where
both technical and non-technical factors
exert significant influence on the success of a
given activity . Policy direction and
administration of the program are provided
by an Engineering Administration
Committee, consisting of representatives
from participating departments in the College
of Engineering and Business Administration,
and a chairman appointed by the dean of
engineering . Further information is provided
in the Graduate Catalog .
Graduate Program
at the UT Space Institute
At The University of Tennessee Space
Institute near Tullahoma, graduate-level
courses are offered in engineering fields such
as aerospace, electrical, and mechanical
engineering, and in mathematics and
physics . Current programs lead to the M .S .
and Ph .D . degrees . Many members of the
faculty of the Space Institute are also
members of the faculty of the college at The
University of Tennessee, Knoxville .
Engineering Experiment Station
William K . Stair, Associate Director
The management of the Engineering
Experiment Station is vested in the president
of the University, the dean of engineering, the
director, and the associate director .
An advisory committee consisting of the
heads of the departments of the college and
the heads of departments in allied scientific
fields may assist in determining policy and
procedures . Members of the faculty of the
college are available for consultation and
advice in technical matters .
The station is organized to conduct
research underlying engineering practice
and to aid in the development of the state's
resources and industries insofar as funds
available will permit. Inquiries from industries
concerning technical questions which
interest them are welcomed .
The station may also make special
arrangements with any person orcompanyto
study any technical question within the
capacity of its resources, and to report the
results exclusively to the company requesting
the study . In such cases, the whole expense
will be carried by the parties requesting the
investigation .
Bulletins are published from time to time
giving the results of various investigations .
Upon request, unpublished results of current
studies are made available to interested
parties .
Curricula in Engineering
NATIONAL ACCREDITATION
Since 1936 engineering programs at
institutions of higher learning have been
accredited by the Engineers Council for
Professional Development (ECPD), an
organization formed by many engineering
societies . The accrediting organization is
now known as the Accreditation Board for
Engineering and Technology (ABET) .
Currently accredited engineering curricula at
UTK include aerospace, agricultural,
chemical, civil, electrical, engineering

12 6 College of Engineering
science, industrial, mechanical,
metallurgical, and nuclear . The advanced
professional programs are also accredited in
civil, electrical, environmental, mechanical,
and nuclear engineering .
COURSE LOAD
The maximum number of hours which can
betaken by an undergraduate without special
permission is 19 hours . The dean of
engineering must give permission to take 20
hours or more .
DROP DEADLINE
All students (whether engineering majors
or not) enrolled in undergraduate coures
taught within the College of Engineering may,
on their own initiative, withdraw from a
course within six calendar days from the first
day of class (through the day preceding the
add deadline for the campus) . Withdrawal
from any such course for any reason after the
sixth day must be in accord with official late
drop procedures (see page 25) .
GPA COMPUTATION
All grades are to be counted in computing
the grade point average, except up to 12
hours of repeatable grades for which the last
grade shall count (see page 16) . This
computation is applied to all coures taken by
an undergraduate engineering student,
regardless of the courses involved or where
they were taken . The policy applies to all
engineering students entering higher
education after September 1, 1979 .
GENERAL REQUIREMENTS
NOTE : Students are advised to consult the
University's degree requirements as stated in
the front section of this catalog as well as
departmental requirements.
Inspection Trip. Each candidate for
graduation majoring in aerospace,
mechanical, chemical, or metallurgical
engineering must participate in inspection
trips scheduled by the major department .
Transfer Credit. Everyattempt will be made
to give maximum credit for courses taken
elsewhere and transferred to the college .
Discussions concerning the evaluation of
transfer credits should be conducted with the
head of the department into which the
student proposes to transfer following the
evaluation of transfer credits by the
Admissions Office .
Program for Second B .S. Degree . Upon
approval by the dean of engineering and the
Committee on Degrees of a program of study
recommended by the major engineering
department, a student who already holds a
bachelor's degree may obtain the appropriate
first degree in engineering upon completion
of a minimum of 45 quarter hours' credit . The
prevailing University regulations shall apply
(see page 27) .
Satisfactory/No Credit Courses . An
undergraduate engineering student may
count toward a degree up to 12 quarter hours
obtained by Satisfactory/No Credit (S/NC)
grading . Such courses must be used for
humanistic-social (non-technical) elective
credit in engineering . Engineering courses
carrying only S/NC grading do not count in
this limit .
Correspondence Courses . A student
should check with his or her major
department to see what restrictions there are,
if any, on the use of correspondence course
credit to meet the minimum degree
requirements . Approval of department head
or adviser and Dean is required to register.
Humanities and Social Studies Electives.
The college assumes an obligation to include
in each of the engineering curricula a means
whereby students gain greater insight into
their interaction with society, both personally
and professionally . Forthis purpose, a part of
each engineering curriculum is devoted to
humanities and social studies electives .
Broadly stated, these electives serve a
three-fold need : to provide an expanded
sensitivity to the human aspects of the
practice of engineering ; to enrich the
student's knowledge of the world in which he
or she lives-its culture, behavior patterns,
history, and governance ; and to provide a
basis for the appreciation of and the ability to
deal with complex interactions between
technology and society in the contemporary
world . Engineers are now working with new
constraints that demand a consciousness of
the social and political implications of their
work . They are interacting with the public in
explaining their work as the public demands
greater participation in the decision-making
process concerning the utilization of
technology . Because of the significance of
this technology-society interaction,
engineering students are encouraged to
seriously consider their selection of required
electives in this area .
Students are urged to plan a non-technical
electives program which will enhance their
own interests and objectives . It is recognized
that, just as engineers show individual
preference for concentration in one of the
areas of engineering, they differ in their
interests in the many areas of the humanities
and social sciences . However, these subjects
should be pursued with sufficient depth in
terms of courses to permit a reasonable level
of comprehension of the selected areas . In
order to increase the effectiveness of this
interest and to meet ABET accreditation
guidelines, the Humanities and Social
Studies Electives Committee of the college
provides a list ofapproved courses in the form
of 13 coherent groups of courses identified in
three broad areas as shown in the list .
Courses in the list which follows are
selected by the committee with revisions as
course offerings and needs change . They are
recommended as satisfying the non-technical
(humanistic-social) electives requirement in
the various curricula of the college . However,
the structure and permissible courses of the
non-technical elective content of each
engineering curriculum are established by
the respective departments . Therefore,
individual departments may delete courses
from this list, require certain courses, or
require selection of courses from specific
subgroups . Students should consult their
departments for any restrictions .
It is recognized that individual students
may desire to take courses not on the
approved list . Those students should discuss
their interests and desires with their
academic adviser prior to registering for
elective courses if such courses are to be
used to satisfy degree requirements . Also the
catalog may state prerequisites for
upper-division courses in the list . In such
cases, students are encouraged to consult
the instructor in the particular course . With
respect to student records, deviations from
this list are handled by means of a
substitution sheet which originates with the
adviser .
In determining whether a course not on the
list can be approved, comments from our
accrediting agency are appropriate :
Subjects such as accounting, industrial
management, finance, personnel
administration, and ROTC studies . . .
normally do not fulfill the objectives desired
of the humanities and social science content .
In any course it is the subject matter to be
evaluated rather than the teacher or the
department offering the course . Skills
courses are acceptable only if a substantial
amount of material relating to cultural values
is involved as contrasted to routine exercises
to enhance the student's performance.
ELECTIVE OPTIONS
IN HUMANITIES AND SOCIAL STUDIES
Area I . Human, Economic, and Political
Relationships to Engineering
IA . Governance and Political Science
Economics 3340
Geography 3610
History 3795, 4310-20-30, 4370,
4380
Political Science 2510-20, 3545-46,
3555, 3566, 3710-20, 3750-60, 3801-
02-03-04, 3880, 4060, 4535-36,
4540-50, 4545-46, 4665-66
Sociology 3030, 4530, 4560
IB . Economics
Economics 2110-20-30, 3110-11-12,
3120, 3210-11, 3220, 3240,
3310, 3410-20, 4110
Geography 2110-20-30, 3410
Geology 2310
IC . Sociology and Psychology
Geography 3000, 3600, 3660
Psychology 2500, 3120, 3220,
4650-60,4900
Rural Sociology 3420
Sociology 1510-20, 3030, 3150,
3320, 3410, 3610, 3620, 4330, 4560
ID . Human Values
Geography 3000
History 3060-70-80, 3270
Philosophy 2310, 3111-21-31-
41-51, 3440, 3690
Religious Studies 2610, 3550, 3600-
10-20, 3611, 3740
Zoology 3410
Area II . Society-its Culture, History, and
Literature
IIA. Fine Arts (Note : No more than 8 quarter
hours may be taken in the performing
arts-voice, instrumentation, band,
chorus, etc .)
Art 1815-25, 3715-16, 3725-26,
3750,3765-66
English 2660, 3411-12-20-30-40
Music 1210-20-30, 1340, 2310-20-
30-40, 3350, 4210, 4230,
4241, 4261-71
Philosophy 2410, 3910
Theatre 3252-53-54
IIB . Culture
American Studies 3010
Anthropology 3410
Black Studies 2010-20, 3550-60, 4830
English 2640-50, 3310, 4721-31-41
French 2610-20
Geography 3430, 3450, 3660,
3910-20-30-40
History 1950-60, 2350, 3670, 3680,
4290, 4640-50-60

Italian 2610-20
Music 1210-20-30, 1340, 2310-20-
30-40, 3350
Philosophy 1510-20, 3311-12, 3720
Political Science 3801-02-03-04
Religious Studies 3510-20, 3560
Spanish 2610-20
Speech 4911-21
Theatre 3262-63
IIC . History
Art 3735-36, 3745-46
Geography 4240
History 2510-20, 2511-21, 2515-25,
3140-50-60, 3311-21, 3411-12-13,
3421-22-23,3431-32-33,3610-20,
3630-40-50,3751-52,3760-70-80-90,
3810-20-30, 3870-80-90, 4120-30,
4250-60-70,4280,4380
Religious Studies 2611, 3121-31
IID . Literature
Classics 2710-20, 3210-20-30
Comparative Literature 2010
English 2510-20-30-40, 2560-70-80,
1690,3010-20-30,3070-80,
3160-70, 3940, 4010-20,
4050-60-70, 4310-20-30-40, 4610-
20-30,4651-52
German 3110-20-30
Psychology 4880
Religious Studies 3710-11
Russian 3610-20-30
IIE . Anthropology
Anthropology 2510-20-30,3410,
3450, 3710, 4420
Asian Studies 2510-20
Geography 1910, 3660
History 1950-60, 3740, 4250-60-70,
4640-50-60,4670
Area Ill . Technology and Society
IIIA . Human Habitat
Botany 3090
Economics 3230
Geography 3520-30, 3600, 3910, 4075
Political Science 4940
Psychology 4900
Sociology 1510-20, 3130, 3410-20,
3610, 4030, 4110, 4330
IIIB . Technology Assessment
Geography 3490, 4075
Geology 2310
Philosophy 3720, 4710
Psychology 4900
Rural Sociology 4450
Sociology 3610, 4330
University Studies 2010, 4100
IIIC . Communication
Journalism 3110, 3710-20, 4410
Philosophy 2510-20
Speech 2311, 2331, 3011, 3021
IIID . Resources
Economics 4260
Forestry 3730
Geography 2110-20-30, 3490
Geology 2310
University Studies 2010, 4110
American History Requirement .
Engineering students, regardless of
national origin, graduating in August 1978 or
thereafter, must fulfill the American history
requirement described on page of this
catalog . Those students who have not had the
required year of American history in high
school may choose the required nine quarter
hours from History 2510, 2520, 2511, and
2521, or other courses deemed suitable by the
Department of History . These hours can be
counted as part of the required block of
humanities and social studies electives .
Technical Electives . Technical electives
are to be selected with the advice and
approval of the student's major department.
In some of the curricula tabulations a choice
of such electives is indicated, and regulations
in regard to their selection are stated .
The Voluntary ROTC Program .
Engineering students may participate in the
ROTC program . Advanced ROTC courses
(3000 and 4000 series) may be counted as
technical elective credit toward an
engineering degree up to a total of nine (9)
quarter hours . No ROTC course can be used
as a humanistic-social elective . Individual
departments determine the appropriate
substitutions .
Approval of Electives and Substitutions .
Not later than the beginning of the third
College of Engineering 127
quarter prior to anticipated graduation, each
student shall discuss wtih an adviser the
status of the program of study . Any necessary
additions to or substitutions in the program,
or electives requiring special approval, shall
be cleared in written form at that time, and it
is each student's responsibility to see that all
necessary approvals are secured .
CURRICULA, TABULAR VIEW
Following are the course requirements for
the various engineering curricula . The
numbers in the columns indicate the number
of quarter hours of credit for each course.
Columns represent the three principal
quarters of the academic year-fall, winter,
and spring . This is not a schedule, and
courses are given in quarters other than those
indicated here . This listing is a guide, not a
rigid schedule . Individual course
prerequisites should be strictly adhered to,
even if all courses are not taken as indicated .
Although the requirements for each degree
can be completed in fouracademic years (five
for the cooperative program), the quality of
the learning experience is much more
important than the speed with which the
curricula is completed .
Humanities-social studies electives are the
same as non-technical electives in these
tabulations . Questions about individual
courses should be directed to the department
responsible forthe course ; questions abouta
particular curricula should be directed to the
major department .
Aerospace Engineering
Hours Credit
Freshman 1 11 Ill
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . 3 3 -
Basic Engineering 1310-20-30 . . . . . . . . . 4 4 4
Basic Engineering 1410 . . . . . . . . . . . . . . . - - 2
Sophomore
Aero . Engr. 2040 . . . . . . . . . . . . . . . . . . . . . 1 - -
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3
Eng . Sci . & Mach . 3311, 3700 . . . . . . . . . . - 4 4
Met . Engr . 2110 . . . . . . . . . . . . . . . . . . . . . . - 3 -
Speech 2361 . . . . . . . . . . . . . . . . . . . . . . . . . 4 - -
Computer Science 3150 . . . . . . . . . . . . . . . - - 3
'Humanities/social studies electives . . . -
Before entering the third quarter of the
junior year, the student, with the aid and
approval of the adviser, must select a
program of technical electives .
Junior
Aero . Engr.3040 . . . . . . . . . . . . . . . . . ., . . - 1 -
Aero . Engr.3511 . . . . . . . . . . . . . . . . . . . . . - - 4
Aero . Engr.3610-20 . . . . . . . . . . . . . . . . . . . 3 3 -
Aero . Engr. 3630-40 . . . . . . . . . . . . . . . . . . . - 3 3
Elec . Engr . 3110-20-30 . . . . . . . . . . . . . . . . 3 3 3
Engr . Sci . & Mach . 3320 . . . . . . . . . . . . . . 3 - -
Mech . Engr. 3311, 3321-30 . . . . . . . . . . . . 3 2 3
Mach . Engr. 3410 . . . . . . . . . . . . . . . . . . . . . - 3 -
Mech . Engr. 3440, 4420 . . . . . . . . . . . . . . . - 3 3
Mach . Engr . 3910 . . . . . . . . . . . . . . . . . . . . . 3 - -
'Humanities/social studies electives . . . " - -

128
College of Engineering
.
. . . . . . . .
. . .
.
. . . .
.
. . . . .
Senior
Aero . Engr.4210-50-60 . . . . . . . . . . . . . . . . 3
Aero . Engr. 4220, 4510, 4230 . . . . . . . . . 3
Aero Engr .4471-91 . . . . . . . . . . . . 3
Aero Engr .4310-20 . . . . . . . . . . . . . . . . . 1
Mech . Engr . 4510 . . . . . . . . . . . . . . . . . . . . 4
2Technical electives . . . . . . . . . . . . . . 3
'Humanities/social studies electives . . -
Industrial Engr 4520 . . . . . . . . . . . . . . -
3
3
3
1
3
3
3
6
"Humanities/social studies electives : minimum of 19 hours
required .
zTechnical electives ; upper-division courses in engineering,
mathematics, or physical science as approved by the
department .
Agricultural Engineering
(See College of Agriculture Section .)
Biomedical Engineering
TOTAL : 203 hours
Available in Engineering Science Degree
Program.
Hours Credit
Freshman 1 11 111
See Basic Curriculum,
Engineering Science . . . . . . . . . . . . . . . . 18 18 17
Sophomore
Mathematics 2840-50-60 . . . . . . . . . . . . . . 4 4 4
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3
'Biology 1210-20 and 3120 . . . . . . . . . . . . 4 4 4
Engr . Sci . & Mech . 3410, 3700, 3110 . . . 4 4 3
2Humanities/social studies electives . . . 4 4 4
. . . .
. . .
. . .
. . .
. .
. . .
. . . .
Junior
'Chemistry 3211-21-31, 3219-29-39 . . . . . 4 4 4
Elec . Engr . 3110-20 . . . . . . . . . . . . . . . 3
Chemet . Engr . 2010-30 . . . . . . . . . . . . . 4
Engr Sci . & Mach 3311 . . . . . . . . . . . . . 4
Computer Science 3150 . . . . . . . . . . . . -
Mech . Engr . 3440 or 3540 . . . . . . . . . . . -
Mathematics elective . . . . . . . . . . . . . . -
Engr . Sci & Mech . 3120 or 3320 . . . . -
ZHumanities/social studies elective
3
3
3
3
4
3
4
. . .
. .
. . .
. .
. . .
Senior
Engr.Sci & Mech . 4810, 4620 . . . . . . . 4 4
Engr. Sci . & Mach . 4010 . . . . . . . . . . . .
'Zoology 3080 or 3050 . . . . . . . . . . . . .
-
-
4
5
3Engr . sci . electives
(including bio med . engr. elec .) . . . .
4Technical elective . . . . . . . . . . . . . . . .
ZHumanities/social studies electives
4
6
3
_
6
8
Chemical Engineering
TOTAL : 199 hours
'Required for pre-medical, pre-dental, and pre-veterinary
medicine programs.
2Humanities/social studies courses approved by the
department .
3 Appropriate courses in the College of Engineeringapproved
by the department .
4Courses in mathematics, statistics, natural science, or
engineering approved by the department .
. . .
.
. . .
. .
. .
Hours Credit
Freshman
/ I/ 111
Math 1840-50-60 . . . . . . . . . . . . . . . . . . .
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . .
English 1010 or 1011 ; 1020 ; 1033 . . . . .
4
4
3
4
4
3
4
4
3
Graphics 1410-20 . . . . . . . . . . . . . . . . . . 3
Basic Engineering 1310-20-30 . . . . . . . 4
Basic Engineering 1410 . . . . . . . . . . . . . -
-
4
2
3
4
-
. . .
. . . .
.
. . . . . .
. .
. . . .
. .
.
'Chem . Engr. 3010 . . . . . . . . . . . . . . . . . -
Chem . Engr . 4110, 3610 . . . . . . . . . . . . -
Chem. Engr . 3040, 3050 . . . . . . . . . . . . . . . 4
Chemistry 3211-19, 3221-29 . . . . . . . . . . . 4
3
4
4
1
3
Sophomore
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4
Physics 2310-20-30 . . . . . .
3
Elec . Engr . 2010-20-30 . . . . . . . . . . . . . . . 3
4
3
3
4
3
3
Math 3150 . . . . . . . . . . . . . . . . . . . . . . . . 3
Elec Engr . 3110 and
either 3120 or 3130 . . . . . . . . . . . . . . . . -
Met . Engr . 3150 . . . . . . . . . . . . . . . . . . . . -
2Humanities/social studies electives
3
-
4
3
3
4
Met . Engr 2110 . . . . . . . . . . . . . . . . . . . .
Engr Sci . & Mech . 3710 or
Met . Engr. 3130 . . . . . . . . . . . . . . . . .
Humanities/social studies electives . . . .
Engr Sci . & Mech . 2720 . . . . . . . . . . . . . .
3
-
4
-
-
-
4
3
-
3
4
-
Senior
Junior
Chem . Engr. 3620, 4220 . . . . . . . . . . . . . . . 3 3 Elec . Engr .3810-20-30 . . . . . . . . . . . . . . . . 3 3 3
Chem . Engr. 4410-20 . . . . . . . . . . . . . . . . . - 3 3 Elec . Engr . 3040-50-60 . . . . . . . . . . . . . . . . 3 3 3
Chem . Engr. 3450, 4530 . . . . . . . . . . . . . . . 3 3 Elec . Engr . 3010, 3720, 3100 . . . . . . . . . . 3 3 3
Chemet . Engr . 4310-20 . . . . . . . . . . . . . . . . 1 1 Elec . Engr . 3190, 3180 . . . . . . . . . . . . . . . . 3 3 -
Met. Engr. 3520 . . . . . . . . . . . . . . . . . . . . . . - 3 Mech . Engr. 3520-30-40 . . . . . . . . . . . . . . . 3 3 3
Chemistry 3430, 4110 . . . . . . . . . . . . . . . . . 3 3 Elec . Engr.3080-90 . . . . . . . . . . . . . . . . . . . - 3 3
3 3 'Math 3150 . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - _
Major electives . . . . . . . . . . . . . . . . . . . . . . . -
Technical electives . . . . . . . . . . . . . . . . . . . 3
ZHumanities/social studies electives . . . 4
'Not required in the cooperative program .
2A minimum of one-half (12 quarter hours) of the
humanities/social studies electives must be taken from a
single group under oneof the three areas of the humanities
and social studies electives.
Civil Engineering
TOTAL : 201 hours
. .
. . .
;
.
.
.
Hours Credit
Freshman
1 11 ll/
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . 4 4 4
Chemistry 1110-20-30 . . . . . . . . . . . . . . 4 4 4
English 1010 or 1011 1020 ; 1033 . . . . . . 3 3 3
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . 3 3 -
Basic Engineering 1310-20-30 . . . . . . . . 4 4 4
Basic Engineering 1410 . . . . . . . . . . . . . . - - 2
Sophomore
Civil Engr . 2260, 2360 . . . . . . . . . . . . . . . . . 4
Civil Engr . 2310 . . . . . . . . . . . . . . . . . . . . . . -
Civil Engr. 3210 . . . . . . . . . . . . . . . . . . . . . . -
Engr . Sci . & Mach . 3311, 2720, 3110 . . . 4
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4
'Non-tech . electives . . . . . . . . . . . . . . . . . . -
Physics 2310-20 . . . . . . . . . . . . . . . . . . . . . . 3
Geology 2610 . . . . . . . . . . . . . . . . . ., . . . . . . 3
Junior
Civil Engr . 3310, 4220 . . . . . . . . . . . . . . . . . 3
Civil Engr . 3600, 3610 . . . . . . . . . . . . . . . . . 3
Civil Engr . 3710, 4110 . . . . . . . . . . . . . . . . . 3
Computer Science 3150 . . . . . . . . . . . . . . . -
Elec . Engr . 3110 . . . . . . . . . . . . . . . . . . . . . . -
Envr . Engr . 4510, 4520 . . . . . . . . . . . . . . . . 3
Envr. Engr . 3120, 3330 . . . . . . . . . . . . . . . . 3
4Mech . Engr . 3520 . . . . . . . . . . . . . . . . . . . . -
Civil Engr. 4430, 4800 . . . . . . . . . . . . . . . . . -
Civil Engr. 3320, 4410 . . . . . . . . . . . . . . . . . 1
Senior
Civil Engr. 4320, 4330 . . . . . . . . . . . . . . . . .
2Math/science elective . . . . . . . . . . . . . . . . -
Non-tech . electives . . . . . . . . . . . . . . . . . . . 4
3Technical electives . . . . . . . . . . . . . . . . . . 9
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . 3
'Humanities/social science courses approved by the
department.
MMath/science courses approved by the department .
3Technical electives must be approved by the student's
adviser and the primary and one of the two secondary areas
of study must come from the departmental list of approved
courses for 15 credit and 6 credits respectively.
4Mechanical Engineering 3311 may be substituted.
1
3
3
4
4
3
3
3
3
3 3
3
1
3
4
9
3
4
3
3
4
4
3
3
3
3 3
1
7
9
TOTAL : 202 hours
`Students entering the Computer Engineering Senior Year
Option must successfully complete Computer Science 3150
rather than Math 3150.
During the third quarter of the junior year
the student, in consultation with the adviser,
should choose one of the following areas of
interest . Courses marked with footnote 1 may
be replaced by othercourses approved bythe
student's area adviser .
Notice that any given senior course is
offered only once every third quarter
including the summer quarter .
SENIOR YEAR-AREAS OF INTEREST
Electromagnetic Fields and
Communications
Elec . Engr .4540 . . . . . . . . . . . . . . . . . . . . . . - - 3
Elec . Engr . 4680-90 . . . . . . . . . . . . . . . . . . . 3 3 -
Elec . Engr .4100 . . . . . . . . . . . . . . . . . . . . . . - - 3
Elec . Engr .4570 . . . . . . . . . . . . . . . . . . . . . . 3 - -
Elec . Engr . 4080 . . . . . . . . . . . . . . . . . . . . . . - 3 -
Elec . engr. electives . . . . . . . . . . . . . . . . . . 3 3 3
Elec . engr. or math electives . . . . . . . . . . 3 3 -
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . - - 3
Humanities/social studies electives . . . . 4 4 4
TOTAL : 203 hours
Energy Conversion and
Power Systems
Elec . Engr .4410-20-30 . . . . . . . . . . . . . . . . 3
Elec . Engr . 4370 . . . . . . . . . . . . . . . . . . . . . . 3
'Elec . Engr .4790 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr .4610 . . . . . . . . . . . . . . . . . . . . . 3
Elec . Engr.4780 . . . . . . . ., . . . . . . . . . . . . . -
'Elec . Engr .4690 . . . . . . . . . . . . . . . . . . . . . -
'Nuclear Engr. 4610 . . . . . . . . . . . . . . . . . . -
'Elec . Engr .4020 . . . . . . . . . . . . . . . . . . . . . 3
'Elec . Engr .4810 . . . . . . . . . . . . . . . . . . . . . -
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -
Humanities/social studies electives . . . . 4
Plasma and Electro-
Optics Engineering
2Elec . Engr . 4460, 4470, 4480 . . . . . . . . . . 3
2Elec . Engr . 4020, 4490, 4500 . . . . . . . . . . 3
Elec . engr. tech . elective s . . . . . . . . . . . . . 3
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -
Elec . engr . tech . elective s . . . . . . . . . . . . . 3
Tech . elective . . . . . . . . . . . . . . . . . . . . . . . . -
Humanities/social studies electives . . . . 4
3
3 3
3
4
3
3
Systems and Networks
Elec . Engr . 4810 . . . . . . . . . . . . . . . . . . . . . . 3 -
Elec. Engr .4630 . . . . . . . . . . . . . . . . . . . . . . - 3
Elec . Engr .4350 . . . . . . . . . . . . . . . . . . . . . . - -
Elec . engr . tech . elective s . . . . . . . . . . . . . 3 3
Elec . engr . tech . elective s . . . . . . . . . . . . . 3 - 3
3
3
4
3
3
3
3
4
TOTAL : 203 hours
3
3
3
3
4
TOTAL : 203 hours
Sophomore Elec . engr . tech . electives . . . . . . . . . . . . . 3 3
Chemet . Engr . 2010-20-30 . . . . . . . . . . . . . 4 4 4 Electrical Engineering Economics 2110 . . . . . . . . . . . . . . . . . . . . . . - - 3
Chemet . Engr. 2011 . . . . . . . . . . . . . . . . . . . 0 - Humanities/social studies electives . . . . 4 4 4
Chem . Engr. 3410 . . . . . . . . . . . . . . . . . . . . - - 4 Hours Credit
Chemistry 2140-49 . . . . . . . . . . . . . . . . . . . . 4 - Freshman / // /// TOTAL : 203 hours
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4 Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
Engr . Sci . & Mech . 2720 . . . . . . . . . . . . . . - 3 Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4 Computer Engineering
'Humanities/social studies electives . . . 4 4 English 1010 or 1011 ; 1020 ; 1033 . . . . . . 4 4 4 'Elec . Engr.4600 . . . . . . . . . . . . . . . . . . . . . 3 -
Physics 2310-20 . . . . . . . . . . . . . . . . . . . . . . - 3 3 Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . - 3 3 'Elec . Engr.4740 . . . . . . . . . . . . . . . . . . . . . - 3
Basic Engineering 1310-30-20 . . . . . . . . . 4 4 4 Elec . Engr. 4700 . . . . . . . . . . . . . . . . . . . . . . - - 3
Junior Basic Engineering 1410 . . . . . . . . . . . . . . . 2 - - Elec . Engr.4610 . . . . . . . . . . . . . . . . . . . . . . 3 -
Chem . Engr . 3420-40 . . . . . . . . . . . . . . . . . 4 - 3 Elec . Engr.4630 . . . . . . . . . . . . . . . . . . . . . . - 3
3
3
3

Elec . Engr .4620 . . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr .4800 . . . . . . . . . . . . . . . . . . . . . 3
'Elec . Engr .4820 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr .4830 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr. 4850 or 4750 . . . . . . . . . . . . . 3
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -
Elec . Engr .4100 . . . . . . . ., . . . . . . . . . . . . . -
Non-tech . electives . . . . . . . . . . . . . . . . . . . 4
TOTAL : 203 hours
Electronics and Instrumentation
Elec . Engr . 4680-90, 4600 . . . . . . . . . . . . . 3
Elec . Engr .4370 . . . . . . . . . . . . . . . . . . . . . . 3
Elec . Engr .4700 . . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr . 4100 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr . 4800 . . . . . . . . . . . . . . . . . . . . . 3
Elec . Engr . 4740 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr . 4610 . . . . . . . . . . . . . . . . . . . . . -
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . 3
'Eiec . Engr.4850 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr.4350 . . . . . . . . . . . . . . . . . . . . . -
Non-tech . electives . . . . . . . . . . . . . . . . . . . 4
Bioslectric Option
Biology 1210-20-30 . . . . . . . . . . . . . . . . . . . 4
Chemistry 2230 . . . . . . . . . . . . . . . . . . . . . . . 4
Elec . Engr . 4660 . . . . . . . . . . . . . . . . . . . . . . -
Zoology 3080-3089 . . . . . . . . . . . . . . . . . . . -
Elec . Engr .4850 . . . . . . . . . . . . . . . . . . . . . . 3
'Elec . Engr.4600 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr.4800 . . . . . . . . . . . . . . . . . . . . . -
'Elec . Engr.4370 . . . . . . . . . . . . . . . . . . . . . 3
'Elec . Engr.4820 . . . . . . . . . . . . . . . . . . . . . -
Humanities/social studies electives . . . . 4
Engineering Physics
Freshman 1
Mathematics 1840-50-6Q . . . . . . . . . . . . . . 4
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3
'Non-technical elective . . . . . . . . . . . . . . . -
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . 3
2Physics 1310-20-30 . . . . . . . . . . . . . . . . . . 4
Sophomore
Mathematics 2840-50-60 . . . . . . . . . . . . . . 4
'Non-technical elective . . . . . . . . . . . . . . . 8
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3
3Engineering electives . . . . . . . . . . . . . . . . 3
Junior
Math electives . . . . . . . . . . . . . . . . . . . . . . . . 3
Physics 3210-20-30 . . . . . . . . . . . . . . . . . . . 3
Physics 4210-20 . . . . . . . . . . . . . . . . . . . . . . -
4Physicslab electives . . . . . . . . . . . . . . . . . 3
Electives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
sTechnicalelectives . . . . . . . . . . . . . . . . . . 3
Senior
Physics 4240 (or 4250) . . . . . . . . . . . . . . . . 3
6Physics 4110-20-30 . . . . . . . . . . . . . . . . . . 3
7Physics electives . . . . . . . . . . . . . . . . . . . . 3
STechnicalelectives . . . . . . . . . . . . . . . . . . -
Electives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
3Engineering electives . . . . . . . . . . . . . . . . 3
3
3
4
3
3
3
4
3 3
3 -
3
3
3
4 4
4
3
3
3
4
3
TOTAL : 203 hours
4
5
3
4
TOTAL : 206 hours
'Course will usually be required ; however, a student's major
adviser may substitute another 4000-level electrical
engineering course without filing a substitution form .
2A student must take anythree of the first sixcourses (top two
lines)-the remaining three of these first six may be any
4000-level or higher course in electrical engineering .
Hours Credit
11 I//
4 4
3 3
- 4
4 4
3 -
4 4
4 4
8 8
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
TOTAL : 199 hours
'To be taken from College of Liberal Arts triads of Language,
Literature, and Arts, or History and Society, with at least 16
hours from courses approved for Language, Literature, and
Arts.
2The honors sequence (Physics 1318-28-38) is recommended
for qualified majors .
3To be taken in College Engineering .
^From Physics 3510-20-30,3610-20-30,4510-20-30,4540-50 .
5From engineering, mathematics, computer science,
physics, chemistry, or astronomy .
6Students not pursuing graduate studies may substitute
Physics 3710-20-30.
7 1 7rom Physics 3250 . 3710-20-30, 4040, 4110-20-30-40,
4160,4230-40-50, 4510-20-30-40-50, 4610-20-30, 4710-20-30.
Astronomy 4110-20-30.
Engineering Science
Hours Credit
Freshman I 11 111
Mathematics 1840-50-60 . . . . . . . . . . . . . . 4 4 4
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . 3 3 -
Basic Engineering 1310-20-30 . . . . . . . . . 4 4 4
Basic Engineering 1410 . . . . . . . . . . . . . . . - - 2
Sophomore
Mathematics 2840-50-60 . . . . . . . . . . . . . . 4 4 4
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3
Met . Engr. 2110 . . . . . . . . . . . . . . . . . . . . . . 3 - -
Engr . Sci . & Mach . 3700, 3311, 3110 . . . 4 4 3
Elec . Engr. 3110 . . . . . . . . . . . . . . . . . . . . . . - - 3
'Humanities/social studies electives . . . 4 4 4
Junior
Engr . Sci . and Mach . 3010 . . . . . . . . . . . . 1
Mach . Engr . 3311 and 3440
or 3540 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Elec . Engr. 3120 . . . . . . . . . . . . . . . . . . . . . . 3
Computer Science 3150 . . . . . . . . . . . . . . . 3
Engr . Sci . and Mach . 3320 or 3120 . . . . -
Industrial Engineering 4520 . . . . . . . . . . . -
Mathematics elective . . . . . . . . . . . . . . . . . -
ZPhysical or biol . science electives . . . . 3
3Engr. science electives . . . . . . . . . . . . . . . 3
Industrial Engineering
Junior
Computer Science 3150 . . . . . . . . . . . . . . . 3
Ind . Engr . 3620-30 . . . . . . . . . . . . . . . . . . . . 3
Ind . Engr.3430-40 . . . . . . . . . . . . . . . . . . . . 3
Elec . Engr . 3110-20-30 . . . . . . . . . . . . . . . . 3
Mach . Engr . 3520-30 . . . . . . . . . . . . . . . . . . 3
Accounting 2110, 2130 . . . . . . . . . . . . . . . . 3
Ind . Engr .2320 . . . . . . . . . . . . . . . . . . . . . . . -
Ind . Engr. 3510 . . . . . . . . . . . . . . . . . . . . . . . -
Ind . Engr .3520 . . . . . . . . . . . . . . . . . . . . . . . -
Met . Engr. 2110 . . . . . . . . . . . . . . . . . . . . . . -
Ind . Engr.4520 . . . . . . . . . . . . . . . . . . . . . . . -
Economics 2110 . . . . . . . . . . . . . . . . . . . . . . -
Senior
Humanities/social studies elective . . . . . 4
Ind . Engr. 4060,4070 . . . . . . . . . . . . . . . . . 3
Ind . Engr. 4040 . . . . . . . . . . . . . . . . . . . . . . . 3
Ind . Engr.4870 . . . . . . . . . . . . . . . . . . . . . . . 3
Technical elective . . . . . . . . . . . . . . . . . . . . 3
Ind . Engr.4200 . . . . . . . . . . . . . . . . . . . . . . . -
Ind . Engr . 4590 . . . . . . . . . . . . . . . . . . . . . . . -
Ind . Engr.4600,4610 . . . . . . . . . . . . . . . . . -
Ind . engr . electives . . . . . . . . . . . . . . . . . . . -
Ind . Enqr. 4840 . . . . . . . . . . . . . . . . . . . . . . . -
3
3
3
6
3
3
3
3
3
3
3
3
4
3
3
3
3
3
6
Senior
Engr . Sci . & Mach . 4010 . . . . . . . . . . . . . . - 4 -
Engr . Sci . & Mach . 4810, 4620 . . . . . . . . . 4 4 -
3Engr. science electives . . . . . . . . . . . . . . . 3 - 3
4Technical electives . . . . . . . . . . . . . . . . . . 6 3 9
'Humanities/social studies electives . . . 4 4 4
TOTAL : 197 hours
'Humanities/social studies courses approved by the
department .
2Appropriate courses approved by the department .
3Appropriate courses intheCollege of Engineeringapproved
by the department .
4Upper-division courses in mathematics, statistics, natural
science, or engineering approved by the department .
Hours Credit
Freshman I 11 /I/
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . . - 3 3
Basic Engineering 1310-20-30 . . . . . . . . . 4 4 4
Basic Engineering 1410 . . . . . . . . . . . . . . . - - 2
Sophomore
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
English elective . . . . . . . . . . . . . . . . . . . . . . 4 4 -
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3
Engr . Sci . and Mach . 3311, 3700 . . . . . . . 4 4 -
Ind . Engr . 2310 . . . . . . . . . . . . . . . . . . . . . . . 1 - -
Statistics 3450, 3460 . . . . . . . . . . . . . . . . . . - 3 3
Humanities/social studies electives . . . . - 4
Ind . Engr . 3610 . . . . . . . . . . . . . . . . . . . . . . . - - 3
3
3
3
3
3
3
3 6
3
College of Engineering 129
. . .
. . .
Ind . Engr 4310 . . . . . . . . . . . . . . . . . . . . . -
Civil Engr 4230 . . . . . . . . . . . . . . . . . . . . -
Mechanical Engineering
Before entering the third quarter of the
junior year the student, with the aid and
approval of an adviser, must select a program
of mechanical engineering and technical
electives . The following areas of
specialization are available in the senior year :
energy, environmental, manufacturing,
machine design, propulsion and aerospace .
See page 151 .
.
.
. . .
.
Junior
Mach. Engr . 3311, 3321-30 . . . . . . . . . . . . 3 2 3
Mach . Engr . 3610-20-30 . . . . . . . . . . . . . . . 3 3 3
Mach . Engr . 3040, 3650-60 . . . . . . . . . . . 1 3 3
Mach . Engr . 3910, 3440, 4420 . . . . . . . . . 3 3 3
Aero . Engr. 3511 . . . . . . . . . . . . . . . . . . . . . - - 4
Mach. Engr . 3410 . . . . . . . . . . . . . . . . . . . . - 3 -
Engr. Sci . & Mach 3320 . . . . . . . . . . . . 3 - -
Elec . Engr . 3110-20-30 . . . . . . . . . . . . . . . 3 3 3
.
. . .
. .
.
. . .
Senior
Mach. Engr . 4310-20 . . . . . . . . . . . . . . . . . 1 1
Mach Engr . 4510 . . . . . . . . . . . . . . . . . . . 4 -
Mach Engr . 4471-91 . . . . . . . . . . . . . . . . . 3 3
Mach. Engr . 4670-80 . . . . . . . . . . . . . . . . . 3 3
2Mech . engr . electives . . . . . . . . . . . . . . . . 3 3 6
3Technicalelectives . . . . . . . . . . . . . . . 3 - 3
'Humanities/social studies electives . . . -
Industrial Engineering 4520 . . . . . . . . . . . - 3
TOTAL : 203 hours
"Humanities/social studies electives : minimum of 19 hours
required.
2Mechanical engineering electives : senior courses in
mechanical engineering not otherwise required .
3Technicalelectives : upper-division courses in engineering,
mathematics, or physics as approved by the department.
Metallurgical Engineering
- 1
- 3
TOTAL : 206 hours
. . .
. .
.
.
Freshman I 11 111
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . 4 4 4
Chemistry 1110-20-30 . . . . . . . . . . . . . . . 4 4 4
English 1010 or 1011 ; 1020 ; 1033 . . . . . . 3 3 3
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . . 3 3 -
Basic Engineering 1310-20-30 . . . . . . . . . 4 4 4
Basic Engineering 1410 . . . . . . . . . . . . . . - - 2
.
.
Sophomore
Mach . Engr. 2040 . . . . . . . . . . . . . . . . . . . . 1 - -
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
Physics 2310-20-30 . . . . . . . . . . . . . . . . . . . 3 3 3
Engr. Sci . & Mach . 3311, 3700 . . . . . . . . . - 4 4
Met . Engr . 2110 . . . . . . . . . . . . . . . . . . . . . . - 3 -
Speech 2361 . . . . . . . . . . . . . . . . . . . . . . . . . 4 - -
Computer Science 3150 . . . . . . . . . . . . . . - - 3
'Humanitiestsocial studies elective . . . .
; .
. . .
Hours Credit
Freshman I 11 /it
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
Chemistry 1110-20-30 . . . . . . . . . . . . . . . . . 4 4 4
English 1010 or 1011 ; 1020 1033 . . . . . 3 3 3
Graphics 1410-20 . . . . . . . . . . . . . . . . . . 3 - 3
Basic Engineering 1310-30-20 . . . . . . . . . 4 4 4
Basic Engineering 1410 . . . . . . . . . . . . . . . - 2 -
.
. .
. . .
. . . .
. .
.
. . .
Sophomore
Chemet. Engr . 2010-20-30 . . . . . . . . . . . . 4 4 4
Chemet. Engr . 2011 . . . . . . . . . . . . . . . . . 0 - -
Chem Engr . 3410 . . . . . . . . . . . . . . . . . . - - 4
Chemistry 2140-49 . . . . . . . . . . . . . . . . 4 - -
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . . 4 4 4
Engr. Sci . & Mach . 2720 . . . . . . . . . . . . - 3 -
ZHumanities/social studies electives . . 4 4 -
Physics 2310-20 . . . . . . . . . . . . . . . . . . . - 3 3
. . .
. . .
.
Junior
Met Engr . 3040-50-60 . . . . . . . . . . . . . . . 4 3 3
Met Engr . 3210-20-30 . . . . . . . . . . . . . . . 4 3 4
'Met . Engr . 3010 . . . . . . . . . . . . . . . . . . . . . - - 1
Met . Engr . 4610 . . . . . . . . . . . . . . . . . . . . . . - - 3
Chem . Engr . 3420 . . . . . . . . . . . . . . . . . . . . 4 - -

130 College of Engineering
. .
.
. . . .
Elec . Engr . 3110 and
either 3120 or 3130 . . . . . . . . . . . . . . . - 3 3
Engr . Sci & Mach . 3311 . . . . . . . . . . . . . . - 4 -
Math 3150 . . . . . . . . . . . . . . . . . . . . . . . 3
2Humanities/social studies electives . . . 4 4
. . . .
. . . .
. . . .
. . .
. . .
. .
. . . .
. . . .
. . . .
Senior
Met. Engr . 4240-50 . . . . . . . . . . . . . . . 3 3
Met Engr 4510-20 . . . . . . . . . . . . . . . . . 3 3
Met . Engr 4730-40 . . . . . . . . . . . . . . . . 3 3
Met . Engr . 4760-70 . . . . . . . . . . . . . . . . - 3 3
Met . Engr . 3150 . . . . . . . . . . . . . . . . . . . - 3
Chem . Engr . 4110 . . . . . . . . . . . . . . . . . . - 3
Chemet. Engr . 4310-20 . . . . . . . . . . . . 1 1
Technical electives . . . . . . . . . . . . . . . - 3 3
ZHumanities/social studies electives . . . 4 4
Chemistry 4110 . . . . . . . . . . . . . . . . . . . 3
TOTAL : 201 hours
'Not required in the cooperative program .
ZA minimum of one-half (12 quarter hours) of the
humanities/social studies electives must be taken from a
single group under one of the three areas .
Nuclear Engineering
.
. .
.
.
. .
. . .
Hours Credit
Freshman / 11 111
Math 1840-50-60 . . . . . . . . . . . . . . . . . . . . . 4 4 4
English 1010 or 1011 ; 1020 ; 1033 . . . . 3 3 3
Chemistry 1110-20-30 . . . . . . . . . . . . . . . .
Basic Engr. 1310-30-20 . . . . . . . . . . . . . .
4
4
4
4
4
4
Graphics 1410-20 . . . . . . . . . . . . . . . . . . . 3 - 3
Basic Engr. 1410 . . . . . . . . . . . . . . . . . . - 2 -
.
.
. . .
. . . .
. .
. . .
Sophomore
Math 2840-50-60 . . . . . . . . . . . . . . . . . . . . . 4 4 4
Nuclear Engr. 2310-20-30 . . . . . . . . . . . . 1 1 1
Physics 2310-20 . . . . . . . . . . . . . . . . . . . 3 3 -
Math 3150 . . . . . . . . . . . . . . . . . . . . . . . - - 3
Engr . Sci . & Mach. 3700, 3311 . . . . . . . - 4 4
Met. Engr. 3110 . . . . . . . . . . . . . . . . . . . 4
Humanities/social studies electives . . . . 4 4 4
. .
. . .
. . .
. . .
. . . .
. . . . .
Junior
Math 4610, 4710, 4550 . . . . . . . . . . . . . . 3
Physics 3710-20-30 . . . . . . . . . . . . . . . . 3
3
3
3
3
Elec Engr 3110-20 . . . . . . . . . . . . . . . . . . 3 3
Nuclear Engr . 3210-20 . . . . . . . . . . . . . . . . 4 4
Nuclear Engr . 3010 . . . . . . . . . . . . . . . . 4
Ind . Engr .4520 . . . . . . . . . . . . . . . . . . . - 3
Met . Engr 3160 . . . . . . . . . . . . . . . . . . - 3
Humanities/social studies electives . . . . - 4 4
.
.
.
. . . .
. .
. . . . .
Senior
Nuclear Engr . 4110-20-30 . . . . . . . . . . . . 3 3 3
Nuclear Engr . 4210-20-30 . . . . . . . . . . . . 3 3 3
Nuclear Engr . 4710-20-30 . . . . . . . . . . . . 4
Nuclear Engr . 3150 . . . . . . . . . . . . . . . 3
4 3
Nuclear Engr .4810-20 . . . . . . . . . . . . . . - 3 3
Tech electives . . . . . . . . . . . . . . . . . . . 3 3 3
TOTAL : 198 hours

Cooperative Curriculum in Aerospace Engineering
Students Working Spring and Fall Ouarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chem . 1120 . . . . . . . . 4 Chemistry 1130 . . . .4
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 Basic Engr. 1330 . . . 4
Basic Engr . 1310 . . .4 Basic Engr . 1320 . . .4 Basic Engr. 1410 . . . 2
SECOND Aero . Engr . 2040 . . . 1 Math 2850 . . . . . . . . . 4
YEAR Math 2840 . . . . . . . . . 4 Physics 2320. . . . . . .3
WORK Physics 2310 . . . . . . .3 WORK ES SM3311 . . . . . . .4
Speech 2361 . . . . . . .4 Met. Enpr. 2110 . . . . 3
'Humanities/social 'Humanities/ social
studies elect . . . studieselect . . . ..*
THIRD Math 2860 . . . . . . . . . 4 Aero . Engr . 3040 . . .1
YEAR Physics 2330 . . . . . . . 3 Aero . Engr . 3610 . . .3
WORK ES &M 3700 . . . . . . .4 WORK Elec . Engr. 3110 . . . .3
Comp . Sci . 3150 . . . . 3 ES 3 M 3320 . . . . . . . 3
'Humanities /social Mach . Engr . 3311 . .3
studies elect . . . . ' Mech . Engr . 3910 . .3
FOURTH Aero Engr . 3620 . . . . 3 Aero Engr. 3511 . . . . 4
YEAR Aero Engr .3630 . . . . 3 Aero Engr. 3640 . . . . 3
Elec . Engr . 3120 . . . . 3 Elec . Engr. 3130 . . . .3
WORK Mach . Engr . 3321 . .2 WORK Mach . Engr . 3330 . .3
Mach . Engr . 3410 . .3 Mach . Engr . 4420 . .3
Mech . Engr . 3440 . .3 'Humanities/ social
studieselect. . . .'
FIFTH
YEAR
Aero Engr . 4210 . . . . 3 Aero Engr . 4510 . . . . 3 Aero Engr . 4230 . . . . 3
Aero Engr . 4220 . . . . 3 Aero Engr . 4250 . . . . 3 Aero Engr . 4260 . . . . 3
Aero Engr . 4471 . . . . 3 Aero Engr . 4491 . . . . 3 'Tech . elect . . . . . . . . 6
Aero Engr . 4310 . . . . 1 Aero Engr . 4320 . . . .1 'Humanities/SOCIal
Mech . Engr. 4510 . .4 'Humanities/social studies elect . . . . '
'Tech . elect . . . . . . . . 3 studies elect . . .
Industrial
Engr . 4520 . . . . . 3
Students Working Summerand Winter Quarters-Group B
TOTAL : 203 hours
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chem . 1120 . . . . . . . . 4 Chemistry 1130 . . . . 4
English 1010 or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . .3 WORK
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr . 1330 . . . 4
Basic Engr . 1310 . . . 4 Basic Engr . 1320 . . . 4 Basic Engr . 1410 . . . 2
SECOND Aero Engr . 2040 . . . . 1 Math 2850 . . . . . . . . . 4
YEAR Math 2840 . . . . . . . . . 4 Physics 2320 . . . . . . .3
Physics 2310 . . . . . . .3 WORK ES & M3311 . . . . . . .4 WORK
'Humanities/social Met . Engr . 2110 . . . .3
studies elect . . 'Humanities/ social
Speech 2361 . . . . . . .4 studieselect. . . . '
THIRD Math 2860 . . . . . . . . . 4 Aero Engr . 3040 . . . . 1
YEAR Physics 2330 . . . . . . .3 Aero Engr. 3610 . . . . 3
ES 8 M 3700 . . . . . . .4 Elec . Engr. 3110 . . . . 3
Comp . Sci . 3150 . . . . 3 WORK ES & M 3320 . . . . . . .3 WORK
'Humanities/ social Mech . Engr . 3311 . .3
studies elect . . . . ' Mech . Engr . 3910 . . 3
FOURTH Aero Engr . 3620 . . . . 3 Aero Engr .3511 . . . . 4
YEAR Aero Engr . 3630 . . . . 3 Aero Engr. 3640 . . . . 3
Elec . Engr . 3120 . . . . 3 Elec . Engr. 3130 . . . .3
Mech . Engr. 3321 . .2 WORK Mech . Engr . 3330 . . 3 WORK
Mech . Engr. 3410 . . 3 Mech . Engr . 4420 . . 3
Mech . Engr. 3440 . .3 'Humanities/ social
studieselect . . . . '
FIFTH Aero Engr . 4210 . . . . 3 Aero Engr . 4510 . . . . 3 Aero Engr .4230 . . . . 3
YEAR Aero Engr. 4220 . . . . 3 Aero Engr .4250 . . . . 3 Aero Engr .4260 . . . . 3
Aero Engr. 4471 . . . . 3 Aero Engr .4491 . . . . 3 'Tech . elect . . . . . . . . 6
Aero Engr . 4310 . . . . 1 Aero Engr . 4320 . . . .1 'Humanities/ social
Mech . Engr . 4510 . . 4 'Humanities/social studieselect . . . . '
'Tech . elect . . . . . . . . 3 studies elect . . .
Industrial
Engr . 4520 . . . . .3 TOTAL : 203 hours
"Humanities/social studies electives ; minimum of 19 hours required .
'Technical electives ; upper-division courses in engineering, mathematics, or physical science as approved by the department.
College of Engineering

13 2 College of Engineering
Cooperative Curriculum in Metallurgical Engineering
Students Working Spring and FallQuarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3
Graphics 1410 . . . . .3 Basic Engr .1410 . . . 2 Basic Engr.1320 . . . 4
Basic Engr. 1310 . . .4 Basic Engr .1330 . . . 4 Graphics 1420 . . . . . 3
SECOND Chemet . Engr . 2010 .4 Chemet. Engr.2030 . 4
YEAR Chemistry 2140-49 . 4 Math 2850 . . . . . . . . . 4
WORK Math 2840 . . . . . . . . . 4 WORK ES SM 2720 . . . . . . . 3
'Humanities/ social 'Humanities/ social
studies elect . . . . 4 studies elect . . . . 4
Physics 2310 . . . . . . . 3
THIRD Chemet . Met . Engr. 3210 . . . .4
YEAR Engr . 2020 . . . . .4 Met . Engr. 3040 . . . .4
WORK Chem . Engr. 3410 . .4 WORK Math 3150 . . . . . . . . .3
Math 2860 . . . . . . . . .4 'Humanities/social
Physics 2320 . . . . . . .3 studies elect . . .4
Met . Engr. 4610 . . . .3
.
. .
.
FOURTH
YEAR WORK
Chem . Engr 3420 . .4
Met . Engr 3220 . . .3
Met . Engr. 3050 . . . .3
Elec . Engr . 3110 . . .3
ES & M 3311 . . . . . . .4
WORK
Met . Engr . 3230 . . . .4
Met . Engr . 3060 . . . .3
Elec. Engr . 3120
or 3130 . . . . . . . . . .3
'Humanities/social
studies elect . . .4
FIFTH Chemet . Eng . 2011 .0 Met. Engr . 4520 . . . .3 Met . Engr. 3150 . . . .3
YEAR Met . Engr. 4240 . . . .3 Met. Engr . 4740 . . . .3 Met . Engr. 4770 . . . .3
Met . Engr. 4510 . . . .3 Met . Engr . 4760 . . . .3 Met . Engr. 4250 . . . .3
Met . Engr. 4730 . . . .3 Chem . Engr . 4110 . .3 Chemet.
Chemet. Tech . elective . . . . . .3 Engr . 4320 . . . . .1
Engr . 4310 . . . . .1 Tech . elective . . . . . .3
Chemistry 4110 . . . .3 'Humanities/social
'Humanities/social studies elect . . .4 TOTAL: 200 hours
studies elect . . .4
Students Working Summerand WinterQuarters-Group B
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4
English1010or 1011 .3 English 1020 . . . . . . .3 English 1033 . . . . . . . 3 WORK
Graphics 1410 . . . . .3 Basic Engr . 1420 . . . 2 Basic Engr . 1320 . . . 4
Basic Engr . 1310 . . .4 Basic Engr . 1330 . . . 4 Graphics 1420 . . . . . 3
SECOND Chemet. Engr. 2010 .4 Chemet. Engr.2020 . 4
YEAR Chemet. Engr. 2011 .0 Chemet . Engr.2030 . 4
Chemistry 2140-49 . 4 WORK Chem . Engr . 3410 . .4 WORK
Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4
'Humanities/ social
studies elect . . . . 4
THIRD Met . Engr . 3040 . . . .4 Math 2860 . . . . . . . . .4
YEAR Physics 2310 . . . . . . .3 Math 3150 . . . . . . . . .3
Met . Engr . 3210 . . . .4 WORK ES 8 M 2720 . . . . . . .3 WORK
Chem . Engr . 3420 . .4 Physics 2320 . . . . . . .3
'Humanities/social
studies elect . . .4
FOURTH Met. Engr . 3050 . . . .3 Met . Engr. 3060 . . . .3
YEAR Met . Engr . 3220 . . . .3 Met . Engr. 3230 . . . .4
ES 8 M 3311 . . . . . . .4 WORK Elec . Engr. 3120 WORK
Elec . Engr . 3110 . . . .3 or 3130 . . . . . . . .3
'Humanities/social 'Humanities/social
studies elect . . .4 studies elect . . .4
Met . Engr. 4610 . . . .3
FIFTH Met . Engr . 4240 . . . .3 Met . Engr . 4520 . . . .3 Met . Engr . 3150 . . . .3
YEAR Met . Engr . 4510 . . . .3 Met . Engr . 4740 . . . .3 Met . Engr. 4770 . . . .3
Met . Engr . 4730 . ; . .3 Met . Engr . 4760 . . . .3 Met . Engr. 4250 . . . .3
Chemet . Chem . Engr . 4110 . .3 Chemet . Engr . 4320 1
Engr . 4310 . . . . . 1 Tech . elective . . . . . .3 Tech . elective . . . . . .3
Chemistry 4110 . . . .3 'Humanities/social
'Humanities/social studies elect . . .4
studies elect . . .4 TOTAL : 200 hours
'A minimumof one-half (12hours) of the non-technical electivesmust betakenfrom asingle groupunder one of the threeareasof the
humanities and social studies electives .

Cooperative Curriculum in Civil Engineering
Students Working Spring and Fall Quarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4
English1010 or 1011 .3 English 1020 . . . . . . . 3 WORK English 1033 . . . . . . . 3
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr. 1330 . . . 4
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . .4 Basic Engr.1410 . . . 2
SECOND Physics 2310 . . . . . . . 3 Civil Engr . 2260 . . . . 3
YEAR Civil Engr . 2310 . . . . 1 Engr . Sci . & Mach .
WORK Engr . Sci . & Mech . WORK 2720 . . . . . . . . . . .3
3311 . . . . . . . . . . .4 Math 2850 . . . . . . . . . 4
Math 2840 . . . . . . . . . 4 'Humanities/ social
Geology 2610 . . . . . . 3 studies elect . . . . . 4
Physics 2320 . . . . . . .3
THIRD Civil Engr . 3210 . . . . 3 Civil Engr . 3600 . . . . 3
YEAR Engr . Sci . & Mech . Civil Engr . 3710 . . . . 3
WORK 3110 . . . . . . . . . . .3 WORK Civil Engr . 4410 . . . . 3
Math 2860 . . . . . . . . . 4 Elec . Engr . 3110 . . . . 3
Civil Engr. 2360 . . . .3 Envr . Engr . 3120 . . . 3
Envr . Engr. 4510 . . .3 Civil Engr . 4800 . . . . 3
FOURTH Civil Engr . 3310 . . . .3 Civil Engr . 4220 . . . . 3
YEAR Civil Engr . 3610 . . . .3 Comp . Sci . 3150 . . . . 3
WORK Civil Engr . 4110 . . . . 3 WORK Envr. Engr . 4520 . . . 3
Civil Engr . 3320 . . . . 1 Humanities/ social
Envr. Engr . 3330 . . . 3 studies elect . . .4
Civil Engr . 4430 . . . .3 2Mech . Engr . 3110 . .3
.
. . . . .
FIFTH Economics 2110 . . .3 Civil Engr . 4320 . . . . 1 Civil Engr. 4330 . . . . 1
YEAR
Humanities Isocial
studies elect . . . . . 4
'Tech . elect . . . . . . . 9
Humanities/ social
studies elect . . . . .4
Tech . elect . . . . . . .9
4Math/sci . elect . . . . .3
Humanities/ social
studies elect . . . . 7
Tech . elect . . . . . . 9
Students Working Summerand Winter Ouarters-Group 8
TOTAL : 201 hours
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4
English 1010 or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . . 3 WORK
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr . 1330 . . . 4
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . . 4 Basic Engr . 1410 . . . 2
SECOND Civil Engr . 2260 . . . . 3 Civil Engr . 2360 . . . . 3
YEAR Physics 2310 . . . . . . . 3 Engr . Sci . & Mach .
Engr . Sci . & Mach . WORK 2720 . . . . . . . . . . .3 WORK
3311 . . . . . . . . . . .4 Math 2850 . . . . . . . . . 4
Math 2840 . . . . . . . . . 4 'Humanities/ social
Geology 2610 . . . . . . 3 studies elect . . . . . 4
Physics 2320 . . . . . . . 3
THIRD Civil Engr . 2310 . . . . 1 Civil Engr . 4410 . . . .3
YEAR Math 2860 . . . . . . . . . 4 Civil Engr . 3610 . . . . 3
Civil Engr. 3210 . . . .3 Civil Engr . 4800 . . . .3
Engr . Sci . & Mach . WORK Elec . Engr . 3110 . . . .3 WORK
3110 . . . . . . . . . . .3 Civil Engr . 4110 . . . .3
Envr. Engr . 4510 . . .3
Civil Engr . 3710 . . . .3
FOURTH Civil Engr . 3310 . . . . 3 Civil Engr . 4220 . . . .3
YEAR Civil Engr. 3320 . . . . 1 Comp . Sci . 3150 . . . .3
Civil Engr. 3600 . . . . 3 Humanities/ social
Envr . Engr . 3120 . . .3 WORK studies elect . . . . . 4 WORK
MMech . Engr . 3110 . .3 Envr . Engr. 3330 . . . 3
Civil Engr. 4430 . . . . 3 Envr . Engr. 4520 . . . 3
FIFTH Economics 2110 . . . 3 Civil Engr . 4320 . . . . 1 Civil Engr . 4330 . . . . 1
YEAR Humanities/ social Humanities /social Humanities/ social
studies elect . . . . . 4 studies elect . . . . . 4 studies elect. . . . . 7
'Tech . elect . . . . . . . . 9 4Math/sci . elect . . . . .3 Tech . elect . . . . . . . . 9
Tech . elect . . . . . . . . .9
TOTAL : 201 hours
'Humanities/social studies courses approved by the department .
'Mechanical engineering 3520 or 3311 may be substituted .
'Technical electives must be approved by thestudent's adviser and the primary and one of thetwosecondary areas of study must
come from the departmenal list of approved courses for 15 credits and 6 credits respectively .
'Math/science courses approved by the department .
College of Engineering

134 College of Engineering
Cooperative Curriculum in Electrical Engineering
Students Working Spring and Fall Quarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3
Basic Engr . 1310 . . .4 Basic Engr . 1330 . . .4 Basic Engr. 1320 . . .4
Basic Engr . 1410 . . .2 Graphics 1420 . . . . .3
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4
YEAR Physics 2310 . . . . . . .3 Physics 2320 . . . . . . .3
WORK EE 2010 . . . . . . . . . . .3 WORK EE 2020 . . . . . . . . . . .3
Met. Engr . 2110 . . . .4 Humanities/social
Humanities/social studies elect . . .4
studies elect . . .4 Engr . Sci . &
Mach . 2720 . . . .3
THIRD Math 2860 . . . . . . . . .4 EE 3810 . . . . . . . . . . .3
YEAR Physics 2330 . . . . . . .3 EE 3040 . . . . . . . . . . .3
WORK EE 2030 . . . . . . . . . . .3 WORK EE 3010 . . . . . . . . . . .3
EM 3710 or Met . EE 3190 . . . . . . . . . . .3
Engr. 3130 . . . . .3 Mach . Engr . 3520 . .3
Humanities/social Math 3150 . . . . . . . . .3
studies elect . . . .4
FOURTH EE 3820 . . . . . . . . . . .3 EE 3830 . . . . . . . . . . .3
YEAR EE 3050 . . . . . . . . . . .3 EE 3060 . . . . . . . . . . .3
WORK EE 3720 . . . . . . . . . . .3 WORK EE 3100 . . . . . . . . . . .3
EE 3180 . . . . . . . . . . .3 Mach . Engr . 3540 . .3
Mach . Engr. 3530 . .3 EE 3090 . . . . . . . . . . .3
EE 3080 . . . . . . . . . . .3
TOTAL : 203-206hours
FIFTH See Senior Year Areas of interest, page 128 .
YEAR
Students Working Summer and Winter Quarters-Group 8
Fell Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4
English1010or 1011 .3 English 1020 . . . . . . .3 English 1033 . . . . . . .3 WORK
Graphics 1410 . . . . .3 Basic Engr . 1410 . . .2 Basic Engr . 1320 . . .4
Basic Engr . 1310 . . .4 Basic Engr .1330 .. . . .4 Graphics 1420 . . . . .3
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4
YEAR Physics 2310 . . . . . . .3 Physics 2320 . . . . . . .3
EE 2010 . . . . . . . . . . .3 WORK EE 2020 . . . . . . . . . . .3 WORK
Met . Engr . 2110 . . . .3 Humanities/social
Humanities/social studies elect . . .4
studies elect . . .4 Engr. Sci . &
Mech . 2720 . . . .3
. . .
. .
.
. .
THIRD
YEAR
Math 2860 . . . . . . . .4
Physics 2330 . . . . . . .3
EE 2030 . . . . . . . . . . .3
EM 3710 or Met
Engr . 3130 . . . . .3
Humanities/social
studies elect . . .4
WORK
EE 3810 . . . . . . . . .3
EE 3040 . . . . . . . . .3
EE 3010 . . . . . . . . . .3
EE 3190 . . . . . . . . .3
Mech . Engr . 3520 . .3
Math 3150 . . . . . . . . .3
.
.
FOURTH EE 3820 . . . . . . . . . . .3 EE 3830 . . . . . . . . . . .3
YEAR EE 3050 . . . . . . . . . .3 EE 3060 . . . . . . . . . . .3
EE 3720 . . . . . . . . . .3
EE 3180 . . . . . . . . . . .3 WORK
EE 3100 . . . . . . . . . . .3
Mech . Engr. 3540 . .3
Mech . Engr. 3530 . .3 EE 3090 . . . . . . . . . . .3
EE 3080 . . . . . . . . . . .3
FIFTH See Senior Year Areas of interest, page 128 .
YEAR
WORK
WORK
TOTAL : 203-206hours

Cooperative Curriculum in Engineering Physics
Students Working Spring and Fall Quarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4
YEAR English1010 or 1011 .3 English 1020 . . . . . . .3 Chemistry 1130 . . . .4
Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 WORK English 1033 . . . . . . .3
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 'Non-tech . elect. . . .4
2Physics 1310 . . . . . .4 2Physics 1320 . . . . . .4 2Physics 1330 . . . . . .4
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4
YEAR Physics 2310 . . . . . . .3
Physics 2320 . . . . . . .3
WORK
3Engr .
WORK
elect. . . . . . . .3
3Engr . elect. . . . . . . .3
'Non-tech . elect . . . .8 'Non-tech . elect . . . .8
THIRD Math 2860 . . . . . . . . .4 Math elective . . . . . .3
YEAR Physics 2330 . . . . . . .3 Physics 3230 . . . . . . .3
WORK Physics 3210 . . . . . . .3 WORK 4Physics lab . . . . . . . .3
4Physics lab . . . . . . . .3 Engr. elective . . . . . .3
'Non-tech . elect . . . .4 'Non-tech . elect . . . .3
FOURTH Math elective . . . . . .3 Math elective . . . . . .3
YEAR Physics 3220 . . . . . . .3 Physics lab . . . . . . . .3
WORK Physics 4210 . . . . . . .3 WORK Physics 4220 . . . . . . .3
Elective . . . . . . . . . . . .3 Elective . . . . . . . . . . . .3
5Tech . elective . . . . .3 5Tech . elective . . . . .3
.
.
. .
. .
. . . .
.
FIFTH
YEAR
aPhysics 4110 . . . . . .3
Physics 4240
or 4250 . . . . . . . .3
7Physics elective . . .3
Elective . . . . . . . . . . .3
aPhysics 4120 . . . . .3
7Physics elective . . .3
5Tech . elective . . . . .3
3Engr. elective . . . . .3
Elective . . . . . . . . . . .3
aPhysics 4130 . . . . . .3
7Physics elective . .3
5Tech . elective . . .3
3Engr . elective . . .3
Elective . . . . . . . . . .3
3Engr . elective . . . .3
Students Working Summer and Winter Quarters-Group 8
. .
. . .
. .
FIFTH
YEAR
aPhysics 4110 . . . . . .3
Physics 4240
or 4250 . . . . . .3
aPhysics 4120 . . . . .3
7Physics elective . . .3
5Tech elective . . . . .3
aPhysics 4130 . . . . .3
7Physics elective . . .3
5Tech . elective . . . . .3
7Physics elective . . .3
Elective . . . . . . . . . . . .3
3Engr.-elective . . . . .3
3Engr. elective . . . . .3
Elective . . . . . . . . . . . .3
3Engr. elective . . . . .3
Elective . . . . . . . . . . 3
'To be taken from the College of Liberal Arts triads of Language, Literature and Arts, or History and Society, with at
least 16 hours from courses approved for Language, Literature and Arts .
2The honors sequence (Physics 1316-28-38) is recommended for qualified majors .
3To be taken in College of Engineering .
4From Physics 3510-20-30, 3610-2030, 4510-20-30, 454050 .
SFrom engineering, mathematics, computer science, physics, chemistry, or astronomy.
°Students not pursing graduate studies may substitute Physics 37102030.
7From Physics 3520, 37102030, 4040, 4110203040, 4160 : 42304050, 451020304050, 46102030, 47102030,
Astronomy 411G- 20- 30 .
College of Engineering
TOTAL : 199 hours
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4
YEAR English1010 or 1011 .3 English 1020 . . . . . . .3 'Non-tech . elect . . . .4
Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4 WORK
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 English 1033 . . . . . . .3
2Physics 1310 . . . . . .4 2Physics 1320 . . . . . .4 2Physics 1330 . . . . . .4
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4
YEAR 'Non-tech . elect . . . .8
'Non-tech . elect. . . .8
Physics 2310 . . . . . . .3
WORK
Physics 2320 . . . . . . .3
3Engr . elect . . . . . . . .3 3Engr . elect . . . . . . . .3
WORK
THIRD Math 2860 . . . . . . . . .4 Math elective . . . . . .3
YEAR Physics 2330 . . . . . . .3 Physics 3220 . . . . . . .3
Physics 3210 . . . . . . .3 WORK Physics 4210 . . . . . . .3 WORK
4Physics lab . . . . . . . .3 Engr. elect. . . . . . . . .3
'Non-tech elect. . . . .4 'Non-tech . elect . . . .3
FOURTH Math elective . . . . . .3 Math elective . . . . . .3
YEAR 4Physics lab . . . . . . . .3 Physics 4220 . . . . . . .3
sEngr. elective . . . . .3 WORK Physics 3230 . . . . . . .3 WORK
Electives . . . . . . . . . . .6 4Physics lab . . . . . . . .3
3Engr. elect . . . . . . . .3
TOTAL : 199 hours

13 6 College of Engineering
Cooperative Curriculum in Engineering Science
Students Working Spring and Fall Quarters-GroupA
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . .4
English1010or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr .1330 . . . 4
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . . 4 Basic Engr .1410 . . . 2
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4
YEAR Physics 2310 . . . . . . . 3 Physics2320 . . . . . . . 3
WORK Met . Engr .2110 . . . .3 WORK ES &M3311 . . . . . . .4
ES&M 3700 . . . . . . .4 'Humanities /social
'Humanities1 social studies elect . . . . 4
studies elect . . . . 4
THIRD Math 2860 . . . . . . . . . 4 Mech . Engr . 3311 . .3
YEAR Physics 2330 . . . . . . . 3 Else . Engr . 3120. . . . 3
WORK ES&M3110 . . . . . . . 3 WORK Comp . Sci . 3150 . . . . 3
Elec . Engr . 3110 . . . .3 'Phys . or bio . sci .
'Humanities/ social elective . . . . . . . .3
studies elect . . . . 4 'Engr . sci . elect . . . . 3
FOURTH Mach . En r.3440
Math elective . . . . . . 3
YEAR or 3548 . . . . . . . . . 3
'Phys. or bio . sci .
ES & M 3320 elective . . . . . . . .3
WORK or3120 . . . . . . . . . 3, WORK 'Indus. Engr . 4520 . .3
'Phys . or Sio . Sci .
elective . . . . . . . .3
Engr . sci . elect . . . . 6
'Engr . sci . elect . . . . 6
FIFTH ES &M 4810 . . . . . . .4 ES & M 4010 . . . . . . .4 'Engr . sci . elect . . . . 3
YEAR 'Engr . sci . elect . . . . 3 ES & M 4620 . . . . . . .4 'Tech . elective . . . . . 9
'Tech . elect . . . . . . . . 6 'Tech . elect . . . . . . . . 3 'Humanities/ social
'Humanities/ social 'Humanities/social studies elect . . . . 4
studies elect . . . . 4 studies elect . . . . 4
Students Working Summerand Winter Quarters-Group B
'Humanities/ social studies courses approved by the department .
'Appropriate courses approved by thedepartment .
'Appropriate courses in theCollege of Engineering approved by the department.
'Upper-division courses in mathematics, statistics, natural science, or engineering approved by the department .
TOTAL: 196 hours
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . .4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4
English1010or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . .3 WORK
Graphics 1410 . . . . .3 Graphics 1420 . . . . . 3 Basic Engr . 1330 . . . 4
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . . 4 Basic Engr .1410 . . . 2
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4
YEAR Physics 2310 . . . . . . .3 Physics 2320. . . . . . .3
Met . Engr . 2110 . . . . 3 WORK ES&M3311 . . . . . . .4 WORK
ES & M 3700 . . . . . . .4 'Humanities/ social
'Humanities/ social studies elect . . . . 4
studies elect . . . . 4
THIRD Math 2860 . . . . . . . . . 4 Mach . Engr. 3311 . .3
YEAR Physics 2330. . . . . . . 3 Elec . Engr. 3120 . . . .3
ES &M3110 . . . . . . .3 WORK Comp . Sci . 3150 . . . . 3 WORK
Elect . Engr . 3110 . . . 3 'Phys . or bit).
'Humanities/ social sci. elect . . . . . . . 3
studies elect . . . . 4 'Engr . sci . elective . 3
FOURTH Mach . Engr. 3440 Math elective . . . . . . 3
YEAR or3540 . . . . . . . . . 3 'Phys . or bio.
ES &M 3320 WORK sci . elect . . . . . . .3 WORK
or3120 . . . . . . . . . 3 Indus . Engr . 4520 . .3
'Phys . or bio. 'Engr . sci . elect . . . . 6
sci . elect . . . . . . . 3
'Engr . sci . elective .6
FIFTH ES &M 4810 . . . . . . .4 ES &M4010 . . . . . . .4 'Engr . sci . elective . 3
YEAR 'Engr . sci . elective .3 ES &M 4620 . . . . . . . 4 'Technical elective . 9
'Technical elective . 6 'Tech . elect . . . . . . . . 3 'Humanities/ social
'Humanities/ social 'Humanities /social studies elect . . . . 4
studies elect. . . . 4 studies elect . . . . . 4
TOTAL : 196 hours

Cooperative Curriculum in Industrial Engineering
Students Working Spring and FallQuarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3
Basic Engr . 1410 . . .2 Graphics 1410 . . . . .3 Basic Engr . 1330 . . .4
Basic Engr . 1310 . . .4 Basic Eng . 1320 . . . .4 Graphics 1420 . . . . .3
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4
YEAR English elective . . . .4 English elective . . . .4
WORK Physics 2310 . . . . . . .3 WORK Physics 2320 . . . . . . .3
ES & M 3311 . . . . . . .4 ES & M 3700 . . . . . . .4
Indus . Engr . 2310 . .1 Statistics 3450 . . . . .1
THIRD Math 2860 . . . . . . . . .4 Comp. Sci . 3150 . . . .3
YEAR Humanities/social Indus . Engr . 3620 . .3
WORK studies elect . . . .4 WORK Indus . Engr . 3430 . .3
Physics 2330 . . . . . . .3 Elec . Engr . 3110 . . . .3
Indus. Engr. 3610 . .3 Mach . Engr . 3520 . .3
Statistics 3460 . . . . .3 Accounting 2110 . . .3
FOURTH Indus . Engr. 2320 . .3 Indus . Engr . 3510 . .3
YEAR Indus . Engr. 3630 . .3 Indus . Engr. 3520 . .3
WORK Indus . Engr. 3440 . .3 WORK Met . Engr . 2110 . . . .3
Elec . Engr. 3120 . . . .3 Elec . Engr. 3130 . . . .3
Mach . Engr. 3530 . .3 Indus . Engr. 4520 . .3
Accounting 2130 . . .3 Economics 2110 . . .3
FIFTH Humanities/social Indus . Engr. 4200 . .4 Indus . engr. elect . . .3
YEAR studies elect . . .4 Indus . Engr. 4590 . .3 Indus . Engr . 4610 . .3
Indus . Engr. 4060 . .3 Indus . Engr. 4070 . .3 Indus . engr . elect . . .3
Indus . Engr. 4040 . .3 Indus . Engr. 4600 . .3 Indus . Engr. 4840 . .3
Indus . Engr. 4870 . .3 Tech . elective . . . . . .3 Indus . Engr. 4310 . .1
Tech . elective . . . . . .3 Civil Engr . 4230 . . . .3
Students Working Summerand Winter Quarters-Group B
TOTAL : 206 hours
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . .4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4
English1010or 1011 .3 English 1020 . . . . . . .3 English 1033 . . . . . . .3 WORK
Basic Engr . 1330 . . .4 Graphics 1410 . . . . .3 Graphics 1420 . . . .3
Basic Engr . 1310 . . .4 Basic Engr. 1320 . . .4 Basic Engr . 1410 . . .2
SECOND Math 2840 . . . . . . . . .4 Math 2850 . . . . . . . . .4
YEAR English elective . . . .4 English elective . . . .4
Physics 2310 . . . . . . .3 WORK Physics 2320 . . . . . . .3 WORK
ES & M 3311 . . . . . . .4 ES & M 3700 . . . . . . .4
Indus . Engr. 2310 . .1 Statistics 3450 . . . . . 1
THIRD Math 2860 . . . . . . . . .4 Comp. Sci . 3150 . . . .3
YEAR Humanities/social Indus . Engr. 3620 . .3
studies elect . . . .4 WORK Indus . Engr. 3430 . .3 WORK
Physics 2330 . . . . . . .3 Elec . Engr. 3110 . . . .3
Indus . Engr. 3610 . .3 Mach . Engr. 3520 . .3
Statistics 3460 . . . . .3 Accounting 2110 . . .3
FOURTH Indus . Engr. 2320 . .3 Indus. Engr . 3510 . .3
YEAR Indus . Engr. 3630 . .3 Indus. Engr . 3520 . .3
Indus . Engr. 3440 . .3 WORK Met . Engr . 2110 . . . .3 WORK
Elec . Engr. 3120 . . . .3 Elec . Engr . 3130 . . . .3
Mach . Engr. 3530 . .3 Indus . Engr . 4520 . .3
Accounting 2130 . . .3 Economics 2110 . . .3
FIFTH Humanities/social Indus . Engr. 4200 . .4 Indus . engr . elect . . .3
YEAR studies elect . . .4 Indus . Engr. 4590 . .3 Indus . Engr . 4610 . .3
Indus . Engr. 4060 . .3 Indus . Engr. 4070 . .3 Indus . engr . elect . . .3
Indus . Engr. 4040 . .3 Indus . Engr. 4600 . .3 Indus . Engr . 4840 . .3
Indus . Engr. 4870 . .3 Tech . elective . . . . . .3 Indus . Engr . 4310 . .1
Tech . elective . . . . . .3 Civil Engr . 4230 . . . .3
TOTAL : 206 hours
College of Engineering

13 8Co of En
Cooperative Curriculum in Mechanical Engineering
Students Working Spring and Fall Quarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1850 . . . . . . . . .4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . .4
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3
Graphics 1410 . . . . .3 Graphics 1420 . . . . .3 Basic Engr. 1330 . . .4
Basic Engr . 1310 . . .4 Basic Engr . 1320 . . .4 Basic Engr. 1410 . . .2
.
.
.
. .
. .
SECOND Mach . Engr . 2040 1 Math 2850 . . . . . . . .4
YEAR
WORK
Math 2840 . . . . . . . .4
Physics 2310 . . . . . .3 WORK
Physics 2320 . . . . . . .3
ES & M 3311 . . . . . . .4
'Humanities/social Met Engr 2110 . . . .3
studies elect . 'Humanities/social
Speech 2316 . . . . . . .4 studies elect . . .
. .
. .
.
.
.
THIRD Math 2860 . . . . . . . .4 Mach Engr . 3311 . .3
YEAR Physics 2330 . . . . . .3 Mach . Engr . 3610 .3
WORK ES & M 3700 . . . . . . .4 WORK Mach . Engr . 3040 .1
Comp Sci . 3150 . . . .3 Mech . Engr . 3910 . .3
'Humanities/social ES & M 3320 . . . . . .3
studies elect . . . Elec . Engr . 3110 . . . .3
. .
FOURTH Mach . Engr. 3321 . .2 Mach . Engr. 3330 . .3
YEAR Mach . Engr. 3620 . .3
Mech . Engr. 3650 . .3
Mach . Engr . 3630
Mech . Engr . 3660
. .3
. .3
WORK Mech . Engr. 3440 . .3 WORK Mech . Engr. 4220 . .3
Mach Engr. 3410 . .3 Aero . Engr. 3511 . .4
Elec. Engr . 3120 . . . .3 Elec . Engr. 3150 . . . .3
. .
. . .
. .
.
. . . .
. .
FIFTH Mech . Engr . 4310 . .1 Mach Engr 4320 . .1 ZMech . engr . elect . .6
YEAR Mach Engr 4510 . .4 Mach Engr . 4491 . .3 'Tech . elective . . . . .3
Mech . Engr . 4471 .3 Mach Engr . 4680 . .3 'Humanities/social
Mech . Engr . 4670 .3 ZMech . engr . elect . .3 studies elect . . .
ZMech . engr. elect . . .3 'Humanities/social
'Tech elect . . . . .3 studies elect . . .
Industrial
Engr 4520 . . . .3
TOTAL : 203 hours
Students Working Spring and Winter Quarters-Group 8
. . . . . . . .
. .
. .
. .
FIRST
Fall
Math 1840 . . . . . .4
Winter
Math 1850 . . . . . .4
Spring
Math 1860 . . . . . . .4
Summer
YEAR Chemistry 1110 . . .4 Chemistry 1120 . . .4 Chemistry 1130 . . . .4
English1010 or 1011 .3 English 1020 . . . . . .3 English 1033 . . . . . .3 WORK
Graphics 1410 . . . .3
Basic Engr
Graphics 1420 . . . . . .3 Basic Engr. 1330 . .4
. . 1310 . . .4 Basic Engr . 1320 . . .4 Basic Engr 1410 . . .2
. .
. .
.
.
.
SECOND Mach . Engr . 2040 1
YEAR Math 2840 . . . . . . .4
Physics 2310 . . . . . .3
'Humanities/social
WORK
Math 2850 . . . . . . . . .4
Physics 2320 . . . . . . .3
ES & M 3311 . . . . . .4
Met. Engr 2110 . . . .3
WORK
studies elect .
Speech 2316 . . . . . .4
'Humanities/social
studies elect . . .
. .
.
. .
. .
.
.
THIRD Math 2860 . . . . . . . .4 Mech . Engr 3311 . .3
YEAR Physics 2330 . . . . . . .3
ES & M 3700 . . . . . .4
Comp . Sci . 3150 . . . .3
'Humanities/social
WORK
Mech . Engr 3610 . .3
Mach . Engr 3040 . .1
Mech Engr 3910 . .3
ES & M 3320 . . . . . .3
WORK
studies elect . . . Elec Engr . 3110 . . . .3
FOURTH Mech . Engr . 3321 . .2 Mech . Engr . 3330 . .3
YEAR Mech . Engr . 3620 . .3 Mach . Engr . 3630 . .3
Mech . Engr . 3650 . .3 WORK Mach . Engr . 3660 . .3 WORK
Mach . Engr . 3440 . .3 Mech . Engr . 4220 . .3
Mech . Engr . 3410 . .3 Aero . Engr . 3511 . . .4
Elec . Engr . 3120 . . . .3 Elec . Engr . 3130 . . . .3
. . .
. . .
. .
. .
. . .
.
FIFTH
YEAR
Mach . Engr . 4310
Mech . Engr . 4510
Mech . Engr . 4471
Mech . Engr . 4670
.1
.4
.3
.3
Mach Engr . 4320 .1
Mech . Engr . 4491 .3
Mech . Engr . 4680 .3
ZMech engr . elect - .3
ZMech . engr . elect . .3
'Tech . elective . . . .3
'Humanities/social
studies elect . . .
ZMech . engr . elect . . .3 'Humanities/social
'Tech . elect . . . . . .3 studies elect
Industrial
. .
Engr . 4520 . . . .3
TOTAL: 203 hours
"Humanities/social studies electives : minimum of 19 hours required .
=Mechanical engineering electives : senior courses in mechanical or aerospace engineering not otherwise required .
'Technical electives : upper-division courses in engineering, mathematics, or physics as approved by the department .

Cooperative Curriculum in Agricultural Engineering
(See College of Agriculture Section)
Cooperative Curriculum in Chemical Engineering
Students Working Spring and Fall Quarters-Group A
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . .4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . .4 Chemistry 1130 . . . . 4
English1010 or 1011 .3 English 1020 . . . . . . .3 WORK English 1033 . . . . . . .3
Graphics 1410 . . . . .3 Basic Engr. 1410 . . .2 Basic Engr . 1320 . . . 4
Basic Engr . 1310 . . .4 Basic Engr. 1330 . . .4 Graphics 1420 . . . . . 3
.
. .
.
SECOND
YEAR
WORK
Chemet. Engr.2010 .4
Chemistry 2140-49 .4
Math 2840 . . . . . . .4 WORK
Chemet. Engr. 2030 .4
Math 2850 . . . . . . . .4
ES&M 2720 . . . . . . .3
'Humanities/social
'Humanities/ social
studies elect . . . . . 4 studies elect . . . . . 4
Physics 2310. . . . . .3
.
THIRD
YEAR
WORK
Chemet. Engr. 2020 .4
Chem . Engr . 3410 . .4
Math 2860 . . . . . . . . .4
WORK
Chem : Engr . 3040 . .4
Chemistry 3211-19 . 4
Math 3150 . . . . . . . . 3
Physics 2320 . . . . . . . 3 Humanities/ social
studies elect . . . . . 4
.
.
FOURTH
YEAR
WORK
Chem . Engr . 3420 . .4
Chem . Engr .3050 . .4
Chem . Engr . 4110 . . 3
Chemistry 3221-29 ..4
WORK
Chem . Engr . 3440 . .3
Chem . Engr . 3610 . .3
Elec . En~r . 3120
or3130 . . . . . . . .3
Elec . Engr . 3110 . . . .3 Met . Engr . 3150 . . . . 3
'Humanities/social
studies elect . . . . 4
FIFTH Chemet. Engr. 2011 .0 Chem . Engr . 4410 . .3 Chem . Engr. 4220 . .3
YEAR Chem . Engr . 3620 . .3 Chem . Engr .4530 . .3 Chem . Engr. 4420 . .3
Chem . Engr . 3450 . .3 Chemet. Engr. 4320 .1 Major electives . . . . 3
Chemet. Engr. 4310 .1 Met . Engr . 3520 . . . .3 Technical elective . . 3
Chemistry 3430 . . . . 3 Chemistry 4110 . . . . 3 'Humanities/ social
Technical elective . . 3 Major electives . . . . 3 studies elect . . . . . 4
'Humanities/ social
studies elect . . . . . 4
Students Working Summerand Winter Quarters-Group B
TOTAL: 200 hours
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4
English1010 or 1011 .3 English 1020 . . . . . . . 3 English 1033 . . . . . . . 3 WORK
Graphics 1410 . . . . .3 Basic Engr. 1410 . . . 2 Basic Engr . 1320 . . . 4
Basic Engr . 1310 . . .4 Basic Engr. 1330 . . . 4 Graphics 1420 . . . . .3
.
.
SECOND Chemet. Engr. 2010 .4 Chemet . Engr . 2020 . 4
YEAR Chemet. Engr. 2011 . 0
Chemistry 2140-49 . 4
Math 2840 . . . . . . . . 4
'Humanities/ social
studies elect . . . . 4
WORK
Chemet . Engr . 2030 . 4
Math 28'50 . . . . . . . . . 4
Chem . Engr. 3410 . .4
WORK
. .
. . .
.
THIRD
YEAR
ES &M 2720 . . . . . . 3
Chem . Engr . 3040 . .4
Chem . Engr . 3420 . .4
Math 2860 . . . . . . 4
WORK
Elec . Engr 3110 . . . . 3
Physics 2320 . . . . . . . 3
Chemistry 3211-19 .4
Math 3150 . . . . . . . . .3
Physics 2310 . . . . . . 3 'Humanities/ social
studies elect . . . . . 4
WORK
FOURTH Chem . Engr .4110 . .3 Chem . Engr . 3440 _ 3
YEAR Chemistry 3221-29 . 4 Chem . Engr . 3610 . . 3
Elec . Engr . 3120 or WORK Chem . Engr . 3050 . . 4 WORK
3130 . . . . . . . . . . .3 Met . Engr . 3150 . . . .3
Humanities/ social
Humanities Isocial
studies elect . . . . . 4 studies elect . . . . .4
FIFTH Chem . Engr.3620 . .3 Chem . Engr. 4410 . .3 Chem . Engr . 4220 . .3
YEAR Chem . Engr . 3450 . .3 Chem . Engr.4530 . .3 Chem . Engr . 4420 . .3
Chemet. Engr . 4310 .1 Chemet . Engr . 4320 .1 Major elective . . . . . .3
Chemistry 3440 . . . . 3 Met. Engr. 3520 . . . . 3 Technical elective . .3
Technical elective . . 3 Chemistry 4110 . . . . 3 'Humanities/ social
'Humanities/ social Major elect . . . . . . . . 3 studies elect . . . . .4
studies elect . . . . . 4
TOTAL : 200 hours
'A minimum of one-half (12 quarter hours) of the humanities/ social studies electivesmust betaken from a single group
under one of the threeareas of the humanities and social studies electives .
College of Engineering

140 College of Engineering
Cooperative Curriculum in Nuclear Engineering
Students Working Spring and Fall Quarters-GroupA
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . . . . 4
YEAR Chemistry 1110 . . . .4 English 1020 . . . . . . . 3 English 1033 . . . . . . .3
English1010or1011 .3 Chemistry 1120 . . . . 4 WORK Chemistry 1130 . . . . 4
Graphics 1410 . . . . .3 Basic Engr.1410 . . . 2 Graphics 1420 . . . . . 3
Basic Engr. 1310 . . .4 Basic Engr. 1330 . . . 4 Basic Engr . 1320 . . . 4
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4
YEAR Physics 2310 . . . . . . .3 Physics 2320 . . . . . . . 3
WORK Met . Engr . 3110 . . . .4 WORK Engr . Sci . &
Nuc . Engr. 2310 . . . . 1 Mach . 3700'. . . . . 4
Humanities lsocial Nuc . Engr . 2320 . . . .1
studies elect . . . . 4 Humanities/ social
studies elect. . . . 4
THIRD Math 2860 . . . . . . . . . 4 Math 4610 . . . . . . . . . 3
YEAR Physics 3710 . . . . . . . 3 Nuc . Engr . 3210 . . . .4
WORK Engr . Sci . & WORK Elec . Engr . 3110. . . . 3
Mach . 3311 . . . . . 4 Math 3150 . . . . . . . . . 3
Nuc . Engr. 2330 . . . .1 Nuc . Engr . 3010 . . . .4
Humanities /social
studies elect . . . . 4
FOURTH Math 4710 . . . . . . . .3 Math 4550 . . . . . . . . . 3
YEAR Physics 3720 . . . . . . .3 Physics 3730 . . . . . . . 3
WORK Elec . Engr . 3120 . . . .3 WORK Indus . Engr . 4520 . .3
Nuc . Engr . 3220 . . . .4 Met . Engr . 3160 . . . .3
Humanities /social Humanities/ social
studies elect . . . . 4 studies elect . . . . 4
FIFTH Nuc . Engr . 4110 . . . . 3 Nuc . Engr . 4120 . . . .3 Nuc . Engr . 4130 . . . .3
YEAR Nuc . Engr . 4210 . . . . 3 Nuc . Engr . 4220 . . . .3 Nuc . Engr . 4230 . . . .3
Nuc.Engr.4710 . . . . 4 Nuc . Engr . 4720 . . . .4 Nuc . Engr . 4730 . . . .3
Nuc . Engr . 3150 . . . . 3 Nuc . Engr . 4820 . . . . 3 Nuc . Engr . 4810 . . . .3
Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3
Students Working Summerand Winter Quarters-Group B
TOTAL : 198 hours
Fall Winter Spring Summer
FIRST Math 1840 . . . . . . . . .4 Math 1850 . . . . . . . . . 4 Math 1860 . . . . . . , . . . 4
YEAR Chemistry 1110 . . . .4 English 1020 . . . . . . . 3 English 1033 . . . . . . .3
English1010or1011 .3 Chemistry 1120 . . . . 4 Chemistry 1130 . . . . 4 WORK
Graphics 1410 . . . . .3 Basic Engr . 1410 . . . 2 Graphics 1420 . . . . .3
Basic Engr . 1310 . . .4 Basic Engr . 1330 . . . 4 Basic Engr . 1320 . . . 4
SECOND Math 2840 . . . . . . . . . 4 Math 2850 . . . . . . . . . 4
YEAR Physics 2310 . . . . . . .3 Physics2320 . . . . . . . 3
Met . Engr . 3110 . . . . 4 WORK Engr . Sci . & WORK
Nuc . Engr .2310 . . . . 1 Mach . 3700 . . . . . 4
Humanities/ social Nuc . Engr . 2320 . . . . 1
studies elect . . . . 4 Humanities/ social
studies elect . . . . 4
THIRD Math 2860 .. . . . . . . . . 4 Math 4610 . . . . . . . . . 3
YEAR Physics 3710. . . . . . . 3 Elec . Engr.3110 . . . . 3
Engr . Sci . & WORK Math 3150 . . . . . . . . . 3 WORK
Mech . 3311 . . . . . 4 Physics 3720 . . . . . . . 3
Nuc . Engr .2330 . . . . 1 Humanities/ social
Humanities/ social studies elect. . . . 4
studies elect . . . . 4
FOURTH Math 4710 . . . . . . . . .3 Math 4550 . . . . . . . . . 3
YEAR Nuc . Engr .3210 . . . . 4 Nuc . Engr . 3220 . . . . 4
Nuc . Engr .3010 . . . . 4 WORK Met . Engr. 3160 . . . . 3 WORK
Elec . Engr. 3120 . . . .3 Ind . Engr .4520 . . . . . 3
Humanities/ social Physics 3730 . . . . . . . 3
studies elect . . . . 4
FIFTH Nuc.Engr.4110 . . . . 3 Nuc . Engr. 4120 . . . .3 Nuc . Engr . 4130 . . . .3
YEAR Nuc . Engr . 4210 . . . .3 Nuc . Engr. 4220 . . . . 3 Nuc . Engr . 4230 . . . .3
Nuc . Engr .4710 . . . . 4 Nuc . Engr. 4720 . . . .4 Nuc . Engr . 4730 . . . .3
Nuc . Engr . 3150 . . . .3 Nuc . Engr. 4820 . . .3 Nuc . Engr . 4810 . . . .3
Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3 Tech . elect . . . . . . . . . 3
TOTAL : 198 hours

Departments
of Instruction
Agricultural Engineering
(See College of Agriculture)
Basic Engineering
and Graphics
(Non-Departmental Unit)
Basic Engineering (179)
Coordinator : W.T . Snyder
1310 Basic Mechanics 1(4) Forces in a plane ; free
body diagram analysis ; equilibrium in two dimensions
; application to frames and machines ; friction ;
introduction to forces in space . Required of all engineering
students except engineering physics
majors. Coreq : Math 1840 . 4 hrs lec .
1320 Basic Mechanics II (4) Position and displacement
vectors ; particle kinetics using Newton's laws,
impulse-momentum, work-energy ; introduction to
simple harmonic motion . Prereq : 1310; coreq : Math
1850 . 4 hrs lec .
Coordinator : P.F . Pasqua
1330 Basic Thermodynamics (4) Introduction to
thermodynamics, fluid statics, and mechanics .
Buoyancy, forces on submerged surfaces ; Bernoulli's
equation ; first law of thermodynamics discussing
work, heat, and other forms of energy. Required
of all engineering students except engineering
physics majors . Prereq : 1310 ; coreq : Math 1850 . 3
hrs and one 3-hr lab .
1410 Engineering Computations (2) Familiarization
and introduction to the university computing systems
for problems . BASIC language. Prereq : Math
1840 . 2 hrs plus open computation lab .
Graphics (443)
Coordinator :
J.N . Snider
Basic Faculty :
Professors C.A . Newton (Emeritus), M.S .
Syracuse ; W.W. Thomas, Jr . (Emeritus), B.S .
Tennessee ; Associate Professors EX Boyce,
M.S . Tennessee ; W.A . Lyday, Jr ., M.S .
Tennessee .
1310-20-30 Fundamentals of EngineeringGraphics
(2, 2, 2) Graphic representation of three-dimensional
shapeand size by orthographic and pictorial projection
; sketching and dimensioning ; tolerances . Problem
solving utilizing spatial relationships and
graphical vector analysis, and graphic presentation
of engineering data . Must be taken in sequence .
Two 3-hr periods or three 2-hr periods .
1410-20 Fundamentals of Engineering Graphics (3,
3) Graphical representation of three-dimensional
shape and size ; space relationships . Graphical
presentation of engineering data . Required of all
engineering students . Must be taken in sequence .
One lecture and three 2-hr periods or two 3-hr
periods .
Engineering Studies
(Non-Departmental Unit)
Engineering Studies (338)
Coordinator : E.E . Stansbury
2100 Introduction to Engineering Methodology (4)
Introduces non-engineering students to representative
methods utilized in engineering in design, development,
operation, and evaluation of processes
and products for society ; use of physical laws and
examples of techniques such as modeling, systems
analysis, economic balances ; problems of resource
useand technology control ;thematic approach may
be used .
4100 History of Engineering (4) History of technology
and engineering with emphasis on identification
of and developments in major areas such as
transportation, communication, energy, manufacturing,
design, and materials . Relationship to social
and political structures of historical periods . Open
to all students .
4200 Technology Forecasting and Assessment (4)
Procedures and problems in forecasting of consequences
of existing and new technologies ; assessment
of and decisions on use of thesetechnologies .
Social, political, economic, and technological implications
of consequence-based assessment and
control of technology . Open to all students .
4300 The Interaction Between Science and Engineering
(4) Historical-to-current analysis of interactions
between science and engineeringpatterns
of mutual stimulation and of distinction .
Open to all students .
Chemical, Metallurgical,
and Polymer
Engineering
Professors :
H.F . Johnson (Head), D . Eng . Yale, P.E . ;
D.C . Bogue, Ph .D . Delaware ; C.R . Brooks, Jr .,
Ph .D . Tennessee ; E.S. Clark, Ph .D. California
(Berkeley) ; O.L . Culberson, Ph .D. Texas ;
L.W . Crawford*, Ph .D . Cincinnati ; J.F . Fellers,
Ph .D . Akron ; G.C . Frazier Jr ., D . Eng . Johns
Hopkins ; H.W. Hsu, Ph .D . Wisconsin ; S.H. Jury
(Emeritus), Ph .D . Cincinnati, P.E . ; C.D . Lundin,
Ph .D . Rensselaer Polytechnical Institute ;
C.F. Moore, Ph .D . Louisiana State;
E . B . Nauman, Ph .D . University of Leeds ;
B . F . Oliver, Ph .D . Pennsylvania State ;
J .J . Perona, Ph .D . Northwestern ;
J.W . Prados (Vice President for Academic
Affairs), Ph .D . Tennessee ; J.E . Spruiell,
Ph .D . Tennessee ; E.E . Stansbury',
Ph .D . Cincinnati ; C . 0. Thomas, Ph .D .
Tennessee ; J.L . White 2 , Ph .D . Delaware;
M.A . Wright% Ph .D. Wales .
Associate Professor :
W.T . Becker, Ph .D . Illinois . D.D. Bruns,
Ph .D. Houston ; P.J. Meschter, Ph .D .
Pennsylvania .
Lecturer :
G. D . Wigrall? Ph .D . Sheffield University .
'Alumni Distinguished Service Professor
ZDistinguished Professor
3Fionorary.
'Space Institute, Tullahoma
BACHELOR OF SCIENCE PROGRAM
Separate complete curricula are offered in
chemical engineering and in metallurgical
engineering . However, the first two years of
these curricula are identical and a decision as
to choice can be made in the third year . Both
curricula are arranged to provide a central
core of courses with flexibility in the
upper-division years to permit emphasis on
preparation for graduate study or technical
employment . Graduation in either chemical
or metallurgical engineering requires a
minimum grade point average of 2.00 for all
departmental courses .
GRADUATE STUDY PROGRAMS
Graduate programs leading to the degrees
of Master of Science and Doctor of
Philosophy with majors in chemical
engineering, metallurgical engineering, or
polymer engineering are offered .
A program leading to the M.S . and Ph .D .
degrees with specialization in polymer
science and engineering in chemical
engineering is conducted jointly with the
Department of Chemistry which offers a
degree with similar specialization .
These programs have been strengthened
College of Engineering
14 1
by fellowships or grants provided by
industrial companies including Dow, DuPont,
General Electric, Shell, Texaco, Procter and
Gamble, Celanese, Monsanto, American
Enka, Union Carbide, Stauffer, Owens
Corning, Cities Service, and Eastman Kodak,
and bygraduate fellowships and traineeships
provided by National Science Foundation .
Other aid to students has been available
through research assistantships on contracts
with industry and governmental agencies .
The University's Graduate School operates a
Resident Graduate Program at Oak Ridge,
Kingsport, and Chattanooga .
See the Graduate Catalog for detailed
information .
Chemical and Metallurgical
Engineering (227)
2010 Process Principles and Materials 1(4) Behavior
of gases . First and second laws of thermodynamics,
thermodynamic functions . Single and
multicomponent phase equilibria ; phase diagrams .
Prereq : Basic Engr . 1330, Chemistry 1120, Math
1860 . 3 hrs and 1 lab .
2011 Sophomore Inspection Trip (0) Inspection trip
to industrial plant . Usuallyscheduled in fall on ETEA
day. Required for chemical engineering and metallurgical
engineering majors . S/NC .
2020 Process Principles and Materials 11(4) Applications
of first and second laws of thermodynamics
to open systems, thermochemistry, and thermophysics
. P-V-T-H relationships for real substances
. Material and energy balances . Prereq :
2010. 3 hrs and 1 recitation period .
2030 Process Principles and Materials 111(4) Materials
structure-property relationships for metals,
inorganic and organic compounds, with emphasis
on mechanisms of controlof properties by chemical
composition, thermal and mechanical treatment ;
crystallography, imperfections, mechanical properties,
heat treatment, molecular weight, and particle
size distributions . Prereq : 2010 ; Chemistry 1130 . 3
hrs and 1 lab period .
2220 Analog Computer Practice (1) Introduction to
fundamentals of analog programming . Analog
computer facilities and analog simulation languages
will be emphasized . Prereq : Math 2840 ;
Physics 2310 or Elec . Engr. 3110 or consent of instructor
. One lab . S/NC .
2230 Mini Computer Practice (1) Use of mini computers
. Prereq : Basic Engineering 1410, or consent
of instructor. One lab . S/NC .
2240 Mini Computer Data Acquisition (1) Mini computers
for data acquisition . Prereq : 2230 or consent
of instructor . One lab . S/NC .
3100 Introduction to the Materials of Technology
(4) Examination of sources, processing, and properties
of metallic, ceramic, polymeric, and composite
materials based upon an historical perspective and
current practices in technology, architecture, and
art . Lectures and demonstrations . Open to students
in all colleges . Prereq : Introductory science course .
4310-20 Seminar (1,1) Presentation and discussion
of economic, political, humanistic, and other topics
of interest to chemical and metallurgical engineers .
S/NC .
Chemical Engineering (226)
3010 Industrial Inspection Trips (1) Technology of
chemical process industries emphasizing Tennessee
industry ; plant trips . S/NC .
3040 Chemical Engineering Thermodynamics (4)
Applications of the second law of thermodynamics
to physical and chemical processes and thermodynamic
cycles ; applications of the Gibbs function
to one, two, and three phase chemical systems ;
useof tabular and graphical data in equilibrium calculations
. Prereq : Chemet . Engr . 2020; Chemistry
1130 ; coreq : Math 2840 . 3 hrs and 1 lab period .
3050 Thermophysical Properties (4) Estimation of
properties of gases, liquids, and solutions . Absorption
phenomena, emulsions . Prereq : 3040 .

142 College of Engineering
3230 Special Problems (3) Investigation of chemical
engineering problems .
3410 Flow of Fluids (4) Differential and overall
momentum balances, mechanical energy balances ;
flow in tubes, piping systems, and packed beds ;
metering devices, pumps. Prereq : Chemet . Engr .
2020, Math 2850 . 3 hrs and 1 lab .
3420 Heat Transfer (4) Differential and overall energy
balances ; steady and unsteady state, heat conduction
in simple geometries ; heat transfer in tubes
and heat exchangers ; condensation and boiling
radiation . Prereq : 3410 . 3 hrs and 1 lab .
3440 Stagewise Operations (3) Analytical and
graphical methods to stagewise separatory operations
. Prereq : Chemet . Engr . 3040 .
3450 Diffusional Operations (3) Diffusion simultaneousheat
and mass transfer, applications including
humidification, gas absorption, extraction . Prereq
: 3420, Chemet Engr . 3040 .
3610 Introduction to Process Dynamics and Control
(3) Introduction to concepts of process
dynamics and control . Steady-state analysis of
chemical process control systems . Unsteady state
nature of chemical processes . LaPlace transform
techniques, block diagram algebra, and transfer
functions . Mathematical models for several processes
are developed and analyzed in detail . Prereq :
Math 2840 .
3620 Chemical Process Control (3) Basic control
theory applied to chemical processes : feedback
control systems, cascade control, feed-forward control,
stability analysis, frequency response . Survey
of modern control of typical industrial unit operations
. Pererq : 3610 .
4010-20 Thesis (3, 3) Investigation and report of
elementary chemical engineering problem .
4110 Chemical Engineering Data Analysis (3) Analytical
and experimental identification of system extremals
; statistical properties of samplesand source
systems ; empirical modeling of processes ; statistical
process control . Prereq : 3420, Math 3150 .
4120 Probabilistic Chemical Engineering Systems
(3) Experiment designs, simulation of stochastic
systems, predictive techniques, and analysis of networks
in the process industries . Prereq : 4110.
4130 Introduction to Optimization (3) Principles and
applications of optimization techniques to chemical
process design ; unconstrained optimization, equality
constrained optimization, inequality constrained
optimization, and dynamic programming . Prereq :
Math 2840.
4220 Chemical Engineering Laboratory (3) Laboratory
investigations of controlling factors in chemical
engineering operations . Prereq : 3440-50, 3620,
4530.
4230 Project Laboratory (3) Laboratory investigation
of chemical engineering problem, stressing
techniques of group effort. May be repeated .
4410 Design of Separation Processes (3) Mass
transfer theory applied to design of materials separation
processes . Prereq : 3440-50 .
4420 Process Design and Economic Analysis (3)
Developmentof basic information on a process into
an integrated plant design considering mass and
energy balances . Product specifications, equipment
characteristics, capital investment, operating costs,
and economic merit . Prereq : 4410, 4530.
4430 Special Problems in Design and Economics
(3) Extension of 4420 for student participation in A .I .
Ch . E . annua l contest problem ; other advanced design
projects. Prereq : 4420 .
4450 Hydrocarbon Processing (3) Study of specialized
characterization of physical properties of
fossil fuel raw materials and products, and of processes
for conversion of fossil fuel raw materials into
products needed in industrial energy, industrial raw
material and consumer markets . Prereq : 3440.
4470 Sulfur Removal from Coal and Associated
Problems (3) Chemical and physical properties of
domestic coals, sulfur distributions ; beneficiation
by both physical and chemical methods ; fluidized
bed combustion with both natural and synthetic SOx
sorbents ; stackgas SOxscrubbing . Prereq : Consent
of instructor .
4480 Coal Processing to Liquid Fuels (3) Characterization
of various coals with respect to current
liquification methods ; modeling of conversion
processes and estimation of maximum yields ; water
and oxygen requirements ; pyrolysis ; catalytic hydrogenation
; reactor design considerations ; review
and critique of selected articles from both the current
literature and patents . Prereq : Consent of instructor.
4530 Chemical Engineering Reaction Kinetics (3)
Chemical reaction rates in closed and flow systems ;
interpretation of laboratory and pilot plant data ;
reactor design . Prereq : 3420, Chemet . Engr. 3040,
Chemistry 3430.
4540 Fluid-Solid Operations (3) Heat and mass
transport in fixed and fluidized beds : applications
include absorption, ion exchange, crystallization .
Prereq :3440-50 .
4620 Process Modeling, Simulation, and Control of
Chemical Processes (3) Development of process
models, experimental process identification, process
computer simulation, conventional and nonconventional
feedback control, advanced control
concepts. Prereq : 3620 or equivalent background in
basic control theory and differential equations .
4730 Mass and Energy Flow in Biological Systems
(3) Basic physiochemical and organizational principles
applicable to biological systems . Derivations of
general equations of biomass and energy transfer .
Thermodynamics of transport and equilibrium in
biological systems. Discussion of Volterra's equation
and biological clocks, etc. Prereq : Consent of
instructor.
4740 Introduction to Transport Phenomena In
Biological Systems (3) Application of principles of
transport phenomena to biological systems . Transfer
of chemical energy and various cellular active
transports ; structure and rheology of physiological
fluids, membrane and interfacial phenomena ;
analysis and design of artificial organs. Prereq : 3440
and 3450, or consent of instructor .
4750 Microbiological Process Engineering (3) Application
of chemical engineering principles and
design concept to microbiological processes ; continuous
culture of microorganisms, food processing
and pharmaceutical processes . Prereq : 3440, 3450,
or consent of instructor .
4760 Principles of BiochemicalSeparation (3) Fundamental
aspects and similarities of modern
biochemical separation methods ; classroom demonstrations,
design of production and analytical systems.
Prereq : Consent of instructor .
4781-82-83 Topics In Chemical Bioengineering (3,
3, 3) Problems of interest in chemical bioengineering
. Prereq : Consent of instructor.
4900 SpecialProblems In Chemical Engineering (3)
Chemical engineering problems related to recent
developments in industrial practice or engineering
research . Prereq : Consent of instructor. May be repeated
. Maximum credit 9 hrs.
GRADUATE
5000 Thesis
5010 Graduate Seminar (1)
5050 Engineering Analysis (3)
5120 Heat Convection (3)
5130 Methods of Optimization (3)
5210 Process Dynamics (3)
5250 Chemical Process Industry Economics (3)
5310 Thermodynamics of Heterogeneous Equilibrium
(3)
5320 Statistical Thermodynamics (3)
5510 Chemical Reactor Design (3)
5610 Stagewise Mass Transfer Operations (3)
5620 Differential Mass Transfer Operations (3)
5810 Mechanics of Viscous Flow (3)
5900 Special Topics in Chemical Engineering
6000 Doctoral Research and Dissertation
6130 Process Optimization (3)
6210 Advanced Diffusional Operations (3)
6250 VentureAnalysis in the Process Industries (3)
6310 Thermodynamics of Irreversible Processes
(3)
6320 Statistical Thermodynamics of Non-equilibrium
Systems (3)
6410 Stability Phenomena In Chemical Engineering:
Discrete Systems (3)
6420 Stability Phenomena in Chemical Engineer-
Ing: Continuous Systems (3)
6510 Applied Chemical Reaction Kinetics (3)
6520 Catalytic Reactor Design (3)
6710 Process Dynamics (3)
6900Advanced Topics of Chemical Engineering (3)
Metallurgical Engineering (679)
2110 Engineering Materials 1 (3) Introductory
course correlating the atomic, crystal, and microstructure
of solids and mechanical, physical, and
chemical properties of engineering significance . 3
hrs or 2 hrs and 1 lab .
2210 Electron Microscopy (1) Presents to science
and engineering students a brief introduction to the
operation of the electron microscope and its applications
to scientific problems. Prereq : Physics
2310-20 . 3-hr lab . S/NC .
3010 Industrial Inspection Trips (1) Technology of
metallurgical industries, emphasizing Tennessee
industry ; plant trips . S/NC .
3040 Metallurgical Thermodynamics (4) Applications
of laws of thermodynamics to problems of
metallurgical interest . Second law and entropy ; auxiliary
functions ; relationship between free energies
and phase diagrams ; reaction equilibria in gases
and between gases and condensed phases. Use of
heat capacity and free energy data in calculations .
Concepts of activityand activity coefficient and their
variation with T, P, and composition . Prereq :
Chemet . Engr . 2020 ; Chemistry 1130 ; coreq : Math
2840 . 3 hrs and 1 lab period .
3050 Production Metallurgy (3) Thermodynamic
and kineticprinciples of roasting, smelting, refining .
Prereq : Chemet . Engr. 3040 .
3060 Metallurgical Kinetics (3) Application of principles
of chemical reaction kinetics, fluid flow, and
heat and mass transfer, to pyro-, hydro-, and eiectrometallurgical
processing . Reaction order and
basic rate laws ; activated complex theory ; principles
of adsorption and catalysis. Consideration of
processes such as roasting of sulfides, reduction of
oxides, smelting, refining, electrolysis, and leaching
. Prereq : Met. Engr .3050 ; Chem. Engr. 3410 and
3420 or equivalent . 3 hrs or 2 hrs and 1 lab .
3110 Engineering Materials 1 (4) Introductory
course correlating the atomic, crystal, and microstructure
of solids with mechanical, physical, and
chemical properties of engineering significance . 3
hrs and 1 lab .
3120 Engineering Materials II (3) Extension of 2110
with emphasis on control of mechanical properties
of materials by specification of composition, thermal,
and mechanical treatment ; correlation of resultant
properties with service performance . Suggested
for mechanical, civil, and industrial engineering
students .
3130 Engineering Materials 111 (3) Extension of 2110
with emphasis on control of electrical and magnetic
properties of materials by specification of composition,
thermal, and mechanical treatment ; correlation
of resultant properties with service
performance . Suggested for electrical engineering
students .
3140 Engineering Material IV (3) Extension of 2110
with emphasis on materials processing, specification,
and evaluation . Suggested for mechanical and
industrial engineering students .
3150 Engineering Materials V (3) Extension of 3110
with emphasis on mechanisms and control of reactions
of engineering materials with aqueous, nonaqueous,
and gaseous environments . Prereq : 2110
or 3110 or Chemet. Engr . 2030 .

3160 Engineering Materials VI (3) Extension of 2110
with emphasis on materials of significance in nuclear
engineering ; nuclear reactor construction materials,
nuclear fuel materials, and interaction of
radiation with solids to produce changes in engineering
properties . Suggested for nuclear and
mechanical engineers .
3170 Engineering Materials Vil (3) Extension of
2110 to biomedical applications of materials . Engineering
materials in biomedical applications ;
metals, polymers, and ceramics ; prosthetic devices ;
dental applications ; corrosion problems ; failure
analysis ; fabrication . Prereq : 2110 or equivalent .
3210 Plastic Deformation (4) Phenomena and
theory of plasticity of single and polycrystalline materials
. Applicable concepts of crystallography and
x-ray diffraction ; use of stereographic projections.
Prereq : Chemet . Engr . 2030 . 3 hrs and 1 lab .
3220 Diffusion and Annealing (3) Introduction to
solid state kinetics : point defects, solid solutions,
diffusion equations and mechanisms, annealing of
cold worked structures . Prereq : 3040.
3230 Phase Transformations (4) Thermodynamic
and structural factors governing binary equilibrium .
Ternary systems . Kinetics and morphology of precipitation
and phase transformations in simple and
complex systems . Prereq : 3220. 3 hrs and 1 lab .
3310 Biomedical Applications of Materials for Life
Scientists (3) Principles of engineering materials ;
metals, polymers, and ceramics ; methods of fabricstion
of components ; corrosion ; applications of
prosthetic devices and dental materials . Prereq :
Chemistry 1110-20-30 or equivalent .
3520 Materials Behavior and Chemical Process
Equipment Design (3) Mechanical, metallurgical,
and chemical considerations in design of chemical
processing equipment . Prereq : Chemet . Engr . 2030
or equivalent ; 3150 ; Chem . Engr . 3420 . (Same as
Engineering Mechanics 3520.)
3710 Metallurgical Applications in Manufacturing
Technology (3) Fabrication methods and principles
of mechanical/thermal processing for finished and
semi-finished articles ; casting, powder metallurgy,
plastic forming, joining, heat treatment . Prereq :
2110 .
4010-20 Thesis (3-6, 3-6) Investigation and report on
metallurgical engineering problem .
4230 Project Laboratory (3) Group or individual investigation
of problems related to metallurgical enginering
or materials science . May be repeated for a
maximum of 9 credits. Prereq : Minimum of one
course beyond 2110, 3110 or Chemet . Engr . 2030 .
4240 Engineering Materials Design (3) Property
control through composition, heat treatment, and
transformation in ferrous alloys. Plain carbon steels,
alloy steels, and tool steel processing for property
selection and service requirements . Prereq : 3230 or
consent of instructor .
4250 Design and Analysis (3) Design and laboratory
sessions on analysis of materials requirements and
performance in engineering structures and components.
Prereq : Senior standing .
4510-20 X-Ray Diffraction and Crystallography (3,
3) Lectures and laboratory work in crystallography,
projections, x-rays, diffraction phenomena, and
techniques ; introduction to structure determinations
. First quarter serves as introduction to subject .
2 hrs and 1 lab .
4540 Fracture-Safe Design (3) (Same as Engr. Sci .
and Mech . 4540 .)
4610 Physical Properties of Materials (3) Electron
theory of solids, types of bonding in solids ; thermal,
electrical, and magnetic properties of material ; relationship
between metallurgical structure and properties
. Prereq : 3 hrs or 2 hrs and 1 lab .
4730 Mechanical Metallurgy 1(3) Elastic behavior .
Description of stress, strain, and elastic constitutive
relations . Effects of composition, microstructure,
and loading on mechanical behavior . Failure by
yielding . 2 hrs and 1 lab or 3 hrs . Prereq : 2110 or
Chemet . Engr. 2030, and Engr . Sci . & Mech . 3311 .
Also suggested for mechanical engineering, engineering
mechanics, and engineering science students
.
4740 Mechanical Metallurgy If (3) Ductileand brittle
fracture, creep and stress rupture, fatigue, and residual
stresses . Effects of state of stress, loading
rate, time, temperature, and metallurgical structure .
2 hrs and 1 lab or 3 hrs . Prereq : 3120 or 3230, and
4730 or Mech . Engr . 3650 or consent of instructor .
Also suggested for mechanical engineering, engineering
mechanics, or engineering science students
.
4760 Casting and Welding (3) Principles and processes
of casting and welding : heat transfer, solidification,
segregation, gas-metal and slag-metal interactions,
thermal treatments, associated stresses .
Prereq : 3120 or 3230 . 3 hrs or 2 hrs and 1 lab .
4770 Mechanical Metallurgy III (3) Finite plastic
strain . Plastic stress-strain relations . Principles of
fabrication : forging, swagging, extrusion, rolling,
deep drawing . 2 hrs and 1 lab or3 hrs . Prereq : 4730
or consent of instructor. Also suggested for mechanical
engineering, engineering mechanics, and
engineering science majors .
GRADUATE
5000 Thesis
5010 Graduate Seminar (1)
5050 Engineering Analysis (3)
5110 Point Defects and Dislocations (3)
5120 Plastic Deformation 1(3)
5130 Plastic Deformation II (3)
5140 Diffusion and Annealing in Solids (3)
5150 Phase Transformations (3)
5170-80 Plastic Deformation (3, 3)
5210-20-30 Welding Metallurgy (3, 3, 3)
5310 Solidification and Crystal Growth I (3)
5410-20-30 Advanced X-Ray Diffraction (3, 3, 3)
5510-20 Applied Properties of Solids (3, 3)
5540-50 Electron Microscopy I and II (3, 3)
5610-20 Radiation Effects on Materials (3, 3)
5750 Corrosion (3)
5610-20-30 Special Topics in Metallurgy (3, 3, 3)
5840-50 Metallurgy of Deformation and Fracture (3,
3)
5910-20-30 Metallurgical Thermodynamics (3, 3, 3)
6000 Doctoral Research and Dissertation
6110-20-30 Theoretical Metallurgy (3, 3, 3)
6210-20-30 Rate Processes In Metallurgy (3, 3, 3)
6320-30 Solidification and Crystal Growth If and III
(3,3)
6410-20 Thermodynamics of Solids (3, 3)
6810 Mechanical and Physical Properties of Crystals
1(3)
6820 Mechanical and Physical Properties of Crystals
If (3)
6830 Seminar In Anisotropic Properties of Crystals
(3)
Polymer Engineering (805)
4230-40 Project Laboratory (3, 3) Laboratory investigation
of polymer engineering problem . Written
report required for each quarter.
4910 Applied Polymer Science (3) First course in
physical properties of polymers. Polymer structure,
crystalline and glass transitions, physical properties
of amorphous and crystalline polymers, crystallization
kinetics, and mechanical properties are discussed
. Prereq : Senior standing in engineering or
science . Not for graduate credit by polymer engineering
majors .
4920 Polymer Processing (3) Rheological properties
of polymer meltsand solutions, viscometry ; unit
operations of fiber, plastics, and rubber industries :
dimensional analysis and scale-up, flow through
dies and pipelines, screw extrusion, spinning of fibers,
injection molding . Prereq : Senior standing in
College of Engineering
143
engineering or science . Not for graduate credit by
polymer engineering majors .
4930 Principles of Fiber Textile Engineering (3)
Chemical and crystalline structure of important fibers
; melt, wet and dryspinning of man-made fibers ;
drawing and texturizing ; preparation of yarn ; dyeing,
weaving, and knitting . Emphasison quantitative
aspects . Prereq : Senior standing in engineering or
science .
4940 Plastics Fabrication Operations (3) Lecture
and laboratory course treating unit operations of
plastics industry. Types and mechanisms of operation
of machinery used and structure and properties
of fabricated parts . Operations to include extrusion,
co-extrusion, injection molding including structural
foam, thermoforming, blow molding, rotational
molding, etc . Prereq : Senior standing in engineering
or science .
GRADUATE
5000 Thesis
5010 Graduate Seminar (1)
5050 Engineering Analysis (3)
5110 Structural Characterization fo Polymers (3)
5210 Mechanics of Polymer Fluids and Solids (3)
5230 Mechanical Behavior of Solid Polymers (3)
5310 Polymer Solution Properties and Characterization
(3)
5410 Rheology and Polymer Processing (3)
5510 Modern Research Tools and Instruments for
Polymer Science (3)
5710 Phase Transformations In Polymer Systems
(3)
5810 Physical Properties of Polymer Structures (3)
5910-20-30 Selected Topics in Polymer Science (3,
3,3)
6000 Doctoral Research and Dissertation
6110 Optical Properties of Polymer (3)
6150 Advanced X-Ray Diffraction Methods for
Characterization of Macromolecules (3)
6210 Non-Linear Viscoelasticity (3)
6220Advanced Methods in PolymerProcessing (3)
6230 Advanced Mechanical Behavior of Polymers
(3)
6610 Advanced Industrial Polymer Chemistry (3)
6910-20-30 Recent Advances in Polymer Science
and Engineering (3, 3, 3)
Civil Engineering
Including Environmental Engineering
Professors :
W. L . Grecco (Head, Ph .D. Michigan State,
P . E . ; O. S . Beard, .D . American University ;
E . G. Burdette, Ph .D. Illinois, P.E . ; F . A . Gifford,
Ph .D. Pennsylvania State ; D . W. Goodpasture,
Ph .D. Illinois, P.E . ; W. A . Goodwin,
M.S .C .E . Kentucky, P.E . ; K . W. Heathington,
Ph .D . Northwestern, P.E . ; J . B . Humphreys,
Ph .D . Texas A & M, P.E . ; F. C . Larson
(Emeritus), M .S . Virginia Polytechnic,
P.E . ; R . A . Minear, Ph .D . Washington ;
D . E . Overton, Ph .D . Maryland ;
E . G . Shelton (Emeritus), M .C .E . Brooklyn
Polytechnic Institute ; B . A . Tschantz, Sc .D . New
Mexico State, P.E . ; C . R . Walker, M.S.
Massachusetts Institute of Technology, P.E . ;
F . J . Wegmann, Ph .D . Northwestern .
Associate Professors :
W. F. Brandes (Director, Water Resources
Research Center), M.S. Illinois ; A . Chatterjee,
Ph .D . North Carolina State ; R . L . Church,
Ph .D . Johns Hopkins ; W. T . Davis,
Ph .D . Tennessee ; B . J . Frederick, B.C.E .
Clarkson College of Technology, P.E . ;
J . H . Hansen% Ph .D. Missouri ;
D . C . Jameson, Jr., M.S . Tennessee, P.E . ;
A . B . Moore, M.S. Tennessee ; R.R .F . Tiry,
B.S . Marquette, P.E . ; D . W. Wester,
Ph .D. Purdue, P.E.

144 College of Engineering
Assistant Professors :
P . D . Bernal, Ph .D . Tennessee ;
G. A . Briggs, Ph .D . Pennsylvania State ;
S. L . Hanna, Ph .D. Pennsylvania State ;
E . S. Houghland, Ph .D . VPI & SU ;
R . B . Jackson, Ph .D. Illinois.
'Space Institute, Tullahoma
BACHELOR OF SCIENCE PROGRAM
The curriculum in civil engineering is
designed to provide training in fundamental
engineering sciences, certain non-technical
subjects and basic subjects in various civil
engineering fields to serve as a basis for
entrance into civil engineering practice,
and/orforgraduate study . By use of technical
electives (27 hours maximum), a student can
specialize as primary or secondary areas of
study in construction, environmental
engineering, structures, transportation, or
water resources . Primary specialization will
be shown on student's transcript .
Students are required to maintain a
cumulative grade point average of at least
2.00 in all civil engineering and environmental
engineering courses taken at The University
of Tennessee, Knoxville, and used to satisfy
the graduation requirements .
MASTER OF SCIENCE AND
MASTER OF ENGINEERING PROGRAMS
Graduate programs in civil engineering and
environmental engineering leading to the
degree of Master of Engineering are offered
to graduates of recognized undergraduate
curricula .
The general requirements for the masters'
degrees are stated in the Graduate Catalog .
DOCTORAL PROGRAM
Graduate work leading to the degree of
Doctor of Philosophy with a major in civil
engineering is offered . Major fields of study
include environmental engineering,
structural engineering, transportation,
construction management, and water
resources .
The general requirements for the doctoral
degree are stated in the Graduate Catalog .
Civil Engineering (254)
2260 Engineering Surveys (4) Mensuration through
the application of surveying techniques ; the theory
of errors and their analysis; fundamental concepts
of horizontal, vertical, and angular measurement ;
basicsurveying operationsand computations . 3 hrs .
lectures and one 3 hr . lab . Prereq : Math 1850 .
2310 Seminar (1) Presentation and discussion of
topics related to civil engineering .
2360RoutsSurveying (3) Emphasis on basic principles
and practical applications of horizontal and
vertical alignment of transportation routes, specifically
covering simple, compound, reverse and
parabolic curves and spirals. Earthwork computations
. Prereq : 2260 .
3210 Stresses in Framed Structures (3) Reactions,
moments, shears, and stresses in trusses and
framed structures from fixed loads ; influence lines
for reactions, moments, and shears ; and graphic
statics . Prereq : Engr . Sci . & Mach . 3311 .
3230 Design of Framed Structures (3) Selection of
rolled beams ; design of compression and tension
members for axial and combined axial and bending
stresses . Prereq : 3210.
3310 Physical Properties of Soils (3) Introduction to
soils as a construction material, determination of
physical properties of soils, factors affecting physical
properties of soils. 2 hrs of lecture and 1 lab .
Prereq : Engr . Sci . & Mach . 3110 and 3311 .
3320 Computer Applications in Civil Engineering
(1) Solution of Civil Engineering problems through
the use of digital computers . Prereq : Basic Engr .
1410 .
3380 Surveying Practice (3) Route surveying procedures
. Two 3-hr labs. Coreq : 2360.
3600 Transportation Planning (3) Emphasis on
transportation problems and perspectives, both
rural and urban ; use of the planning process to establish
existing travel patterns, modeling of demand,
proposing alternatives and their evaluation,
and plan implementation . Prereq : Junior standing .
3610 Transportation Engineering (3) Introductory
course on design, construction, maintenance, and
operation of various transportation modes, their
guideways and terminals . Prereq : Junior standing .
3710 Materials of Construction (3) Physical and mechanical
properties of specific construction materials,
behavior of materials and structures under load,
ferrous and nonferrous metals, cements, concrete,
asphalt, and wood . 2 lectures and 1 lab . Prereq :
Engr . Sci . & Mach . 3311 .
4110 Concrete Design (3) Reinforced concrete
beamsand columns ; use of standard specifications .
Prereq : 3210 and 3710 .
4120 Concrete Design (3) Reinforced concrete continuous
beams and floor slabs ; footings and retaining
walls . Prereq : 4110 and 4410.
4220 Foundations and Substructures (3) Foundation
explorations ; principles of design of dry and
subaqueous foundations . Prereq : 3310 .
4230 Legal and Ethical Aspects of Engineering (3)
Legal principles underlying engineering work ; laws
of contracts, torts, agency, real property ; problems
of professional registration and ethics .
4240 Structural Design (3) Plate girders, composite
steel and concrete beams, connections and details,
and design of small industrial buildings . Two 3-hr
periods . Prereq : 3230 and 4410 .
4260 Photogrammetry (3) Methods of plotting maps
from aerial photographs ; stereoscopic plotting instruments
; applications . Prereq : 2360, or Forestry
Summer Camp for forestry majors .
4320-30 Seminar (1,1) Selected topics dealing with
historical and modern civil engineering achievements
and professional and ethical responsibilities.
Prereq : Senior standing and completion of alljunior
level non-elective engineering courses .
4410 Deflections and Statically Indeterminate
Structures (3) Deflections of beams and trusses ;
analysis of indeterminate beams, trusses, bents, and
frames . Prereq : 3210 .
4420 Analysis of Framed Structures (3) Maximum
stresses due to moving loads ; uses of influence
lines ; lateral forces due to earthquake and wind ;
analysis of portals, building frames, and space
frames . Coreq : 4410 .
4430 Construction Methods and Equipment (3)
Fundamental operations in construction and selection
of equipment ; production rates, balancing of
equipment, and cost estimates . Prereq : 3710.
4460 Land Surveying (3) Procedures of locating
properties ; evaluating evidence ; procedures to describe
property, to create land divisions, and to prepare
plots ; laws of land surveying . Prereq : 2260 or
equivalent .
4510-20 Advanced Structural Design (3, 3) Plastic
design in steel in 4510 ; design of typical short span
highwaybridges in 4520. Prereq : 3230 for4510 ; 3230
and 4110 for 4520 .
4530 Cost Comparisons in Design and Construction
(3) Cost of engineering and construction . Cost
comparison of alternate designs with emphasis on
applications to civil engineering problems. Prereq :
4430 .
4540 Computer Utilization (3) Computer use, economic
justification, and extent of use by industry .
Utilization of computers for solution of civil engineering
problems . Prereq : 3320 .
4550 Engineering Behavior of Soils (3) Plastic and
elastic behavior of soils, determination and use of
engineering properties of in-situ soils . 2 hrs of lecture
and 1 lab . Prereq : 4220 or consent of instructor.
4560 Stabilization of Soils (3) Mechanical stabilization
of soils by compaction, drainage, and blending ;
chemical stabilization of soils with admixtures ;
water-proofing and modifying soils with additives . 2
hrs of lecture and 1 lab . Prereq : 3310 .
4600 Highway Engineering 1(3) Design, construction,
operation, and maintenance of highway
facilities ; includes integration of system planning
and project planning to design and construction
procedures . Prereq : 2360, 3600 and 3610 .
4620 Airport Planning and Design 1(3) Emphasison
airport master planning . Included for consideration
on the air side are runway configuration, capacity,
geometrics, and lighting ; and on the land side are
included terminal layout and design, and ground
access systems and parking . Prereq : 3600, 3610 .
4640 Traffic Engineering (3) Characteristics of
driver, vehicle, and roadway and their interrelationship
; traffic studies ; basic considerations of traffic
circulation and control ; elements of urban transportation
planning studies. Prereq : Senior standing .
4650 Highway Engineering II (3) Integration and
application of various engineering principles and
techniques to process of planning, locating, and
design of highway facility through comprehensive
team project . 1 lecture and 2 labs . Prereq : 4600.
4660 Airport Planning and Design II (3) Integration
and application of principles of airport master planning
for purpose of site selection and design of an
airport facility through comprehensive team
project; includes environmental evaluation of design
. 1 lecture and 2 labs . Prereq : 4620.
4710 Portland Cement Concrete Mix Design (3)
Properties and tests of portland cement concrete,
methods of concrete mix deisgn, non-destructive
concrete evaluation testing, use of concrete admixtures
. 2 lectures and 1 lab . Prereq : 3710 .
4720 Asphalt and Bituminous Concrete (3) Properties
and tests of asphalts and asphaltic mixes, mix
design and bituminous concrete. Emphasis on use
of asphalt in transportation construction projects . 2
lectures and 1 lab . Prereq : 3710 .
4731-32 Earthquake Resistant Structure 1, II (4, 4)
(Same as Architecture 4731-32.)
4800 Introduction to Civil Engineering Systems (3)
Methods of modeling civil engineering systems and
their specific application to problems of transportation,
environment, water resources, and materials .
Prereq : Senior standing or consent of instructor .
4850 Elementary Structural Matrix Methods (4)
(Same as Architecture 4850 and Engineering Science
and Mechanics 4850.)
4860 Structural Wood Design (3) The application of
structural design principles to structural members
of various combinations of wood products. Beams,
columns, and diaphragmconstruction with plywood
are covered in some detail . Attention is given to
various types of fastenings and connections . Prereq
: 3230.
4880 Civil Engineering Systems Design and Management(3)
Introduction to basicsystems engineering
concepts within a civil engineering context ; discussion
of the role of decision maker and use of
optimal principles in engineering planning . Prereq :
Computer Science 3150 .
4910-20 Special Topics (1-3) Problems relating to
recent developments and current practice in civil
engineering through supervised self-study . Prereq :
Consent of individual instructor and approved by
department head . May be repeated .
GRADUATE
5000 Thesis
5002 Non-Thesis Graduation Completion (3-15)
5110-20 Statically Indeterminate Structures (3, 3)
5140 Statically Indeterminate Structures (3)
5150 Matrix Formulationof Structural Problems (3)
5160 Analysis and Design of Plate Structures (3)
5170 Introduction to Structural Dynamics (3)
5180 Finite Element Structural Analysis (3)

5220 Pavement Design (3)
5240 Advanced Properties of Materials : Cement
and Concrete (3)
5250 Advanced Properties of Materials : Bituminous
Substances and Mixes (3)
5270 Planning and Transportation (3)
5310 Engineering Practice (3)
5320-30 Engineering Practice Applied to Administration
of Engineering Projects (3, 3)
5420 Structural Model Analysis (3)
5430-40-50 Construction Management 1, 11, 111(3, 3,
3)
5460-70 Construction Estimating 1, 11 (3, 3)
5550 Soil Mechanics-Plastic Equilibrium (3)
5560 Soil Mechanics-Elastic Behavior (3)
5570 Soil Mechanics-Seepage (3)
5610 Behavior of Steel Structures (3)
5730 Prestressed Concrete (3)
5740 Behavior of Reinforced Concrete Members
(3)
5800 Urban Systems : Engineering and Management
1(3)
5805 Urban Systems : Engineering and Management
II (3)
5810 Traffic Engineering-Characteristics (3)
5820 Traffic Engineering-Operations (3)
5840 Geometric Design (3)
5850 Functional Design of City Streets and Urban
Freeways (3)
5860 Urban Transportation Planning (3)
5870 Public Transit Planning (3)
5690 Traffic Accident Reconstruction (3)
5900 Special Problems in Civil Engineering (1-9)
5910-20-30 Special Topics (3, 3, 3)
6000 Doctoral Research and Dissertation
6610 Behavior of Steel Bridges and Buildings (3)
6740 Behavior of Reinforced Concrete Beams and
Frames (3)
6750 Behavior of Reinforced Concrete Slabs (3)
6830 Traffic Flow Theory (3)
6860 Statewide Passenger Transportation Planning
(3)
6870 Future Transit Technology and Research (3)
6880 Planning Models forTransportationSystems I
(3)
6890 Planning Models for Transportation Systems
6910-20-30 SpecialTopics in Civil Engineering (3, 3,
3)
Environmental Engineering (344)
3000 Introduction to Environmental Engineering (3)
Introduction to humans' interaction with the air, water,
and land environment in which they live ; role of
engineering in environmental control . Prereq :
Junior standing .
3120 Hydraulics (3) Application of basic and developed
principles of hydraulics. Flow measurement
; flow in closed conduits ; uniform and nonuniform
open channel flow ; pumps and turbines ;
basic hydrodynamics; flow similitude and models .
Two lectures and one 3-hr lab . Prereq : Engr . Mach .
3110 .
3330 Elementary Hydrology(3) Elements of hydrology
including both descriptive and quantitative aspects
. Prereq : Engr. Mech . 3110 .
4030 Environmental Engineering Chemistry (3)
Fundamentals of chemistry related to generation,
formation analysis, and removal of environment
contaminants . Prereq : Chemistry 1130 and senior
standing .
4150 Urban Water Management (3) Introduction to
urban water modeling ; evaluation of optimum urban
water policies ; formulation of system constraints
and analysis of decision-making process ; management
of storm waterfor beneficial use . Prereq : 3330 .
4210 Water Resources Engineering Design (3)
Elements of water resource structures and systems,
including reservoirs, dams, control works, and open
channel design . Dam safety control ; environmental
impact of reservoir projects . Prereq : 3330 or consent
of instructor .
4220 Water Resources Engineering Development
(3) Multi-objective evaluation procedures for comparing
and selecting among water resources
development alternatives ; achieving project optimality
; single- and multi-purpose projects ; special
topics in new developments in water resources engineering
. Prereq : 3330 or consent of instructor.
4330 Hydrologic Design (3) Application of frequence
and regression analysis to hydrologic design
of water resources system ; unsteady surface
runoff and streamflow modeling ; urban peak runoff
design using kinematic wave theory ; evaluation of
effects of land use changes on steam flow quantity
and quality . Prereq : 3330 .
4510 Elements of Water and Wastewater Transport
Systems (3) Introduction to theory and design of
water transportation and distribution systems and
wastewater collection systems . Prereq : 3120 and
3330 .
4520 Elements of Water and Wastewater Treatment
Systems Design (3) Introduction to unit operations
and processes employed in physical,
chemical, and biological treatment of water and
wastewater . Application of unit operations and processes
in design of water and wastewater treatment
plants . Prereq : 3120 .
4525 Water and Wastewater Treatment Plant Design
(3) Detailed process design of water and/or
municipal industrial wastewater treatment plants ;
sludge handling systems, and ultimate disposal of
residuals . Prereq : 4520 or equivalent .
4530 Environmental Engineering Laboratory (3)
Standard analytical techniques for evaluation of
specific air, water and solid waste pollutants . 2 hrs
and 1 lab . Prereq : 4030.
4600 Solid and Hazardous Waste Management (3)
Magnitude and characteristics of solid and hazardous
waste problems ; collection systems ; disposal
systems including landfill, incineration, composting,
fixation, resource recovery, and proposed new
technologies ; current and future regulations. Prereq
: Junior standing .
4700 Air Pollution-Air Resource Management (3)
Introductory course on concepts of air pollution ;
analysis of relationship among emission sources,
meterology and topographic factors, and adverse
effects on receptors ; engineering approaches for air
pollution control . Prereq : Senior standing .
4810 Water Law (3) (Same as Law 8975 and Water
Resources Development 4810.)
4820 Environmental Engineering Law (3) Legal aspects
of water and air pollution, drainage, land use
controls, and environmental impact statements with
emphasis upon federal-state relations, recent legislation
and court decisions, and enforcement . Prereq
: Senior standing .
4910-2030 Special Topics (1-3, 1-3,1-3) Topics related
to recent developments and current practice in
environmental engineering through supervised self
study. Prereq : Consent of individual instructor and
approved by department head . May be repeated .
GRADUATE
5000 Thesis
5002 Non-Thesis Graduation Completion (3-15)
5150 Water and Urban Welfare (3)
5160 Planning and Utilities (3)
5230 Surface Water Transport Processes (3)
5232 Sediment Transportation (3)
College of Engineering 145
5240 Flood Control Hydraulics (3)
5261 Basic Principles of Remote Sensing (3)
5262 Remote Sensing Data Acquisition (3)
5263 Remote Sensing Data Analysis and Interpretation
(3)
5301 Stormwater Modeling 1(3)
5302 Stormwater Modeling 11 (3)
5310 Groundwater Transport Processes (3)
5330 Descriptive Hydrology (3)
5400 Introduction to Environmental Systems (3)
5501 Water andWastewater Treatment Theory 1(3)
5502 Water and Wastewater Treatment Theory 11
(3)
5513 Advanced Water and Waste Treatment Systems
(3)
5530 Environmental Engineering and Natural System
Behavior (3)
5551 Water Quality Management (3)
5561 Environmental Management of Water Quality
(3)
5582 Microbiology for Sanitary Engineers (3)
5593 Advanced Sanitary Engineering Laboratory
(3)
5600 Solid Wastes (3)
5610 Solid Waste Disposal (3)
5620 Solid Waste Collection Systems (3)
5700 Planning and Air Pollution Control (3)
5710 Air Pollution Control Engineering (3)
5720 Air Pollution Particle Collection Theory (3)
5725 Air Quality Modeling and Impact Assessment
(3)
5730 Air Pollution Control Device Design (3)
5735 Industrial Source Sampling (3)
5740 Dynamical and Physical Meteorology (3)
5750 Turbulence in the Atmosphere (3)
5760 Diffusion in the Atmosphere (3)
5900 Special'Problems In Environmental Engineering
(1-9)
5910-20-30 Special Topics (3, 3, 3)
5990 Environmental Engineering Seminar (1)
6110-20 Advanced Topics in Fluid Mechanics and
Convective Transfer (3, 3)
6230 Kinematic Wave Theory (3)
6500 Industrial Waste Treatability and Process
Control (6)
6820 Advanced Theory and Applications In Water
Resources Energy Systems 1(3)
6910-20-30 Special Topics in Environmental Engineering
(3, 3, 3)
Electrical Engineering
(320)
Professors :
J . M. Googe (Head), Ph .D . Georgia Institute of
Technology, P.E . ; I . Alexeff, Ph .D . Wisconsin,
P.E . ; J . M. Bailey, Ph .D . Georgia Institute of
Technology ; A . O . Bishop, Jr ., Ph .D . Clemson ;
T . V. Blalock, Ph .D . Tennessee ;
R. E . Bodenheimer, Ph .D . Northwestern ;
W. L. Green, Ph .D . Texas A & M ; R . C . Gonzalez,
Ph .D . Florida ; E . L . Hall, Ph .D .
Missouri ; G . W. Hoffman, Ph .D . Harvard ;
E . C . Huebschmann', Ph .D . Texas ; J . C . Hung,
Ph .D . New York, P.E . ; E. J . Kennedy, Ph .D.
Tennessee, P.E . ; W. O. Leffell, M.S . Tennessee ;
H . P . Neff, Ph .D. Auburn, P.E . ;
M. O . Pace, Ph .D . Georgia Institute of
Technology ; P . Z. Peebles, Jr ., Ph .D. '
Pennsylvania ; J . F . Pierce', Ph .D . Pittsburgh,
P.E . ; R. W. Rochelle, Ph .D . Maryland ; J . R . Roth 2 ,

146 College of Engineering
Ph .D. Cornell ; F. M. Shofner, Ph .D. Tennessee ;
B . Smith, Jr ., M.S. Illinois, P.E . ; F . W. Symonds,
Ph .D. Nottingham (England) ; J . D . Tillman, Jr.,
Ph .D . Auburn ; C. H . Weaver (Vice President for
Continuing Education ; Dean, Space Institute),
Ph .D . Wisconsin, P.E .
Associate Professors :
D. W. Bouldin, Ph .D . Vanderbilt ;
H . M. Long, Ph .D . Oxford (England) ;
L. J . Pinson*, Ph .D . Florida ; T . W. Reddoch, Ph .D .
Louisiana State ; D . Rosenberg, E . Eng . Sc . New
York ; J .W. Waller, Ph .D . Tennessee.
Assistant Professors :
J . D . Birdwell, Ph .D . M.I .T . ; R. D . Joseph',
Ph .D . Case Institute of Technology ; J . S. Lawler,
Ph .D . Michigan State .
'Distinguished Professor
ZVisiting
'Space Institute, Tullahoma
UNDERGRADUATE
The Bachelor of Science in Electrical
Engineering is planned to provide a
foundation in both the basic sciences and
specialized areas of modern engineering . The
curriculum also contains a suitable amount of
cultural work to enhance the growth of the
student toward the goal of becoming a
professional person with strong social
awareness . In the senior year, the student may
specialize in any one ofthe following areas of
electrical engineering : bioelectric
engineering, computer engineering,
electromagnetic fields and communications,
electronics and instrumentation, energy
conversion and power systems, plasma and
electro-optics engineering, and systems and
networks . All of these areas except the
bioelectric engineering option are continued
through the M .S . and Ph .D . programs . The
senior year curriculum is sufficiently flexible
to allow a student to take several courses
outside of the chosen area of specialization .
All sophomore and junior course work is
offered every quarter and the senior work is
scheduled so that the student mayenteratthe
beginning of any quarter . This arrangement
allows maximum flexibility, since the student
mayelectthe normal four-yearschedule, may
choose to graduate in three calendar years, or
may take the Cooperative Engineering
Program .
In addition to the usual research and
teaching facilities in machinery, electronics,
microwaves, solid state devices, and control
equipment, the department has both digital
and analog computers .
MASTER OF SCIENCE PROGRAM
Graduate work leading to the Master of
Science degree may be completed during one
academic year of full-time study orthe degree
may be obtained i n two or three years of study
in the evening .
Graduate assistantships and scholarships
are available for outstanding students .
Graduate assistants may obtain the master's
degree in one calendar year .
Course work leading to the degree of
Masterof Science in Electrical Engineering is
offered in the evening . Each course meets for
two and one-half hours each week .
THE DOCTORAL PROGRAM
Graduate work leading to the degree of
Doctor of Philosophy with a major in
electrical engineering is offered . The
department also participates in the
engineering science doctoral program .
General policies of the Graduate School,
residence, language, research, examinations,
and admission to candidacy requirements are
explained in the Graduate Catalog .
2010 Circuits 1(3) Circuitvariables. Current, voltage,
power, energy, resistance, capacitance, and inductance
. Kirchhoff's laws . Writing circuit equilibrium
equations using loop currents as well as node voltages.
Solution for resistive networks using matrix
algebra . Reduction by Y-1/3 transformation . Network
theorems . Coreq : Math 2610 . 3 hrs including
biweekly lab .
2020 Circuits II (3) Elementary transient analysis of
circuits with one storage element . Networks in
sinusodial steady-state . Use of complex algebra.
Power and power factor. Phasors and transforms .
Concept of transform networks, and complex impedances
. Resonance . Prereq : 2010, Math 2840 concurrently
. 3 hrs including biweekly lab .
2030 Circuits III (3) Polyphase networks considered
as networks with more than one source . Magnetically
coupled circuits . Transient analysis of circuits
containing more than one storage element
using classical methods . Steady-state analysis of
networks containing sinusoidal sources of more
than one frequency . Prereq : 2020, Math 2850 concurrently
. 3 hrs including biweekly lab.
3010 Transient Analysis (3) Analysis of transient
response of networks and systems ; Laplace transform
method and classical differential equation
methods for system analysis ; complex frequency
concept and pole-zero concepts ; application to engineering
problems. Prereq : 2030.
3040 Basic Communication Systems (3) Fourier
series and transforms . Network response to signals
and noise. Elements of amplitude, frequency, and
phase modulation systems for analog messages .
Noise performance. Fundamentals of broadcastAM,
broadcast FM, FM stereo, and television systems .
Prereq : Math 2850 . 3 hrs including biweekly lab .
3050 Basic Field Theory (3) Forces between
charges, electric and magnetic fields, Gauss' law
and divergence, potential and line integrals, material
bodies, polarization, magnetic circuits, Maxwell's
equations, dynamic potentials . Prereq : Math
2860 .
3060 Propagation I (3) Plane waves, refelection,
guided waves, transmission lines, standing waves,
impedance, impedance matching, graphical
methods, rectangular wave guides. Prereq : 3050. 3
hrs including biweekly lab .
3080 Energy Conversion (3) Magnetic circuits,
transformer theory and operation, principles of electromechanical
energy conversion with emphasis on
input-output characteristics ; steady-state analysis
of induction motors and d . c . machinery . Prereq :
3040. Includes a biweekly lab.
3090 Energy System Operation (3) Sychronous machines,
transmission-lines, and transformers as
power system elements ; power system representation,
per unit calculation, symmetrical components,
and fault studies . Prereq : 3080 . Includes a biweekly
lab .
3100 Random Signals and Noise in Engineering (3)
Theory of random signals and spectral analysis of
noise as applied to engineering problems . Random
signal response of linear networks. Transformation
of random signals by non-linear networks. Prereq :
3010 and 3040 . 3 hrs including biweekly lab .
3110 Basic Electrical Engineering-Circuits and
Fields (3) For non-electrical engineering majors .
Prereq : Math 2850, Physics 2310-20 . 3 hrs including
biweekly lab .
3120 Basic Electrical Engineering-Electronics (3)
For non-electrical engineering majors. Prereq :
3110 . 3 hrs including biweekly lab .
3130 Basic Electrical Engineering-Machinery (3)
For non-electrical engineering majors . Prereq :
3110 . 3 hrs including biweekly lab .
3135 Basic Electrical Engineering Circuits-
Instrumentation (3) For non-electrical engineering
majors . Use of operational amplifiers for signal
processing, logic systems applications, signal conditioning
; input-output devices-transducers, recorders,
oscilloscopes ; automated data collection ;
safety and grounding requirements . 2 labs. Prereq :
3120 .
3180 Logic Design of Digital Systems (3) Introduction
to boolean algebraand design of combinational
circuits . Presents gate and flipflop characteristics .
Design of clocked sequential circuits and other systems
containing memory . Introduction to minicomputer
architecture and system components to include
basic structure and function of Arithmetic,
Storage, Input/Output, and Control Systems. Instruction
set capabilities and machine language
programming . Prereq : 3010, Computer Science
3150 . 3 hrs including biweekly lab .
3190 Plasma 1(3) Engineering applications of physical
electronics, plasma effects and devices . Topics
include electrostatic precipitators and plasma light
sources, laser operation and applications (electrooptics),
and MHD, controlled thermonuclear, and
other techniques of advanced power production . 3
hrs including biweekly lab . Prereq : Physics 2310-
20-30.
3720 Linear Systems Analysis (3) Steady-state and
transient response ; log-frequency, gain-phase, and
polar plots ; block diagram transformation ; signal
flow graphs ; analogous systems, properties of second
order systems ; introduction to feedback theory ;
stability criteria . Prereq : 3010and Math 3150 ; coreq :
3180 . 3 hrs including occasional labs.
3810 Basic Electronics 1(3) Band theory fundamentals
; theory and applications of p-n junctions ; simple
power supplies ; theory of operation of field-effect
transistors and applications in simple circuits .
Coreq : 2030 . 3 hrs including project laboratory.
3820 Basic Electronics II (3) Physical operation of
bipolar transistors and vacuum tubes with applications
in basic amplifiers. Integrated circuit fundamentals
. Prereq : 3810 . 3 hrs including project laboratory
.
3830 Basic Electronics III (3) Frequency and transient
response of open-loop transistor amplifiers .
Fundamentals of integrated-circuit operational
amplifiers and applications in basic feedback configurations.
Basic digital switching circuits . Prereq :
3820 . 3 hrs including project laboratory .
4020 Direct Electrical Energy Conversion (3) Basic
principles, typical devices, and applications for
production of electrical energy by thermoelectric
effects, thermionic conversion, magnetohydrodynamics,
solar cells, and fuel cells . Laboratory demonstrations
. Prereq : 3050, 3190, and 3810 .
4080 Microwave Circuits and Electronics (3) Circuits
represented by wave scattering, isolators,
gyrators, couplers, microwave vacuum diodes and
klystrons, crossed field devices, parametric
amplifiers, power generator semiconductors, varactor
semiconductors . Prereq : 3060 . 3 hrs including
biweekly lab .
4090 Propagation 11 (3) Metal tube, dielectric rod,
and stripline waveguides. Waveguide resonators
andotherloading components . Design of structures
utilized for microwave power transmission and for
microwave integrated circuits. Prereq : 3060. 4 labs .
4100 Digital Communications Systems (3) Principles
of pulse and digital communication systems .
Sampling theorems, pulse amplitude, duration, and
position modulation methods. Quantization, coding,
and pulse code modulation . Generalized digital
signals and carrier modulation with digital
waveforms. Delta, adaptive delta, delta-sigma, and
delta PCM systems . Prereq : 3100 .
4210 Introduction to Artificial Intelligence (3) Same
as Computer Science 4210 .)
4350 Elements of Network Synthesis (3) Energy
relationships in networks . Quadratic forms .
Positive-real functions ; properties and tests . Synthesis
of L-C networks . Application to the synthesis
of lossless twoports in form of ladder networks . Prereq
: Senior standing .
4370 Introduction to Feedback System Design (3)
Mathematical formulation of control systems ;
steadystate error and error constants ; root-locus
methods ; optimum gain adjustment ; compensation
networks ; introduction to compensation . Prereq :
3720 . Lab optional .
4381 Introduction to Applied Modern Control
Theory (3) Project-oriented course stressing applications
of optimal control theory. Topics include
state-space representation of systems, controllabil-

ity and observability, minimum principle, dynamic
programming and the Hamilton-Jacobi equation for
deterministic systems, optimal linear systems design
with quadratic criteria, pole placement and observers
for linear systems, stability theory. Prereq :
3720, Computer Science 3150, Math 2860 and 4120 .
4391 Introduction to AppliedOptimal Estimation (3)
A project-oriented course stressing applications of
optimal estimation theory . Course topics include :
the state-space representation of systems, probability
theory and stochastic processes, uncertain systems,
least squares estimation, Wiener filtering, the
Kalman filter . Prereq : Electrical Engineering 3720,
Computer Science 3150, Math 2860. Math 4120 recommended
.
4410 Power System Components and Control (3)
Analysis of power system components and their interconnection
. Studies in control of power and frequency
as well as voltage and reactive power . Prereq
: 3090 .
4420 Power Systems Analysis (3) System studies
including load flow, faults, and stability . Prereq :
3090 .
4430 Transmission, Distribution, and Protection (3)
Studies in underground and d. c . transmission ; consideration
of over-voltages and insulation requirements
; system protection against faults. Prereq :
3090.
4460 Losers and Masers (3) Principles of laser and
maser operation based on classical concepts and
electrical engineering analogies . Consideration of
practical devices and applications . Prereq : Senior
standing .
4470 Plasma If (3) Magnetohydrodynamics . Prereq :
3190.
4480 Plasma 111(3) Macroscopic plasma equations,
particle orbits, interactions, oscillations, and waves .
Prereq : 3190 .
4490 Electro-Optics (3) Fourier optics. Diffraction,
lenses, coherent and incoherent imaging . Engineering
applications : holography . Prereq : Senior standing
.
4500 Electro-Optic Detection and Instrumentation
(3) Sensitivity, resolution (frequency response) and
noise concepts of and practical engineering data for
both spatial recording media (e .g . photographic
emulsions) and temporal detectors (e .g . photodiodes)
will be given . Last third of the course will be
devoted to selected electro-optic instrumentation
systems (e .g . laser light scattering, optical data
processing, holographic interferometry) .
4540 Antennas and Propagation (3) Dipole and
linear antennas, arrays and simple antennas. Antenna
gain, impedance, andotherparameters . Wave
propagation in free space, earth's troposphere, and
ionosphere . Wave reflections from earth . Prereq :
3060 .
4570 Electro-Acoustics (3) Reproduction of
monophonic and stereophonic sound, microphones,
loud speakers, disc recording, magnetic
recordings, film recording, acousticsof studios, auditoriums
. Prereq : Senior standing .
4600 Analog Signal Processing Circuits for Electronic
Instrumentation (3) Use of operational
amplifiers, instrumentation amplifiers, and other integrated
circuits in signal processing . Design
examples such as active filters, amplifiers, attenuators,
function generators, active rectifiers, and
synchronous demodulators . Analysis of interfacing
problems between transducers and signalprocessors
. Prereq : 3830. 3 hrs including project
laboratory .
4610 Analog-Digital Systems (3) Principles of
analog computing components . Applied to analog
computing to include problem set-up and scaling .
Characteristics of analog multipliers, dividers, and
function generators . Presents comparators, digital
to analog conversion, and analog to digital conversion
techniques. Prereq : 3180 and 3830 . 3 hrs including
biweekly lab.
4620 Sequential Machine and Digital System
Theory (3) Design aspects of pulse-mode, clockmode,
and level-mode sequential circuits . Theory
and characteristics of one- and two-dimensional
iterative networks . Design of large scale digital systems
using MSI and LSI technologies . Principles of
reliability and error detection in digital systems . Prereq
: 3180. 3 hrs including biweekly lab .
4630 Digital System Organization and Design (3)
System organization of digital systems including
minicomputer and microprocessor architectures
and comparisons . Characteristics of ALU and CPU
structures, storage systems (RAM, ROM, and PROM
building blocks), and Input/Output systems. Control
Unit organization to include serial-parallel modes of
operation, synchronous-asynchronous time sequencing,
and microprogramming of control functions
. Prereq : 3180. 3 hrs including biweekly lab .
4660 Bloelectric Instrumentation (3) Nature and
origin of bioelectric potentials, transducers,
amplifier requirements, recording systems, and
noise problems . Prereq : Senior standing .
4680 Electric Amplifiers (3) Feedback amplifier
principles. Wideband linear amplifiers . Audio and
radio-frequency power amplifiers . Prereq : 3830,
3720. 3 hrs including project laboratory .
4690 Communications Electronics(3) Receiver and
transmitter circuits for communications. Prereq :
3040, 3830 . 3 hrs including project laboratory.
4700 Digital Integrated Electronics (3) Comparators,
logic gates, flip-flops, registers, counters,
memories, analog switches, A/D and D/A conversion,
clipping, clamping, and sweep circuits. Prereq
: 3830, 3180 . 3 hrs including project laboratory.
4740 Integrated Circuits (3) Processing and fabricstion
of active and passive components for
monolithic and hybrid circuits . Design techniques
for linear and digital circuits . Prereq : 3830 . 3 hrs
including project laboratory .
4750 Interactive Computer Graphics (3) (Same as
Computer Science 4750 and Geography 4750 .)
4780 Synchronous Machines (3) Development of
2-axis model for synchronous machines . Applications
to analysis of steady state and transient operation
. Excitation and governor control . Prereq : 3090 .
4790 Electromechanical Components of Control
Systems (3) Characteristics and analysis of electromechanical
devices used in control system .
Single phase induction motors, servo motors,
tachometers, synchros . Dynamic behavior of do machine
systems . Applications in industrial process
control . Prereq : 3080 and 3720 .
4800 Hardware-Software Interface in Minicomputer
and Microprocessor System Design (3)
Minicomputer and microprocessor interface design
. Hardware-software interaction and trade-off .
Priority interrupt structures . Telecommunications .
Project oriented, contract course. Completion of
two projects, one utilizing a minicomputer and the
other a microcomputer, are minimal course requirements
. Prereq : 3180.
4810 Discrete-Data Systems (3) Introduction to
analysis and design of discrete data control systems
using frequency domain techniques . Real-time digital
filtering techniques ; application of digital computers
in closed-loop feedback sysems.
4820 Introduction to Pattern Recognition (3) Role of
pattern recognition within framework of artificial intelligence
. Design of learning and adaptive machines.
Typical applications of pattern recognition
to problems of practical significance . Computer
simulation of elementary pattern recognition problems.
Prereq : Either 3100 and Computer Science
3150, orStatistics 3450 and Computer Science 1510.
(Same as Computer Science 4820 .)
4830 Digital Image Processing (3) Principal
methods of coding, storing, and processing images
by means of digital computers . Computational algorithms
for image operations . Prereq : 3100 and
Computer Science 3150, or Statistics 3450 and
Computer Science 1510 . (Same as Computer Science
4830 .)
4850 Small Computer Systems (3) Basic structure
of small computer systems, input-output techniques,
interrupt structures, peripheral devices, system
software, and assembly language programming
. Course is project oriented . Prereq : Basic
Engr . 1410, Computer Science 1510 or 3150, or consent
of instructor. (Same as Computer Science
4850 .)
49102030 Special Electrical Engineering Prob-
College of Engineering
14 7
lams (3, 3, 3) Problems in electrical engineering
involving library and experimental research .
GRADUATE
5000 Thesis
5040-50-60 Electrical Engineering Research (3, 3,
3)
5070-80 Modern Transform Methods (3, 3)
5110 Introduction to Network Analysis (3)
5120 Network Synthesis and Design (3)
5130 Advanced Network Analysis (3)
5170 Blosngineering Systems 1 : Models, Systems
Analysis, and Simulation (3)
5180 Bloongineering Systems 11 : Bloelectric
Phenomena (3)
5190 Blosngineering Systems III : Instrumentation
and Analysis (3)
5210-20 Advanced Electrical Machinery (3, 3)
5230 Advanced Electrical Machinery Applications
(3)
524050-60 Control Systems Design 1,11, 111(3, 3, 3)
5271 Modern Systems Theory 1 (3)
5281 Modern Systems Theory il (3)
5291 Modern Systems Theory 111 (3)
5310 Basic Requirements for Plasma Fusion (3)
5320 Diagnostics for Fusion (3)
5330 Engineering of Fusion (3)
5340 Introduction to Quantum Electronics (3)
5350 Properties of Quantum Devices (3)
5360 Application of Quantum Electronic Devices
(3)
5370 Advanced Direct Electrical Energy Conversion
1(3)
5380 Advanced Direct Electrical Energy Conversion
11 (3)
5390 Advanced Direct Electrical Energy Conversion
111 (3)
5410 Power System Networks (3)
5420 Fault and Load Flow Studies (3)
5430 Power System Stability and Control (3)
5440 Distribution Systems (3)
5460 Selected Topics in Power Systems (3)
55102030 Advanced Analog Electronics (3, 3, 3)
5540 Thick Film Hybrid Microcircuits (3)
55708090 Advanced Electronic Switching Circuits
(3, 3, 3)
561020 Logic Design and Finite Automata Theory
(3,3)
5615-25 Introduction to Switching Theory and
Logic Design (3, 3)
5630 Digital System Architecture (3)
5635 Introduction to Digital Computer and Analog
Systems (3)
5650-60 Electric Communications Systems (3, 3)
567080 Pattern Recognition (3, 3)
5690 Introduction to Artificial Intelligence (3)
5710 Random Process Theory for Engineers (3)
572030 Prediction, Filtering and Detection Theory
(3,3)
5740 Digital Processing of Signals (3)
5750-60 Radar Systems Analysis (3, 3)
5770 System Identification (3)
5800 Power Transmission Lines (3)
581020 Electromagnetic Fields (3, 3)
5830 Linear Antennas and Antenna Arrays (3)

148 College of Engineering
5840 Aperture Antennas (3)
5850 Microwave Electronics (3)
5860 Electromagnetic Wave Propagation (3)
5870 Introductory Microwave Networks (3)
5930 Digital Image Processing (3)
5940-50 Advanced Small Computer Systems (3,3)
6000 Doctoral Research and Dissertation
6240-50-60 Advanced Systems Theory 1, 11, 111(3, 3,
3)
6270-80-90 Special Topics in Systems Methodology
(3, 3, 3)
6340-50-60 Special Topics In Quantum Electronics
(3, 3, 3)
6410-20-30 Modern Techniques of Electrical Energy
Systems (3, 3, 3)
6500-10 Electrical Conduction In Gases and Plasma
Physics (3,31)
6530 Special Topics in Image and Pattern Analysis
(3)
6610-20-30 Microwave Networks (3, 3, 3)
6650 Advanced Antenna Theory (3)
6660 Electromagnetic Diffraction and Scattering
(3)
6710"20-30 Network Synthesis (3, 3, 3)
6750 Detection Theory (3)
6760 Coding Theory (3)
6800-10-20 Advanced Topics in Electronic Instrumentation
(3, 3, 3)
6910"20-30 Advanced Sequential Machine and Automats
Theory (3, 3, 3)
Engineering
Administration
(See Graduate School.)
Engineering Science
and Mechanics
Professors :
W . T . Snyder (Head), Ph .D . Northwestern ;
H . B . Aiken (Emeritus), M .S. Tennessee ;
J . E. Akin, Ph .D . Virginia Polytechnic, P.E . ;
A . J . Baker, Ph .D . SUNY (Buffalo), P .E. ;
T . G . Carley, Ph .D . Illinois, P .E . ; B . R . Dewey,
Ph .D . Illinois, P .E . ; A. H . Eraslan, Ph .D . North
Carolina State ; J . H . Forrester, Ph .D . Iowa State,
P .E . ; D . R . Keefer*, Ph .D . Florida ;
C . W . Lee, Ph .D . Illinois Institute of
Technology ; J . R . Maus*, Ph .D . North
Carolina State ; W . A . Miller, Jr .
(Associate Dean), Ph .D . Georgia Institute
of Technology . P .E . ; H . Pih, Ph .D .
Illinois Institute of Technology, P .E . ;
C . J . Remenyik, Ph .D . Johns Hopkins ;
C . D . Scott, Ph .D . Tennessee ;
L . R. Shobe, M.S . Kansas State, P .E . ;
J . E . Stoneking, Ph .D . Illinois, P .E . ;
D . G . Thomas, Ph .D . Ohio State, P .E .
Associate Professors :
1L. Adler, Ph .D . Tennessee ;
B . Antar', Ph .D . Texas ;
J . E. Caruther', Ph .D . Georgga Institute
of Technology ; R . J . Jendrucko, Ph .D .
Virginia, P .E . ; A. Mathews, Ph .D.
Illinois, P.E . ; T. F . Moriarty, Illinois ;
W . E . Scott, Ph .D . Johns Hopkins ;
J . F . Wasserman, Ph .D . Cincinnati .
Assistant Professors :
J . M . Carter", Ph .D . Missouri .
' Space Institute, Tullahoma
'Honorary
BACHELOR OF SCIENCE PROGRAM
The curriculum in engineering science will
provide students an opportunity for
education with breadth in engineering
science, mathematics, and physical (or
biological) science . Such a program will
prepare students for a career in engineering
development and research, professional
education at the M .S . level, or additional
graduate study leading to the master's or the
doctoral degrees . The curriculum will provide
students a broad engineering education
which permits a strong emphasis on
engineering principles and basic science .
In the first two years students in the
engineering science program study
engineering, science, and mathematics . The
engineering science program in the
upper-division years is essentially an elective
curriculum in which the special interests of
students can be met which cannot be
accommodated in other programs . Examples
of special interest elective groups presently
available in the engineering science program
are biomedical engineering, engineering
analysis and synthesis, environmental
sciences, and engineering materials . Other
elective groups are currently being developed
and will be available in the future .
The biomedical engineering elective group
provides the basic background for an
engineer to contribute to the fields of biology
and medicine in such technical areas as the
design of research and diagnostic
equipment, the development of artificial
organs, and the application of the
engineering sciences to further the basic
understanding of biological systems. With
some modifications, the program can
emphasize other areas such as the use of
computer systems to automate hospital
operations, to analyze medical data, and to
contribute to the broad area of health care
delivery systems . Interested and qualified
students may choose to use this program as a
background for graduate study in
engineering orthe life sciences . The program
includes the courses required for entrance
into most medical schools, including The
University of Tennessee Center for the Health
Sciences in Memphis .
The engineering mechanics elective group
focuses on analytical and experimental
methods used in investigating the interaction
of forces and matter . It is designed especially
to develop engineers capable of engaging in
research and development in industrial and
governmental research laboratories .
Because such preparation involves emphasis
on the link between the basic sciences and
engineering fundamentals, the engineering
mechanics elective group provides a good
theoretical background for students wishing
to pursue engineering graduate studies .
The engineering analysis and synthesis
elective group affords a concentration on the
application of such mathematical techniques
as numerical analysis and similitude for the
solution of practical engineering problems .
As such, heavy emphasis is placed on the use
of digital computing .
The environmental sciences elective group
introduces the student to some of the areas of
knowledge and to some of the basic skills
involved in engineering efforts aimed at
solving environmental and ecological
problems. This program gives the necessary
background in both stress/structural analysis
for a higher level of competence in this
specialty during professional practice or
through formal graduate study .
The engineering materials elective group
provides background in the use of materials
in the solution of engineering problems . This
includes the selection of the proper materials
to support the anticipated loads and
consideration of the environmental
conditions that are expected to exist during
the design life of the system . There is a special
need in industry for individuals with
background in both stress/structural analysis
and materials properties . The engineering
materials elective group provides the student
an opportunity to acquire this background .
The basic engineering sciences curriculum
provides an opportunity to study significant
blocks of the engineering science areas
recognized by the American Society for
Engineering Education such as
(1) mechanics ; (2) electrical science, electric
and magnetic fields, circuits, and
electronics ; (3) thermodynamics and
statistical mechanics ; (4) materials
science ; (5) information science ;
(6) transfer and rate processes such as heat,
mass, and momentum transfer . Other modern
engineering fields which may be studied in
the engineering science option are the space
sciencesand the environmental sciences . It is
not expected that a student will study all the
engineering sciences but will structure a
course plan to provide depth in some of the
engineering sciences .
Because of the large number of elective
courses to be selected in the engineering
science degree program, faculty advising
plays an essential role in the process of
developing the student's course of study .
Before the end of the sophomore year,
students in the engineering science program
are required to develop, in concert with a
faculty adviser, a statement of objectives and
a course plan for the upper-division years .
This course plan must be filed with the
Office of Admissions and Records before
students with morethan 90 quarter hours can
register for courses, and before a student's
senior standing sheet can be prepared .
MASTER OF SCIENCE AND
DOCTORAL PROGRAMS
Graduate programs leading to the degrees
of Master of Science and Doctor of
Philosophy with a major in engineering
science are available to graduates of
recognized curricula in engineering,
mathematics, or one of the physical or
biological sciences . Program options include
solid mechanics, fluid mechanics, biomedical
engineering, and other engineering sciences .
In the biomedical and engineering science
option, interdisciplinary programs are
arranged to meet individual needs or
interests . Each applicant will be advised as to
any prerequisite courses before entering a
program ; the student's program of study
must be approved by his or her advisory
committee, and must comply with the
requirements of the Graduate School . The
student's major professor may be selected
from a department other than the Department
of Engineering Science and Mechanics .
The flexibility and interdisciplinary aspects
of the program options are intended to be of
particular interest to prospective students
currently employed in research,
development, or design activities and whose
interests in continuing education (either
full-time or part-time) lie at one of the
interfaces between science and engineering,
or can best be met by interdisciplinary study
in engineering . The department's course

offerings and research activities are also
intended to meet the needs of students who
seek preparation for employment in
engineering areas requiring specialization in
mechanics, or in related interdisciplinary
studies such as biomechanics .
General policies of the Graduate School
relating to admission, residence,
examinations, and research are described in
the Graduate Catalog .
Engineering Science
and Mechanics (335)
2705 Elementary Statics and Dynamics (3) Resolution
and composition of forces ; moments ; resultants
of force systems ; free body diagrams and coplanar
equilibrium ; friction ; particle dynamics.
(Primarily for transfer students .) Prereq : College
Physics (Mechanics) ; coreq : Math 1850 or equivalent.
2710 Statics (3) Resultants of space force systems ;
static equilibrium of structural elements and space
frames ; belt friction ; first and second moments . Prereq
: 2705 or Basic Engr. 1310, Math 1860 .
2720 Dynamics (3) Absolute and relative kinematics
of rigid bodies ; kinetics of rigid bodies using Newton's
laws, work-energy, and impulse-momentum .
Prereq : 2705 or Basic Engr . 1320, Math 2840 .
3010 Seminar (1) Discussions of engineering professionalism
. Field trips and career planning . S/NC.
3110-20-30 Fluid Mechanics (3, 3, 3) Basic laws of
fluids, effects of viscosity and compressibility ; empirical
analysis : Navier-Stokes equations ;
boundary-layer concepts ; potential flow . Must be
taken in sequence. 3-hr lab in 3120 and 3130 . Prereq :
2720 or 3700, Math 2840 ; coreq for 3120 : Mach .
Engr . 3311 or equivalent .
3310-20 Mechanics of Materials (3) Concepts of
stress and strain, stress-strain relations, and Mohr's
circle ; stresses and displacements in thin-walled
pressure vessels, shafting ; determinate, indeterminate,
and non-homogeneous beams ; column
theory . Must be taken in sequence . Prereq : Basic
Engr . 1310 ; coreq : Math 2840 .
3311 Mechanics of Materials (4) Concepts of stress
and strain ; stress-strain relations and Mohr s circle ;
static analysis of members ; area moment of inertia ;
stress and displacement analysis of axially-loaded
members ; torsion ; bending . Not for departmental
graduate credit . Prereq : Basic Engr. 1310 ; coreq :
Math 2840 .
3410 Introduction to Biomedical Engineering (4)
Introduces the facets and opportunities of biomedical
engineering, and provides basic terminology
and background knowledge for further courses in
the field . Subjects include anatomy, physiology,
biomaterials, mathematical models of body systems,etc.
Coreq : Math 2840or consent of instructor.
3420 Introduction to Clinical Engineering (3) Engineering
applications in the clinical/hospital setting
; description, analysis, and design of health care
delivery systems ; hospital organization and structure
; clinical use of biomedical equipment ; principles
of safety engineering in the hospital and applicable
codes, standards and regulations . Prereq :
3410, Physics 2320, or consent of instructor.
3510 Materials of Engineering (3) Mechanical properties
of engineering materials ; behavior of materials
under load . 3 hrs or 2 hrs and 1 lab . Prereq : 3311
and Met. Engr. 2110 or 3110.
3520 Materials Behavior and Chemical Process
Equipment Design (3) (Same as Met . Engr . 3520 .)
3700 Dynamics (4) Kinematics of rigid bodies ; mass
moments of inertia ; coulomb friction ; kinetics of
rigid bodies using force, mass, acceleration ; workenergy
; impulse-momentum . Not for departmental
graduate credit . Prereq : 2705 or Basic Engr . 1320,
Math 2840 .
3710 Intermediate Dynamics (3) Three-dimensional
dynamics of particles and rigid bodies ; dynamics of
bodies with varying mass ; central force motion ;
Lagrange's equations . Prereq : 2720, Math 2850 .
4010 Project in Design and Development (4) Investigation,
design, and report of an engineering science
project . Prereq : Senior standing and a grade of
C or better in 3311, 3700, and 3110 .
4011 Project in Design and Development (3) Investigation,
design, and report of an engineering science
project . Prereq : Senior standing .
4430 Orthopedic Biomechanics (3) Introduction to
engineering principles and applications in orthopedics
and rehabilitation . Topics include statics,
Newton's laws of motion, stresses in simple sections,
engineering materials, and biological materials
. Prereq : Consent of instructor . For nonengineering
majors .
4500 Applied Mechanics for Life Scientists (4) Concise
and broad coverage of basic principles and
concepts of mechanics . Fundamental concepts,
statics, vibrations, continuum mechanics, and
properties of materials . Applications in engineering
and medicine. Prereq : Math 1860 or consent of instructor.
Primarily for non-engineering majors .
4520 Biomedical Fluid Mechanics (3) Discuss
objectives, review foundations, and present
developments in biomedical fluid mechanics . Properties
of human blood and blood vessels, determinants
of cardiac performance, analysis and measurement
of flow and pressure in arteries,nontraumatic
study of circulatory system, mechanics of
microcirculation . Applications to areas of
hemolysis, thrombosis, and fluid dynamics of heart
assist devices. Prereq : 4500 or a course in fluid mechanics
or consent of instructor.
4530 Biomechanics (3) Discuss objectives, review
foundations, and present developments in areas of
mechanical properties of living tissues, biomechanics
of injury and prosthesis, material compatibility
of prosthetic devices, and biomechanical
problems related to impact. Prereq : 3311 or 4500 or
consent of instructor .
4540 Fracture-Safe Design (3) A critical review of
mechanical properties of materials that are indicative
of fracture resistance, including transition temperature,
R-curves, stress intensity factors, and
J-integrals ; the use of these properties in design . 3
hrs or 2 hrs and 1 lab . Prereq : 3311 and Met . Engr .
2110. (Same as Met . Engr . 4540.)
4550 Design of Artificial Internal Organs (3) Study
of the design, development and evaluation of artificial
internal organs including Federal regulation
and ethical considerations. Review of currently
available devices and new developments . Prereq :
3110, 3410, Math 2850 .
4580 Principles of Non-destructive Testing (3)
(Same as physics 4580 .)
4610 Experimental Stress Analysis (3) Basic concepts
: theory, techniques, and instrumentation of
resistance strain gauges ; theory and techniques of
brittle coating method ; introduction to other stress
analysis methods . Prereq : 3311, Elec. Engr . 2020 or
3110. 2 hrs and a 3-hr lab .
4620 Dynamic Data Acquisition (4) Instrumentation
of measuring systems for dynamic events and responses
; signal conditioning ; oscillographs, oscilloscopes,
and magnetic tape recording ; telemetry
and data transmission ; data processing . Prereq :
3700, 3311, Elec . Engr . 3120 . 3 hrs and a 3-hr lab .
4630 Introductory Photomechanics (3) Introduction
to photoelasticity, photoelastic coating method,
Moire method, interferometry, and holography . Prereq
: 3311, Physics 2320. 2 hrs and a 3-hr lab .
4710 Fundamentals of Vibrations (3) Free and
forced vibrations of damped and undamped lumped
parameter systems ; energy methods . Prereq : 2720
or 3700, Math 2860.
4780 Engineering Acoustics (3) Concepts of acoustics
. Measures of sound and their units . Noise generation
and transmission . Noise control principles
and application . Materials and procedures for noise
abatement . Prereq : Introductory course in vibration
or acoustics.
4810-20 Engineering Analysis (4, 3) Integration of
fundamental physical laws and mathematical
methodsof analysis with emphasis on application to
realistic engineering problems . Prereq : 3110, 3311,
and Computer Science 3150 .
College of Engineering 14 9
4850 Elementary Structural Matrix Methods (4)
(Same as Architecture 4850 and Civil Engineering
4850.)
4910-20 Special Engineering Science Topics (3, 3)
Problems related to recent developments and practice
. Open to juniors or seniors with consent of instructor
. May be repeated for credit once .
GRADUATE
5000 Thesis
5002 Non-Thesis Graduation Completion (3-15)
5110-20 Fluid Dynamics (3, 3)
5130 Introduction to Turbulence (3)
5140 Finite Element Methods in Fluid Mechanics
(3)
5180 Finite Element Structural Analysis (3)
5220 Mechanics of Viscous Flow (3)
5230 Non-Newtonian Fluid Mechanics (3)
5410-20 Theory of Elasticity (3, 3)
5430 Thermal Stresses (3)
5440 Theory of Linear Viscoelasticity (3)
5550 Fracture Mechanics (3)
5630-40 Photoelasticity (3, 3)
5710-20 Advanced Dynamics (3, 3)
5730 Advanced Vibrations (3)
5740 Vibrations of Continuous Media (3)
5750 Orbital Mechanics (3)
5800 Introduction to Continuum Mechanics (3)
5840 Perturbation Methods in Mechanics
5860 Introductory Finite Element Methods (3)
5910 Special Topics in Engineering Mechanics (3)
6000 Doctoral Research and Dissertation
6110-20 Advanced Topics in Fluid Mechanics and
Convective Transfer (3, 3)
6140 Advanced Finite Element Methods in Fluid
Dynamics (3)
6230-40-50 Theory of Turbulence (3, 3, 3)
6310 Theory of Plates (3)
6320 Analysis and Design of Thin Shell Structures
(3)
6330 Theory of Elastic Stability (3)
6340 Theory of Plasticity (3)
6610 Photoelasticity (3)
6710 Impact and Stress Waves in Solids (3)
6800 Non-Linear Viscoelasticity (3)
6810 Energy Methods (3)
6910 Special Topics in Engineering Mechanics (3)
Engineering Physics
ProfessorW. M. Bugg (Head) ; Physics staff as
shown on page 221 .
The curriculum in engineering physics is
designed to fulfill the educational
requirements for professional work in various
fields of applied science which are based
upon a thorough knowledge of physics . The
first two years are concerned with
fundamental courses in engineering, science,
and mathematics . In the upper division, the
curriculum allows some choice of courses in
engineering and in physics depending upon
the interest of the student . The
undergraduate program is a complete,
professional program, equipping the student
for entry into a variety of work in industry and
research . The program also leadsto graduate
work in either physics or engineering .

150 College of Engineering
The courses in the engineering physics
curriculum are shown in tabular form on page
129. Descriptions of the physics courses are
found on page 221 .
Industrial Engineering
(556)
J . N . Snider (Head), Ph .D . Ohio State, P.E . ;
D . C . Doulet, M.S . Tennessee, P.E . ;
H . P . Emerson (Emeritus), S.B. Massachusetts
Institute of Technology, P.E . ; R . M.LaForge
(Emeritus), M.S . Georgia Institute of Technology,
P .E ., H . L . Loveless, M.S . North Carolina State,
P.E. ; W. G . Sullivan, Ph .D . Georgia Institute of
Technology, P.E .
Associate Professors :
E . K . Boyce, M.S . Tennessee ;
W. W. Claycombe, Ph .D . Virginia Polytechnic ;
E . L. DePorter, Ph .D . VPI & RU ;
D . H . Hutchinson, Ph .D . Georgia Institute of
Technology ; W. A . Lyday, M.S . Tennessee.
Assistant Professors :
M. K . Goodman, M .S . Tennessee, P.E . ;
J . C. Hungerford, M.S . Ohio State ;
K . E . Kirby, Ph .D. Tennessee .
'Kingsport
UNDERGRADUATE
The undergraduate curriculum in industrial
engineering provides a strong background in
both fundamental engineering principles and
the analytic methods necessary for solving
the multi-faceted problems associated with
the production, maintenance, and delivery of
goods and services . In particular, this
curriculum emphasizes the knowledge and
skills necessary to design integrated systems
of people, materials, equipment, and energy
wherevertheyarefound, such thattheoverall
system functions at an optimal level and such
that the needs of the human components of
the system are adequately met .
This curriculum, which is built upon a
strong background in mathematics and
statistics, includes fundamental course work
in all of the engineering sciences,
introductory economics and accounting,
training in fundamental human factors which
influence engineering design, the economic
analysis of alternative design choices, quality
control techniques, manufacturing
processes and materials, production and
inventorysystem designand control, material
handling systems and facilities design, the
mathematical modeling and simulation of
complex systems, and the design and
installation of information acquisition and
control systems . The technical and
non-technical electives further allow the
students to specialize in an area(s) which
meet particular needs .
The solid, broad base in engineering,
combined with training in applying
engineering methodology to traditionally
non-engineering problem areas as provided
through the industrial engineering
curriculum, leads to participation by
industrial engineers in an unlimited range of
fields including, among others, retail
distribution, banking, health care delivery,
corporate management, municipal
management, aerospace systems, research
groups, and government as well as in the
traditional area of manufacturing .
MASTER OF SCIENCE PROGRAM
The graduate program in industrial
engineering contains a basic "core" of 18
hours of course work covering topics in
industrial engineering at the graduate level .
The remaining 18hoursinthethesisprogram
are based upon the educational objective of
the student and determined with the approval
of the student's adviser . A minor is usually
taken in an area related to industrial
engineering, and a thesis is required . The
program is open to graduates of recognized
curricula in all fields of engineering .
A non-thesis program of 45 hours of course
work plus a 3-hour project is also available
and open to graduates in engineering . The
core courses (5280, 5360, 5520, 5700, 5710,
5720) comprise 18 hours of the total and are
identical to the basic courses in the program
forthesis students . An option is selected from
manufacturing, health systems, operations
research, human factors, or industrial
administration . Each option requires 9 hours
of non-engineering electives to support the
selected option . The project requires the
design of a procedure or operating system
based especially upon the course work in the
selected option and clearly applicable as a
solution to a problem in actual professional
practice . The student is examined on the
project and related course work .
2310 Seminar (1) Introduction to the industrial engineering
profession, its history, and current trends.
Plant trips and lectures by the faculty . Prereq :
Sophomore standing .
2320 Modeling of Industrial Processes (3) Introduction
to model building . Techniques of developing
models of industrial processes, elementary simulation
techniques, and concept of optimization. Prereq
: Basic Engr . 1410 .
3330 Computer Applications and Analysis
Methods In Industrial Engineering (3) Use of digital
computer in problem solving involving matrix operations,
deterministic and stochastic simulations,
large scale data base manipulation, and general optimization
techniques . Prereq : 2320 and Math 1860 .
3410 Textile Industry Systems (3) History, basicoperations,
products, and economics of the industry ;
the application of industrial engineering techniques.
Prereq : Junior standing and consent of instructor
.
3430 Probabilistic Methods in Industrial Engineering
(3) Combinatorial and probabilistic methods for
industrial engineers . Markov Chains, Tolerancing,
Goodness of Fit Tests, and Elementary Reliability .
Prereq : 2320 and Statistics 3460.
3440 Quality Control (3) Application of statistical
methods to control quality of manufactured parts
and techniques of inspection . Prereq : 3430 .
3510 Introduction to Operations Research 1(3) Introduction
to methodology of operations research
and the application of operations research to industrial
problems . Topics covered include statistical inference,
decision theory, and queuing theory. Prereq
: 3430 and Computer Science 3150 .
3520 Introduction to Operations Research II (3) Introduction
to mathematical programming includes
classical optimization theory, linear programming
(with emphasis on the simplex method, the transportation
problem, and the assignment problem),
and dynamic programming . Prereq : Computer Science
3150 or consent of instructor.
3530 Introduction to Operations Research 111 (3)
Introduction to random processes and use of probabilistic
methods in replacement and industrial
analysis . Prereq : 3430 and 3510 .
3600 Motion and Time Study (3) Design of work
methods, including analysis, improvement, timing
of work, and determining standards . Laboratory
work included. For non-industrial engineering students.
Prereq : Junior standing.
3610 Human Factors in Work Design 1(3) Human
capabilities and limitations which must be reflected
in : work place layout ; working environment specifications
; tool,equipment, and vehicledesign ; and
in design of industrial communication-control sys-
tems . Prereq : Junior standing in College of Engineering
or consent of instructor .
3620 Work Methods and Design (3)Job analysis,job
evaluation, design of wage structures, design of
work-place layouts, flow charting, activity chart and
analysis, and methods improvement . Laboratory
work included . Prereq : 2310 and 3610 .
3630 Work Measurement (3) Use of work measurement
tools such as time study, predetermined time
systems, work sampling, historical data analysis.
Construction of time formulas, development of
standard time data, use of learning curves, and design
of wage inventive systems . Laboratory work
included . Prereq : 3620 and Statistics 3450 .
4040 Manufacturing Materials and Processes (3)
Study of characteristics of various manufacturing
materials and techniques common to industrial
manufacturing processes . Prereq : Engr . Mach .
3310, Met . Engr . 2110 .
4060 Production Systems Planning and Control 1(3)
Theory and application of forecasting, capacity and
materials planning, production systems design and
inventory control . Prereq : 3510-20 .
4070 Production Systems Planning and Control II
(3) Theory and application of master scheduling,
materials requirements planning systems, lot sizing
and safety stocks, and distribution requirements
planning . Prereq : 4060 .
4060 Forecasting Methods in Industrial Engineering
(3) Application of technological forecasting
techniques to industrial engineering problems. Includes
moving averages and exponential smoothing,
linear and polynomial regression models, autocorrelated
time-series analysis, Delphi methods,
and other selected industrial forecasting methods.
Prereq : 4060 .
4150 ProjectControlwith CPM and PERT(3) A study
of project planning and control based primarily on
"critical path" techniques, including resource allocation,
time-cost trade off-algorithms, multi-project
control, and computer programs. Prereq : 3430 .
4160 Materials Handling (3) Analysis and planning
for the overall problem of moving, packaging, and
storing of materials ; equipment comparison and
selection ; cost analysis . Prereq : 3630, 4520, and
Engr . Mach . 3310.
4170 Automatic Process Control (3) Characteristics
of automatic processes and controllers ; elementary
open and closed loop analysis, and applications to
industrial systems . Prereq : Math 2860 and Engr .Sci .
and Mech . 2720 .
4200 Production Facilities Design (4) Design of
production facilities including materials handling,
plant layout, service areas, inventory control applications,
and operating procedures design . Prereq :
3630, 3510-20, 4060, 4520 .
4230 Scheduling Systems (3) Performance measures
for job shop and flow shop scheduling, including
both static and dynamic conditions, as well as
techniques for generating production schedules.
Deterministic and probabilistic dispatching conditions.
Prereq : 3520.
4250 Work Measurement Applications (3) Application
of learning curves, queuing theory, standard
data methods, and incentive systems to the design
of industrial work situations . Prereq : 3630 .
4310 Seminar (1) Discussions, lectures, and trips to
unify student's educational experience . Prereq :
Senior standing in industrial engineering .
4520 Engineering Economy (3) Methods and problems
in selection or replacement of equipment . Decisions
among engineering alternatives involving
capital recovery, economic life of equipment, and
rate of return on investment .
4530 Case Studies in Engineering Economy (3) Extension
of basic engineering economy principles to
actual problems faced by competitive firms and regulated
industries . Case studies taken from literature
form basis of classroom discussion . Out-of-class
assignment involves working with local companies
to evaluate make or buy options, leasing versus cash
purchases, equipment replacement studies, energy
source economies, etc . Prereq : 4520 .
4540 Industrial Development (3) Factors other than

mechanical or chemical which enter into successful
establishment of manufacturing enterprise. Cost
and location studies and market analysis to determine
the commercial feasibility of new plants or
projects .
4590 Simulation (3) Generation of outcome of complex
random process by computer . Models of complex
systems using available simulation languages .
Simulation as design tool in industrial systems . Prereq
: 3430 and Computer Science 3150.
4600 Predetermined Time Systems(3) Work design
and measurement using a predetermined time system
such as Methods Time Measurement, Basic Motion
Time-Study, or Work Factor. Theory and application
. Prereq : 3630 .
4610 Human Factors In Work Design II (3) Human
capabilities and limitations affecting work place
layouts, working environments, design of tools and
equipment, and communications and response in
man-machine systems . Prereq : 3600, 3630, or consent
of instructor.
4830 Health Systems Engineering (3) Hospital
management systems and means by which they may
be improved through application of modern industrial
engineering principles and techniques . Prereq :
3620.
4840 Industrial Plant Problems Analysis (3) Industrial
problems, application of industrial engineering,
field assignment in local industry, problem definition,
analysis, and presentation . Prereq : 3630, 3440,
3510, 3520, 4520, 4860 .
4860 Industrial Systems Analysis (3) Matrices and
linear vector spaces for industrial systems models .
Laplace and Z transform techniques and applications.
General system description and modeling .
Applications to industrial processes and systems .
Prereq : 3510, 3520, Math 2860.
4870 Mini-Computer Applications in Industrial Engineering
(3) Introduction to computer hardware
and man-computer interfaces ; emphasis on small
computers as an element of larger system ; applications
and limitations of small computers in solving
industrial engineering problems. Prereq : Senior
standing .
4910-20-30 Special Industrial Engineering Topics
(3, 3, 3) May be repeated for credit . Prereq : Consent
of instructor .
4950 Industrial Safety (3) Development of organization
and programs for prevention and control of
accidents with emphasis on OSHA Rules and Regulations
. Prereq : Senior standing .
GRADUATE
5000 Thesis
5002 Non-Thesis Graduation Completion (3-15)
5110 Work Design (3)
5210 Advanced Work Measurement (3)
5240 Facilities Planning and Design (3)
5250 Advanced Scheduling (3)
5260 Information Systems Design (3)
5280 Production and Inventory Systems (3)
5340 Applied Decision Theory (3)
5380 Statistical Methods in Industrial Engineering
(3)
5300 Seminar (3)
5420 Reliability Engineering (3)
5520 Advanced Engineering Economy (3)
5600 Human Factors Engineering (3)
5610 Human Factors Engineering (3)
$700 Optimization Methods in Industrial Engineering
(3)
5701 Operations Research Applications (3)
5710 Linear, Quadratic, and Dynamic Programming
(3)
5720 Queuing Models, Inventory, and Simulation
(3)
5730 Game Theory and Random Processes (3)
5810 Theory of Industrial Automatic Control (3)
5830 Health Systems Engineering II (3)
5840 Air Traffic Control Systems (3)
5850 Dynamic System Simulation (3)
5900 Design Project (1-9)
5910-20-30 Special Topics in Industrial Engineering
(3, 3, 3)
6400 Probabilistic Methods In Engineering Systems
(3)
6520 Operations Research Models in Engineering
Economy Decisions (3)
6700 Nonlinear Programming (3)
6730 Dynamic Programming (3)
6740 Advanced Topics in Optimization and
Dynamic Systems (3)
6910Advanced Topics in Industrial Engineering (3)
Mechanical and
Aerospace Engineering
Professors :
M . W. Milligan (Head), Ph .D. Tennessee P.E . ;
J . F . Bailey , Ph .D . Lehigh, P.E . ; G . W. Braun'
(Emeritus), Ph .D . Gottingen ; A. J . Edmondson,
Ph .D . Texas A 8 M, P.E . ; W. Frost', Ph .D.
Washington ; B . H . Goethert' (Emeritus), Ph .D .
Berlin ( ermany) ; K . E . Harwell*, Ph .D. California
Institute of Technology ; J . W. Hodgson, Ph .D .
Georgia Institute of Technology, P.E . ;
R . W. Holland, M.S . Tennessee, P.E . ;
W. S. Johnson, Ph .D . Clemson, P.E. ;
E. G . Keshock, Ph .D . Oklahoma State ;
H . Liston, Jr . (Associate Vice Chancellor for
Academic Affairs), M.E.A . George Washington ;
E . Lumsdainez, Ph .D . New Mexico State ;
R . C . Matthews (Emeritus), B.S . Illinois ;
R . L. Maxwell, M.S . Case, P.E . ; M. K . Newman*
(Emeritus), Ph .D . Columbia, P.E . ; R. L . Reid,
Ph .D. Southern Methodist ; F . Shahrokhi',
Ph .D. Oklahoma ; F . H . Speckhart, Ph .D . Georgia
Institute of Technology, P.E . ; W. K. Stair, M.S .
Tennessee ; J . M. Tucker (Emeritus), M.S . Illinois ;
H . J . Wilkerson, Ph .D . Tennessee, P.E . ;
J . M. Wu', Ph .D. California Institute of
Technology ; J . C . L . Wu', Ph .D. California
Institute of Technology ; R . L . Young', Ph .D .
Northwestern, P.E .
Associate Professors :
R . V . Arimilli, Ph .D . VPI S SU ;
S . E . Becker, Ph .D . North Carolina State, P.E . ;
C . W. Brown, M.S . Tennessee, P.E . ;
S . N . Chaudhuri', Ph .D. Indian Institute of
Science ; F. G . Collins, Ph .D . California
(Berkeley) ; J . A . Euler, Ph .D . Purdue ;
T. Feagin', Ph .D . Texas ; R . J . Krane,
Ph .D . Oklahoma ; M. Kurosaka',
Ph .D . California Institute of Technology ;
J . R . Maus', Ph .D . North Carolina State ;
T. H . Moulder', Ph .D . Tennessee ;
G . V. Smith, Ph .D. Pennsylvania State ;
J . W. White, Ph .D . Stanford .
Assistant Professors :
C . D . Nelson, Ph .D . Clemson ; J . R. Missimer,
Ph .D . Tennessee ; M. Parang, Ph .D.
Oklahoma ; J . R . Parsons, Jr ., Ph .D .
North Carolina State ; T . C. Powell*,
Ph .D . Kentucky .
Instructor :
W. J . Collie, M.S . Florida .
'Alumni Distinguished Service Professor .
20n leave.
'Space Institute, Tullahoma.
BACHELOR OF SCIENCE PROGRAM
Separate, complete curricula are offered in
areospace engineering and mechanical
engineering ; however, the first two years of
these curricula are identical . During the first
two years, the curricula provide for training
and study in the basic sciences of physics,
mathematics, chemistry, and engineering
common tothese fields . The third year of both
College of Engineering 15 1
programs continues with the development of
the particular engineering sciences of the
aerospace and mechanical engineering
fields . In the senior year an opportunity is
provided for the student to apply this
fundamental knowledge to mechanical
aerospace engineering problems . Both
curricula are arranged with flexibility in the
upper-division years to permit emphasis on
preparation for graduate study or technical
employment .
Aerospace engineering has scientific
foundations close to those of mechanical
engineering . The aerospace engineer,
however, devotes attention particularly to the
research, development, design, testing, and
production of aerospace vehicles-aircraft,
spacecraft, missiles ; auxiliary
systems-heating, cooling, guidance,
control ; and propulsion systems-piston
engines, turbo-jets, ramjets, and rockets .
Mechanical engineering has its foundation
in the basic sciences and requires an
understanding of such areas of applied
science as solid and fluid mechanics,
thermodynamics, heat transfer, structures,
vibrations, mechanical design,
manufacturing processes, and
instrumentation in order to resolve the
complex engineering problems of the real
world .
In the mechanical engineering curriculum,
the student, with the aid and approval of an
adviser, must select a senior year program of
mechanical engineering and technical
electives . The following areas of
concentration are available :
Energy . A study of energy conversion
systems and the laws governing energy
transformations . This option includes the
design and analysis of conventional and
future power generating systems utilizing
various energy sources . The central courses
are Mech . Engr. 4140-50-60 .
Environment. A study of the systems which
control the environment within enclosed
spaces . The program includes the design and
analysis of airconditioning, refrigeration, and
heat pump devices encompassing heating,
cooling, ventilation, humidifying, and noise
control . The central courses are Mech . Engr.
4710-20-30 .
Manufacturing. A study of manufacturing
methods and production processes common
to mass production industries . The program
includes the selection of processes, design of
tools and fixtures, numerical control, and
analysis and design of the total
manufacturing system . The central courses
are Mech . Engr. 4621-22-23-24 with related
courses in metallurgy .
Machine Design .The study and application
of the principles of mechanics, materials, and
manufacturing processes to the design and
analysis of machine elements, machines, and
structures . The central courses are Mech .
Engr . 4660 and 4690 .
Propulsion . The study of propulsion
devices for ground vehicles, aircraft, and
spacecraft . The program covers the analysis
and design of internal combustion engines,
gas turbines, jet and rocket engines using
conventional and non-conventional fuels.
The central courses are Mech . Engr. 4810and
Aero . Engr . 4250-60 .
Aerospace. The study of aircraft and
spacecraft including the mechanics of flight
and related systems and propulsion devices .

152 College of Engineering
The program includes the analysis and design
of a variety of aerospace vehicles and
systems . The central courses are Aero . Engr .
4240-50-60 .
GRADUATE STUDY PROGRAMS
Graduate programs leading to the degrees
of Master of Science, Master of Engineering,
and Doctor of Philosophy with specialization
in mechanical engineering or aerospace
engineering are available to graduates of
recognized undergraduate curricula in
mechanical or aerospace engineering and to
graduates of other curricula who satisfy the
necessary prerequisite courses . The general
requirements for advanced degrees are
summarized in the Graduate Catalog .
Mechanical Engineering (650)
2040 Introduction to Mechanical Engineering (1)
Presentation and discussion of topics related to mechanical
engineering . S/NC .
3000 Energy-An Overview (4) Introduction to
available energy resources, recovery, and utilization
; power generation techniques including conservation
schemes ; emphasis on the resourcesenvironment-man
interaction associated with energy
; primarily for non-engineering students .
3040 Seminar (1) Presentation and discussion of
topics related to mechanical engineering . Prereq :
Junior standing . S/NC .
3110 Applied Engineering Thermodynamics (3)
Energy and laws governing energy transformations ;
thermodynamic properties ; applications to engineering
problems . Prereq : Basic Engr . 1330,
Chem . 1130, and Math 1860 ; for non-departmental
engineering students .
3311 Engineering Thermodynamcis (3) Energy and
laws governing energy transformations ; thermodynamic
properties . Prereq : Basic Engr . 1330,
Chem . 1130, and Math 1860 .
3321-30 Engineering Thermodynamics (2, 3) Properties
of gases and gas mixtures ; chemical reactions
; equilibrium ; applications to mechanical
engineering problems . Prereq : 3311 and 3321 respectively
.
3410 Fluid Flow (3) Development of continuity,
momentum, andenergy principles for fluid systems ;
applications to mechanical and aerospace engineering
problems . Prereq : Math 2850 ; coreq :
3311 .
3440 Heat Transfer (3) Heat transfer processes, heat
conduction, thermal radiation . Prereq : 3910, Math
2860 ; coreq : 3311 .
3520-30-40 Thermal Sciences (3, 3, 3) Fundamental
principles of thermodynamics and transport
phenomena as applied to engineering design . For
non-departmental majors . To be taken in sequence .
Prereq : Math 2850 and Basic Engr . 1330.
3610 Mechanics of Machinery-Kinematics (3) Machine
motions, graphical and analytical methods ;
instantaneous centers ; velocities ; accelerations.
Prereq : Graphics 1330 and Engr. Sci . & Mach . 3700 .
3620 Mechanics of Machinery-Dynamics (3) Applications
of Newton's laws, work, energy, and impact
to machinery . Force analysis of mechanisms,
balancing, gyroscopic effects, fly-wheels. Prereq :
3610 .
3630 Mechanics of Machinery-Vibrations (3) Free
and forced vibrations of single and multiple degree
vibrating systems . Balancing of machinery. Prereq :
3620, 3910 .
3650 Introduction to Machine Design (3) Ductilebrittle
behavior of materials under static and cyclic
loading . Stress concentration, design factors, and
theories of failure . Changes in material behavior in
processing and fabrication . 2 hrs and 1 2-hr lab .
Prereq : Met . Engr . 2110, Engr. Sci & Mach . 3311 .
3660 Manufacturing Processes (3) Selection of
processesas related to the design of machine parts.
Casting, hot and cold forming, metal removal, and
weldments . Manufacturing tolerances and surface
finishes . 2 hrs and one 2-hr lab . Prereq : Met . Engr .
2110 .
3910 Engineering Analysis (3) Advanced analysis
techniques for problems of aerospace and mechanical
engineering . Emphasis on approximate
methods. Prereq : Computer Science 3150 .
4010 Thesis (3) Problem investigation and report .
Prereq : Senior standing .
4140 Energy Conversion Systems (3) Laws governing
energy transformations and their application to
power plants. Prereq : 3330 ; coreq : 4420 .
4150 Energy Conversion Systems (3) Operating
and design characteristics of new technology energy
conversion systems, selected direct conversion
techniques. Prereq : 3330, 4420 .
4160 Energy Conversion Systems (3) Economic
and technical design parameters as applied to
power plants for public utilities or industrial applications
; selected design and layout problems . Prereq :
4140-50 and Ind . Engr . 4520 .
4170 Turbo-Machinery (3) Basic principles of
turbo-machinery ; systematic methods of analysis,
design, performance evaluation . Prereq : Aerospace
Engr . 3511 .
4180 Energy Production and Utilization (3) Thermodynamic
constraints on energy production ;
comparison of new energy sources and concepts ;
energy conservation schemes . Prereq : Senior
standing in engineering .
4220 Environmental Noise (3) Basic principles of
acoustics-measurement and control of noise in industrial
and community environments . Prereq :
Senior standing in engineering or consent of instructor.
4310 Seminar (1) Discussion of topics related to
engineering ; includes inspection trips to industrial
plants. Prereq : Senior standing . S/NC .
4320 Seminar (1) Presentation and discussion of
topics related to engineering . Prereq : Senior standing
.
4420 Heat Transfer (3) Heat transfer by free and
forced convection, heat transfer in phase change,
heat transfer in high speed flow, heat exchanger
applications . Prereq : 3440; coreq : Aerospace Engr .
3511 .
4450 Lubrication (3) Hydrodynamic theory of lubrication
of sliding bearings ; application of Navier-
Stokes equations to infinite and finite bearings ; analytical
and numerical solutions ; applications to design
. Prereq : 3440, Aerospace Engr . 3511 .
4471-91 Experimental Mechanical Engineering (3,
3) Experimental methods and measurements of
force, length, time, temperature, pressure,transport
rates, and physical properties. Planning, conducting,
analyzing, and reporting experimental tests run
according to test standards and other specifications
. Prereq : 3321, 3410, 3440, Engr. Sci . &
Mach . 3320 for 4471 ; 4471 and 4420 for 4491 .
4510 System Dynamics (4) Analytical models of
physical systems, linearization, Laplace transforms,
dynamic characteristics and stability of systems,
numerical simulations, and analog computer solutions.
Not for departmental graduate credit. Prereq :
3610 or Aerospace Engr . 3620 and Aerospace Engr .
3511 and Elec . Engr. 3110.
4520-30 Creative Design (3, 3) Application of engineering
principles to the solution of current problems
with emphasis on design innovation . Prereq :
Consent of instructor.
4621 Manufacturing Processes (3) Comparison of
machining methods ; plastic production ; metrology.
Prereq : 3650 and 3660 or consent of instructor .
4622 Tool Design (3) Principles underlying tool and
die design, design of high-volume production tools
and molds, work holding fixtures. Prereq : 3650-60 or
consent of instructor .
4623 Numerical Control Processing (3) Application
of data processing to machinetool control . Machine
language and computer utilization . Automatic tool
changing and transfer machines . Prereq : 3660 and
Computer Science 3150 .
4624 Manufacturing Engineering Systems Design
(3) Design of complete manufacturing system for a
particular product : manufacturing planning, tool
and fixture design, selection of manufacturing operations,
redesign of product to reduce cost . Prereq :
4621 and Ind . Engr. 4520 ; coreq : Met . Engr . 3710.
4625 Manufacturing Process Engineering 1(3)
Product specification : dimensional analysis of size
and form ; true position tolerance theory ; tolerance
analysis ; and workplace control for production to
tolerance . Prereq : 3660 or Ind . Engr. 4040 .
4631 Energy Methods In Mechanical Design (3) Application
of strain energy principles in complex
beams and structures. Prereq : 3630, 3650, and
Computer Science 3150 or consent of instructor .
4632 Application of Lagrangian Mechanics in Vibration
Problems (3) Generalized coordinates and
multiple degree of freedom vibrating systems . Prereq
: 4631 .
4633 Matrix Analysis (3) Application of matrices to
solution of complex structures and lumped parameter
vibrating systems . Prereq : 4632 .
4880 Materials and Manufacturing Process (3)
Selection of materials in design process, emphasizing
relationship between stress and strain analysis,
material properties, environment, temperature,
manufacturing technology, and cost . Prereq : 3650,
3660.
4670 Machine Elements (3) Application of strength
and properties of materials, design factors, theories
of failure to design of machine elements, springs
and shafting, selection of sleeve and rolling element
bearings . Prereq : 3620, 3650, Engr . Sci . and Mach .
3320 .
4680 Machine Elements (3) Application of strength
and properties of materials, design factors, theories
of failure to design of cams, gearing, brakes, and
clutches ; selection of chains and belting . Prereq :
3630, 3650, and Engr. Sci . & Mach . 3320 .
4690 Machine Design (3) Innovative design of complete
machine ; documentation including specifications,
design calculations, working drawings,
and cost analysis . Written and oral report . Prereq :
4670-80, and Ind . Engr . 4520.
4710 Thermal Environmental Systems (3) Vapor
compression and absorption cycles ; heat pump systems
; moist air properties ; psychrometric processes
. Prereq : 3330, 3440.
4720 Thermal Environmental Systems (3) Design
analysis of air washers, cooling towers and extended
surface coils ; solar radiation ; building heat
transmission ; physiological effects . Prereq : 4420,
4710.
4730 Thermal Environmental Systems (3) Design of
heating ventilation and air conditioning systems .
Prereq : 4720 and Ind . Engr. 4520.
4740 Solar Energy Utilization (3) Nature and availability
of solar radiation ; review of selected heat
transfer topics pertinent to solar energy collection
and use ; design analysis of solar energy collectors
and method of storage ; selected applications . Prereq
: 3321, 4420, or consent of instructor .
4810 Internal Combustion Engines (3) Thermochemical
phenomena in internal combustion and
propulsion engines. Combustion, detonation ; equilibrium
; dissociation . Analysis of internal combustion
engines using ideal and real fluids . Prereq :
3330, 3440 .
4830 Propulsion Systems (3) Design of propulsion
engine and supporting systems . Prereq : 4810 and
Ind . Engr . 4520.
4910-20-30 Selected Topics in Mechanical Engineering
(3, 3, 3) Problems related to developments
and practice in mechanical engineering . Prereq :
Consent of instructor.
GRADUATE
5000 Thesis
5002 Non-Thesis Graduation Completion (3-15)
5110 Conduction Heat Transfer (3)
5120 Convection Heat Transfer (3)
5130 Radiation Heat Transfer (3)
5140 Phase Change Heat Transfer (3)

5210 Classical Thermodynamics (3)
5220 Microscopic Thermodynamics (3)
5230 Special Topics in Thermodynamics (3)
5310 Intermediate Fluid Mechanics (3)
5314 Hydrodynamic Lubrication (3)
5410-20-30 Research in Mechanical Engineering
(3, 3, 3)
5510-20-30 Mechanical Engineering Design (3, 3, 3)
5540-50-60 Advanced Strength of Materials(3,3, 3)
5610-20-30 Experimental Stress Analysis (3, 3, 3)
5640-50-60 Advanced Machine Design (3, 3, 3)
5670-80 Dynamics of Machinery (3, 3)
5690 Vibrations of Mechanical Systems (3)
5710 Metal Machining (3)
5800 Transfer Matrix Methods in Elastomechanics
(3)
5810-20 "30 Rocket Propulsion Systems (3, 3, 3)
5840-50-60 Turbo-Machinery Systems (3, 3, 3)
5870 Dynamic Modeling and Simulation (3)
5900 Selected Engineering Problems (3-9)
5950 Seminars (1)
5990 Special Topics In Mechanical Engineering
(1-3)
6000 Doctoral Research and Dissertation
6110-20 Advanced Topics In Fluid Mechanics and
Heat Transfer (3, 3)
6130-40 Advanced Radiation Heat Transfer (3, 3)
6420-30 Selected Topics in Thermodynamics (3,3)
6610 Engineering Vibrations (3)
Aerospace Engineering (018)
2040 Introduction to Aerospace Engineering (1)
Presentation and discussion of topics related to
aerospace engineering . S/NC .
3040 Seminar (1) Presentation and discussion of
topics related to aerospace engineering . Prereq :
Junior standing . S/NC .
3511 Fluid Flow (4) Continuity, momentum, and energy
theorems . Incompressible and compressible
flow in passages . Viscous losses. Includes weekly
lab . Prereq : Mech . Engr . 3311 and 3410.
3610 Dynamics (3) Newton's Law : work-energy
impluse-momentum, Lagrange equations, central
force, gyroscopic effects. Applications to aerospace
systems. Prereq : Engr . Sci . & Mech . 3700 ; coreq :
Mech . Engr. 3910 .
3620 Mechanical Vibrations (3) Free and forced vibrations
of single and multiple degree vibrating systems,
balancing of rotating machinery. Prereq : 3610
and Mech . Engr . 3910 .
3630"40 Structural Analysis of AerospaceVehicles
(3,3) Fundamentals of structural analysis as applied
to configurations of aerospace interest. Introduction
to aeroelasticity phenomena. Must be taken in
sequence . Prereq : Engr . Sci . and Mech . 3311 for
3630 ; Engr . Sci . and Mech . 3320 for 3640 .
4010 Thesis (3) Problem investigation and report
Prereq : Senior standing .
4110 Aerodynamic Fundamentals (3) Atmosphere,
dynamics and thermodynamics of perfect gases,
fluid flow types, airfoil theory, wing theory, drag . For
non-aerospace engineering majors only. Prereq :
Consent of instructor.
4120 Aircraft Propulsion and Performance (3)
Propellers, propulsion systems for aircraft, static
performance and special performance problems,
maneuvers, control surfaces, stability, and control .
For non-aerospace engineering majors only . Prereq
: 4110.
4210 Compressible Flow (3) One-dimensional
internal flow ; shock and expansion waves ; friction
and non-adiabatic flow . Prereq : 3511 and Mech .
Engr. 3321 .
4220 Low Speed Aerodynamics (3) Potential flow
theory ; kinematics and dynamics of perfect fluids ;
analysis and design of aerodynamic bodies . Prereq :
3511 and Mach . Engr. 3910.
4230 Viscous Flow (3) Boundary layer theory ; laminar
and turbulent flow ; compressibility effects ; numerical
solution methods . Prereq : 3511 and Mach .
Engr . 3910, 4420.
4240 Astronautics (3) Propulsion, trajectories,
guidance, control, andatmospheric reentryofspace
vehicle systems. Prereq : 3620, Mach . Engr . 3330 .
4250 Propulsion (3) Principles of propulsion devices
; turbo-jet, ram-jet, and rocket engines . Prereq :
4210 and Mech . Engr. 3330 .
4260System Design (3) Synthesis of aerospace system
. Design report on the system . Prereq : 4250 and
Mech . Engr. 3910 .
4310 Seminar (1) Discussion of topics related to
engineering ; includes inspection trips to industrial
plants . Prereq : Senior standing . S/NC.
4320 Seminar (1) Presentation and discussion of
topics related to engineering . Prereq : Senior standing
.
4471-91 Experimental Aerospace Engineering (3,
3) Experimental methods and measurements of
force, length, time, temperature, pressure,transport
rates, and physical properties . Planning, conducting,
analyzing, and reporting experimental tests run
according to test standards and other specifications
. Prereq : Mech . Engr . 3321, 3410, 3440
and Engr. Sci . & Mech . 3320 for 4471 ; 4471 and
Mech . Engr . 4420 for 4491 .
4510 Airplane Performance (3) Introduction to airfoil
and wing characteristics, drag ; propellers ; static
performance and maneuvers ; theory and design of
control surfaces ; stability. Prereq : 3511 .
4910 Selected Topics in Aerospace Science (3)
Current problems in aerospace science ; topics in
science and engineering required for an understanding
of the several areas of aerospace science .
Prereq : Consent of instructor.
GRADUATE
5000 Thesis
5002 Non-Thesis Graduation Completion (3-15)
5110 Fundamentals of Aerodynamics (3)
5120 Experimental Methods in Fluid Mechanics (3)
5150-60-70 Vehicle Aerodynamics and Performance
(3, 3, 3)
3)10-20 Aerodynamics of Compressible Fluids (3,
5240 Dynamics of Viscous Fluids (3)
5250 Introduction to Hypersonic Flow (3)
5260 Selected Topics In Aerodynamics (3)
5270-80-90 Aerospace Ground Test Facilities (3, 3,
3)
5310 Magnetchydrodynamics (3)
5340-50 Atmospheric Entry (3)
5440-50 Transonic Flow (3, 3)
5510-2030 Aerospace Mechanics (3, 3, 3)
5)540-50 Aerospace VehicleStability andControl(3,
5560 Vertical or Short Take-Off and Landing Aircraft(3)
5570 Aerospace Vehicle Flutter and Vibration (3)
5580-90 Aeroslasticity (3, 3)
5610 Applied Acoustics (3)
5620 Aeroacoustics 1(3)
5810 Aviation Systems : An Overview (3)
5820 Air Vehicles (3)
5900 Selected Engineering Problems (3-9)
5950 Seminars (1)
College of Engineering
5990 Special Topics in Aerospace Engineering
(1-3)
8000 Doctoral Research and Dissertation
6310-20-30 Magnetohydrodynamics (3, 3, 3)
6410-20 Physical Gasdynamics (3,3)
8510-20-30 Advanced Aerodynamics (3, 3, 3)
6810 Advanced Boundary Layer Theory (3)
6910 Advanced Topics In Gas Dynamics (3)
Nuclear Engineering
(716)
Professors :
P . F . Pasqua (Head), Ph .D . Northwestern, P.E . ;
G. de Saussure', Ph .D . Massachusetts ;
J . B . Fussell, Ph .D . Georgia Institute of
Technology ; T . W. Kerlin, Jr., Ph .D. Tennessee ;
H . G. MacPherson (Emeritus), Ph .D . California
(Berkeley) ; J. T . Mihalezo, Ph .D . Tennessee ;
J. E . Mott, Ph .D . Minnesota ; R . B . Perez,
Ph .D . University of Madrid ; J.C . Robinson,
Ph .D . Tennessee ; H . C . Roland, Ph .D .
Tennessee ; P.N . Stevens, Ph .D .
Northwestern, P.E . ; J. J . Wagschal',
Ph .D . Hebrew University .
Associate Professors :
H . L . Dodds, Ph .D . Tennessee, P.E . ;
O . L . Smith, Ph .D . Missouri .
Assistant Professors :
E . M. Katz, Ph .D. Tennessee ; L . F . Miller, Ph .D .
Texas A& M; B . R . Upadhyaya, Ph .D . California
(San Diego) .
'Honorary .
BACHELOR OF SCIENCE PROGRAM
The curriculum in nuclear engineering is
designed to provide basic training in many of
the fields encountered in the applications of
nuclear and radioactive materials. The first
two years are concerned with the
fundamental courses in engineering, physics,
mathematics, chemistry, and English . The
last two years encompass scientific and
engineering courses equipping the student
for entry into a variety of work in industry,
research, or graduate studies .
MASTER OF SCIENCE AND MASTER
OF ENGINEERING PROGRAMS
A graduate program leading to a degree of
Master of Science and Master of Engineering
is available to graduates of recognized
undergraduate curricula in engineering and
physics . Each applicant will be advised as to
the necessary prerequisite courses before
entering the program .
The general requirements of the masters'
degrees are summarized in the Graduate
Catalog .
DOCTORAL PROGRAM
A program leading to the Ph .D . degree is
available in nuclear engineering . For details,
see the Graduate Catalog .
2310-20-30 Seminar (1, 1, 1) Presentation and discussion
of topics related to nuclear engineering .
S/NC .
3010 Nuclear Reactor Systems (4) Nuclear fuel
cycle-mining through waste disposal, priciples of
nuclear reactors, radiation effects, treatment of
radioactive effluents, power plant siting, reactor
safety . Prereq : Physics 2320 .
3030 Introduction to Reactor Analysis (3) Nuclear
reactions and radiations, cross section, fission
process, diffusion and slowing down, steady state
reactor theory criticality condition, reflected reactors
. Prereq : Physics 3720 ; Math 4710 .
3040 Environmental Effects of Nuclear Technology
(3) Study of effects on environment since advent of
153

15 4 College of Engineering
military and peaceful uses of nuclear energy . Prereq
: one year of biological or physical science .
3150 Dynamics and Controls (3) Systems differential
equations ; solution by classical methods ; Laplace
transform method ; frequency response, stability,
and control . Coreq : 4110.
3210-20 Thermodynamics (4,4) Properties and laws
of .thermodynamic systems . First and second laws
used to analyze power plant systems-both fossil
and fission . Prereq : Math 2860and Basic Engr .1330 .
3730 Momentum Transport (4) Development of differential
and integral momentum equations ;
elementary theory of turbulence, applications to piping
systems, pumps and nuclear reactors . 3 lecs .
and one lab . Prereq : Math 4710.
4010 Thesis (3) Investigation and report of nuclear
engineering problems . Prereq : Senior standing .
4110-20-30 Introduction to Nuclear Reactor Theory
(3, 3, 3) Nuclear structure ; radioactive decay laws ;
neutron interaction ; fission process, chain-reacting
systems ;
diffusion equation including multigroup
diffusion theory, neutron moderation ; reactivity
coefficients ; perturbation theory . Prereq : Physics
3730 or consent of instructor .
4140 Thermonuclear Systems (3) Fusion reactions ;
properties of plasmas ; plasma containment ; plasma
diagnostics ; thermonuclear devices . Prereq :
Physics 3730 ; Math 4550 .
4210-20-30 Nuclear Engineering Laboratory (3, 3, 3)
Radiation detection and counting instrumentation,
counting statistics, half-life and decay schemes,
gammaspectrometry, cross-section measurements,
analog computation, diffusion properties of neutrons,
critical loading experiments, control rod calibration,
statistical weight, shielding, xenon poisoning,
prompt critical reactor behavior, fission density,
and adjoint flux . Prereq : 4110 (or registration
therein), or equivalent .
4430 Probabilistic Safety of Nuclear Power Systems
(3)Techniques for evaluation of nuclear power
system safety and risk from a probabilistic point of
view. Concepts of fault trees, event trees and block
diagram. Qualitative and quantitative techniques .
Prereq : Senior standing in engineering .
4610-20-30 Reactor PowerSystems(3,3, 3) Nuclear
structure, decay laws, neutron diffusion, time behavior
of reactors, heat removal, analysis of reactor
power plants ; economic, safety, and environmental
aspects of nuclear power. Prereq : Math 4610 ; nonnuclear
engineering students only.
4710 Energy Transport(4) Development of differential
and integral energy conservation equations ;
conduction, convection, and radiation heat transfer ;
application of nuclear reactor fuel elements and
hear exchangers . Prereq : 3730.
4720 Reactor Thermal Design (4) Hydrodynamics
and heat transfer in boiling systems ; boiling crises ;
fuel element thermal design, steam generator design
. Prereq : 4710.
4730 Nuclear Reactor Design (3) First order reactor
design, integration with non-nuclear heat transfer
and power conversion system, economic evaluation
; optimization procedures, description of typical
systems. Coreq : 4130
4810 Radiation Shielding (3) Types of radiation
sources, gamma ray and neutron attenuation,
biological effectsof radiation, shield design . Prereq :
Physics 3730, Math 4550 .
4820 Reactor Kinetics and Controls (3) Derivation
of kinetic equations ; basic kinetic parameters ;
transient response with feedback ; control and protective
systems . Prereq : 4110 .
4840 Nuclear Reactor Safety (3) Presentation of
reactor safety concepts and criteria ; credible accidents
; fission product release and transport ; containment
systems ; accident analysis ; engineered
safeguards . Prereq : 4120 .
4930 Nuclear Fuel Management (3) Discussion of
problems associated with processing of nuclear materials
; fuel cycle analysis ; burn-up calculation . Prereq
: 4120 .
GRADUATE
5000 Thesis
5002 Non-Thesis Graduation Completion (3-15)
5110-20-30 Transport Processes in Nuclear Engineering
(3, 3, 3)
5210 System Dynamics (3)
5220 Reactor System Dynamics (3)
5230 Experimental Methods in Reactor Dynamics
(3)
5240 Reactor Instrumentation (3)
5310-20-30 Nuclear Systems Reliability (3, 3, 3)
5510-20-30 Nuclear Systems (3, 3, 3)
5710-20-30 Nuclear Reactor Theory (3, 3, 3)
5740 Reactor Shielding (3)
5790 Monte Carlo Shield Design Shielding (3)
5840-50 Fast Breeder Reactors (3, 3)
5970 Special Topics In Nuclear Engineering (3)
5980 Nuclear Engineering Practice (3-12)
6000 Doctoral Research and Dissertation
6110-20-30 Selected Topics in ReactorTheory (3, 3,
3)
6140 Radiation Shielding (3)
6150 Reactor Dynamics (3)
6510 Nuclear Reactor Noise Analysis (3)
6710 Two-Phase Flow and Heat Transfer (3)