2008-2009 Bulletin â PDF - SEAS Bulletin - Columbia University

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170 MSAE E3156x-E3157y Design project 3 pts. Members of the faculty. Prerequisite: senior standing. May be repeated with the permission of the undergraduate adviser. E3156: A design problem in materials science or metallurgical engineering selected jointly by the student and a professor in the department. The project requires research by the student, directed reading, and regular conferences with the professor in charge. E3157: Completion of the research, directed reading, and conferences, culminating in a written report and an oral presentation to the department. MSAE E3900x and y Undergraduate research in materials science 0 to 4 pts. Members of the faculty. This course may be repeated for credit, but no more than 6 points may be counted toward the satisfaction of the B.S. degree requirements. Candidates for the B.S. degree may conduct an investigation in materials science or carry out a special project under the supervision of the staff. Credit for the course is contingent upon the submission of an acceptable thesis or final report. MSAE E4090x Nanotechnology Lect. 3. 3 pts. Offered in alternate years. Not given in 2008–2009. Prerequisites: APPH E3100 and MSAE E3103 or their equivalents with instructor’s permission. The science and engineering of creating materials, functional structures and devices on the nanometer scale. Carbon nanotubes, nanocrystals, quantum dots, size-dependent properties, self-assembly, nanostructured materials. Devices and applications, nanofabrication. Molecular engineering, bionanotechnology. Imaging and manipulating at the atomic scale. Nanotechnology in society and industry. MSAE E4101x Structural analysis of materials Lect: 3. 3 pts. Professor Chan. Prerequisite or corequisite: MSAE E3103 or the instructor’s permission. Geometry of crystals, basic diffraction theory. X-ray diffraction. Techniques and theory of electron microscopy. Analysis of crystal structures and orientations. Microstructure characterization and analysis of crystalline defects. MSAE E4132y Fundamentals of polymers and ceramics Lect: 3. 3 pts. Not given in 2008–2009. Prerequisite: MSAE E3103 or the instructor’s permission. The science and engineering of polymer, ceramic, and composite inorganic materials. Fundamental aspects of structure, processing, and properties. Polymers: classification, synthesis, elastomers, thermoplastics, thermosets. Ceramics: crystal structure, morphology, classification, oxides, nitrides, carbides, silicates. Electrical, mechanical, thermal, and optical properties. Common and advanced technological applications, electrical/optical devices, catalytic and environmental applications. MSAE E4202y Thermodynamics and reactions in solids Lect: 3. 3 pts. Professor Im. Prerequisite: the instructor’s permission. Free energy of phases, the relationship between phase diagrams and metastability. Thermodynamics of surfaces and interfaces, effect of particle size on phase equilibria, Gibbs adsorption of solute at interfaces, grain boundaries, surface energy. Nucle-ation and growth, spinodal decomposition of phases. Diffusion in metals, intermetallic compounds and ionic crystals. Diffusion along interfaces. MSAE E4206x Electronic and magnetic properties of solids Lect: 3. 3 pts. Professor Bailey. Prerequisites: PHYS C1401, C1402, and C1403, or the equivalent. A survey course on the electronic and magnetic properties of materials, oriented toward materials for solid-state devices. Dielectric and magnetic properties, ferroelectrics and ferromagnets. Conductivity and superconductivity. Electronic band theory of solids: classification of metals, insulators, and semiconductors. Materials in devices: examples from semiconductor lasers, cellular telephones, integrated circuits, and magnetic storage devices. Topics from physics are introduced as necessary. MSAE E4207y Lattice vibrations and crystal defects Lect: 3. 3 pts. Professor Chan. An introductory course in topics of solid state physics other than electronics and magnetic properties. Elastic waves in solids. Phonons and lattice vibrations. Brillouin zones. Thermal properties of solids. Defects, such as point defects in metals, ionic crystals, semiconductors, and ceramics. MSAE E4215y Mechanical behavior of materials Lect: 3. 3 pts. Professor Noyan. Prerequisite: MSAE E3103. Recommended preparation: a course in mechanics of materials. Review of states of stress and strain and their relations in elastic, plastic, and viscous materials. Dislocation and elastic-plastic concepts introduced to explain work hardening, various materialsstrengthening mechanisms, ductility, and toughness. Macroscopic and microstructural aspects of brittle and ductile fracture mechanics, creep and fatigue phenomena. Case studies used throughout, including flow and fracture of structural alloys, polymers, hybrid materials, composite materials, ceramics, and electronic materials devices. Materials reliability and fracture prevention emphasized. MSAE E4250x Ceramics and composites Lect: 3. 3 pts. Offered in alternate years. Professor Guha. Prerequisites or corequisites: MSAE E3142 and MSAE E3104, or the instructor’s permission. The science and engineering of ceramic and composite inorganic materials, including oxides, nitrides, carbides, silicates, and complex materials. Structure, composition, and classification. Preparation: synthesis and processing of ceramics; modern techniques; crystal growth and reaction kinetics. The properties of ceramics and composites: structure-property relations; electrical, mechanical, thermal, and optical properties. Common and advanced technological applications of ceramics and composites: industrial utilization, electrical/optical devices, catalytic and environmental applications. MSAE E4301x and y Materials science laboratory 1 to 3 pts. Instructor to be announced. Prerequisite: the instructor’s permission. Materials science laboratory work so conducted as to fulfill particular needs of special students. MSAE E4990x and y Special topics in materials science and engineering Lect: 3. 3 pts. Instructors to be announced. Prerequisite: The instructor’s permission. This course may be repeated for credit. Topics and instructors change from year to year. For advanced undergraduate students and graduate students in engineering, physical sciences, and other fields. MSAE E6020y Electronic ceramics Lect: 3. 3 pts. Offered in alternate years. Not given in 2008–2009. Structure and bonding of ceramics and glasses. Point defects and diffusion. Electronic and ionic conduction. Dielectric, ferroelectric, magnetic, and optical ceramics. MSAE E6081x Solid state physics, I Lect: 3. 3 pts. Professor Pinczuk. Prerequisite: APPH E3100 or the equivalent. Knowledge of statistical physics on the level of MSAE E3111 or PHYS G4023 is strongly recommended. Crystal structure; reciprocal lattices; classification of solids; lattice dynamics; anharmonic effects in crystals; stress and strain; classical electron models of metals; and periodic, nearly periodic, and more advanced analysis of electron band structure. MSAE E6082y Solid state physics, II Lect: 3. 3 pts. Professor Aleiner. Prerequisite: MSAE E6081x or the instructor’s permission. Semiclassical and quantum mechanical electron dynamics and conduction; dielectric properties of insulators; semiconductors; defects; magnetism; superconductivity; low-dimensional structures; and soft matter. MSAE E6091y Magnetism and magnetic materials Lect: 3. 3 pts. Offered in alternate years. Instructor to be announced. Prerequisite: MSAE E4206, APPH E6081, or the equivalent. Types of magnetism. Band theory of ferromagnetism. Magnetic metals, insulators, and semiconductors. Magnetic nanostructures: ultrathin films, superlattices, and particles. Surface magnetism and spectroscopies. High-speed magnetization dynamics. Spin electronics. SEAS 2008–2009
MSAE E6120x Grain boundaries and interfaces Lect: 2. 3 pts. Offered in alternate years. Not given in 2008–2009. Prerequisite: the instructor’s permission. Suggested background: basic knowledge of materials science, dislocations, and point defects. The course gives an overview of the classic approaches in studying grain boundaries. Topics include boundary geometry and structure, boundary interactions with crystal defects, boundaries as shortcircuit diffusion paths, applications of boundary concepts to interfaces, and roles of grain boundaries in material properties and in kinetic phenomena in polycrystalline materials. MSAE E6220x Crystal physics Lect: 3. 3 pts. Offered in alternate years. Not given in 2008–2009. Prerequisite: MSAE E4206 or the instructor’s permission. The course develops the idea of a tensor and applies it to stress and, together with considerations of crystal symmetry, to the study of the physical constants of crystals, such as diamagnetic and paramagnetic susceptibility, dielectric constants, thermal expansivity, piezoelectric constants, and others. The physical properties are also studied against the background material of MSAE E4206. MSAE E6221x Introduction to dislocation theory Lect: 3. 3 pts. Offered in alternate years. Not given in 2008–2009. Prerequisite: MSAE E4215 or a course in theory of elasticity, or the instructor’s permission. Point and line imperfections. Theory of dislocations. Relation between imperfections and structuresensitive properties. MSAE E6225y Techniques in x-ray and neutron diffraction Lect: 3. 3 pts. Offered in alternate years. Not given in 2008–2009. Prerequisite: MSAE E4101. Crystal symmetry, diffraction, reciprocal space and Ewald sphere construction, radiation sources, analytical representation of diffraction peaks, diffraction line broadening, Fourier analysis of peak shape, texture analysis, diffraction analysis of stress and strain, diffraction analysis of order-disorder thermal diffuse scattering, small angle scattering, instrumentation in diffraction experiments, error analysis. MSAE E6229x Energy and particle beam processing of materials Lect: 3. 3 pts. Not given in 2008–2009. Prerequisite: MSAE E4202 or the instructor’s permission. Laser-, electron-, and ion-beam modification of materials to achieve unique microstructures and metastable phases for electronic and structural applications. Fundamentals of energy deposition and heat flow during laser- and electron-beam irradiation. Atomic displacement processes in ion-irradiated materials. Beaminduced microstructural evolution, crystallization, surface alloying, rapid solidification, and metastable phase formation. Review of current industrial applications. MSAE E6230y Kinetics of phase transformations Lect: 3. 3 pts. Offered in alternate years. Not given in 2008–2009. Prerequisite: MSAE E4202 or the instructor’s permission. Principles of nonequilibrium thermodynamics; stochastic equations; nucleation, growth, and coarsening reactions in solids; spinodal decomposition; eutectic and eutectoid transformations. MSAE E6251y Thin films and layers Lect: 3. 3 pts. Professor Chan. Vacuum basics, deposition methods, nucleation and growth, conditions for epitaxy, relation between microstructure and deposition conditions, stress, adhesion, interconnects, and electromigration. MSAE E6273x and y, and s Materials science reports 0 to 6 pts. Members of the faculty. Formal written reports and conferences with the appropriate member of the faculty on a subject of special interest to the student but not covered in the other course offerings. MSAE E8235x and y Selected topics in materials science Lect: 3. 3 pts. Instructor to be announced. This course may be repeated for credit. Selected topics in materials science. Topics and instructors change from year to year. For students in engineering, physical sciences, biological sciences, and related fields. MSAE E8236y Anelastic relaxations in crystals Lect: 3. 3 pts. Offered in alternate years. Not given in 2008–2009. Prerequisite: the instructor’s permission. Formal theory of anelastic relaxation phenomena. Detailed study of the mechanisms of anelasticity and internal friction in crystals, including the role of point defects, dislocations, grain boundaries, electron-phonon interactions, and ferromagnetic domain effects. MSAE E9000x and y Materials science and engineering colloquium 0 pts. Professor Im. Speakers from industry are invited to speak on the recent impact of materials science and engineering innovations. MSAE E9259x-E9260y Research topics in materials science and metallurgical engineering Lect: 1. 1 pt. Members of the faculty. Discussion of a group of technical papers related to a topic of current research interest. MSAE E9301x and y, and s Doctoral research 0 to 15 pts. Members of the faculty. Prerequisite: the qualifying examination for the doctorate. Required of doctoral candidates. MSAE E9309x and y, and s Proposal of research for the doctorate 0 to 3 pts Members of the faculty A written report prepared by the prospective doctoral candidate defining the proposed research for the dissertation, and oral defense of the proposal at the time of the qualifying examinations. MSAE E9800x and y, and s Doctoral research instruction 3, 6, 9, or 12 pts. Members of the faculty. A candidate for the Eng.Sc.D. degree must register for 12 points of doctoral research instruction. Registration in MSAE E9800 may not be used to satisfy the minimum residence requirement for the degree. MSAE E9900x and y, and s Doctoral dissertation 0 pts. Members of the faculty. A candidate for the doctorate may be required to register for this course every term after the course work has been completed, and until the dissertation has been accepted. Courses in other programs relevant to materials science and engineering: CHEE E4050: Principles of industrial electrochemistry CHEN E4201: Engineering applications of electrochemistry CHEE E4252: Introduction to surface and colloid chemistry CHEE E4530: Corrosion of metals CHEN E4620: Introduction to polymer science CHEN E4630: Polymer laboratory CIEN E4212: Structural assessment CIEN E4332: Finite element analysis, I CHEN E3110: Transport phenomena, I: theory and methodology of rate phenomena EAEE E4011: Industrial ecology of manufacturing EAEE E4160: Solid and hazardous waste management EAEE E4900: Applied transport and chemical rate phenomena EAEE E6228: Theory of flotation ENME E3113: Mechanics of solids ENME E6315: Theory of elasticity 171 SEAS 2008–2009
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The Fu Foundation School of Enginee
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A MESSAGE FROM THE DEAN The great s
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About the School and University
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3 trical section of the Navy’s Bu
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5 Beyond its schools and programs,
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THE COLUMBIA UNIVERSITY LIBRARIES T
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Undergraduate Studies
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11 to engage in ethical, analytic,
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APAM E1601y Introduction to computa
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• take a language or literature c
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State University of New York, Genes
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agreements with forty-one other sta
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UNDERGRADUATE ADMISSIONS 21 Office
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Subject Tests are required only if
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25 research work are required to me
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27 students are considered for fina
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29 following deadlines: February 1:
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Graduate Studies
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33 statements covering these specia
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mitted, except by written permissio
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GRADUATE ADMISSIONS 37 Office of Gr
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GRADUATE TUITION, FEES, AND PAYMENT
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FINANCIAL AID FOR GRADUATE STUDY 41
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and Applied Science are automatical
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Faculty and Administration
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47 Xi Chen Professor of Civil Engin
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Richard W. Longman Professor of Mec
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Alan C. West Samuel Ruben-Peter G.
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Departments and Academic Programs
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55 MEBM MECE MSAE MSIE MUSI PHED PH
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57 instability is guiding research
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approval is obtained from the depar
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applied physics specialties. The pr
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APPLIED PHYSICS: THIRD AND FOURTH Y
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APPLIED MATHEMATICS: THIRD AND FOUR
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APAM E9900x and y, and S9900 Doctor
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BIOMEDICAL ENGINEERING 351 Engineer
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First and Second Years As outlined
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Students must register for BMEN E97
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BIOMEDICAL ENGINEERING: THIRD AND F
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BIOMEDICAL ENGINEERING: THIRD AND F
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ehind the development of cell-based
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CHEMICAL ENGINEERING 801 S. W. Mudd
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The most extensive collection of in
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a minor in biomedical engineering m
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CHEMICAL ENGINEERING: THIRD AND FOU
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CHEN E4010x Chemical process analys
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CIVIL ENGINEERING: THIRD AND FOURTH
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ENGINEERING MECHANICS: THIRD AND FO
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CIEN E3304x and y Independent studi
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(GSAPP) that explores solutions to
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COMPUTER ENGINEERING PROGRAM Admini
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COMPUTER ENGINEERING: THIRD AND FOU
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COMPUTER ENGINEERING: THIRD AND FOU
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109 Linux servers for computational
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COMPUTER SCIENCE: THIRD AND FOURTH
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and programming skills in C. Columb
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COMS W4160y Computer graphics Lect:
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COMS W4771y Machine learning Lect:
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William E. Verplanck Scholarship (1
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Wlliam A. Hadley Award in Mehanical
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University and School Policies, Pro
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227 averaging 16 points per term. S
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The mark of UW: given to students w
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231 LEAVE FOR MILITARY DUTY Any stu
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233 (CUIT) policies and procedures
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more important, they play a major r
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237 MC 4333, 535 West 116th Street,
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SEXUAL ASSAULT POLICY On February 2
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241 appointed and the nature of the
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Directory of University Resources
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245 Art Humanities 826 Schermerhorn
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José Carlos Rivera, Senior Assista
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Melbourne Francis, Assistant Regist
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THE MORNINGSIDE HEIGHTS AREA OF NEW
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253 career counseling, 7 Career Res
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English and comparative literature,
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monthly payment plan, 28 Morningsid
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NOTES 259 SEAS 2008-2009
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