2009-2010 Bulletin â PDF - SEAS Bulletin - Columbia University

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140 ELECTRICAL ENGINEERING PROGRAM: FIRST AND SECOND YEARS EARLY-STARTING STUDENTS SEMESTER I SEMESTER II SEMESTER III SEMESTER IV MATHEMATICS PHYSICS (three tracks, choose one) CHEMISTRY MATH V1101 (3) MATH V1102 (3) MATH V1201 (3) MATH V1202 (3) and APMA E2101 (3) 3 C1401 (3) C1402 (3) C1601 (3.5) C1602 (3.5) C2801 (4.5) C2802 (4.5) one-semester lecture (3–4) C1403 or C1404 or C3045 or C1604 CORE REQUIRED COURSES ELEN E1201 (3.5) Introduction to electrical ELEN E3201 (3.5) ELEN E3331 (3) engineering (either semester) Circuit analysis Electronic circuts ELEN E3801 (3.5) CSEE E3827 (3) Signals & systems Fund. of computer sys. REQUIRED LABS ELEN E3081 (1) 2 ELEN E3083 (1) 2 Circuit analysis lab Electronic circuits lab ELEN E3084 (1) 2 ELEN E3082 (1) 2 Signals & systems lab Digital systems lab ENGLISH COMPOSITION (three tracks, choose one) REQUIRED NONTECHNICAL ELECTIVES COMPUTER SCIENCE PHYSICAL EDUCATION GATEWAY LAB C1010 (3) Z1003 (0) C1010 (3) Z0006 (0) Z1003 (0) C1010 (3) HUMA C1001, C0CI C1101, or Major Cultures (3–4); HUMA W1121 or W1123 (3); HUMA C1002, C0CI C1102, or Global Core (3–4); ECON W1105 (4) and W1155 recitation (0); some of these courses can be postponed to the junior or senior year, to make room for taking the above electrical engineering courses. C1001 (1) C1002 (1) E1102 (4) either semester COMS W1007 (3) any semester 1 1 COMS W1007 may be replaced by COMS W1003, W1004, or W1009, but impact on later options should be considered (see www.ee.columbia.edu/academics/undergrad). 2 If possible, these labs should be taken along with their corresponding lecture courses. 3 APMA E2101 may be replaced by MATH E1210 and either APMA E3101 or MATH V2010. circuits; programmable logic devices. The lab generally meets on alternate weeks. ELEN E3083y Electronic circuits laboratory Lab: 3. 1 pt. Professor Vallancourt. Prerequisite: ELEN E3081. Corequisite: ELEN E3331. Companion lab course for ELEN E3331. Experiments cover such topics as macromodeling of nonidealities of opamps using HSPICE; Schmitt triggers and astable multivibrators using opamps and diodes; logic inverters and amplifiers using bipolar junction transistors; logic inverters and ring oscillators using MOSFETs; filter design using opamps. The lab generally meets on alternate weeks. SEAS 2009–2010 ELEN E3084x Signals and systems laboratory Lab: 3. 1 pt. Instructor to be announced. Corequisite: ELEN E3801. Companion lab course for ELEN E3801. Experiments cover topics such as: introduction and use of MATLAB for numerical and symbolic calculations; linearity and time invariance; continous-time convolution; Fourierseries expansion and signal reconstruction; impulse response and transfer function; forced response. The lab generally meets on alternate weeks. ELEN E3106x Solid-state devices and materials Lect: 3. Recit. 1. 3.5 pts. Professor Bergman. Prerequisite: MATH V1201 or the equivalent. Corequisite: PHYS C1403 or PHYS C2601 or equivalent. Crystal structure and energy band theory of solids. Carrier concentration and transport in semiconductors. P-n junction and junction transistors. Semiconductor surface and MOS transistors. Optical effects and optoelectronic devices. ELEN E3201x Circuit analysis Lect: 3. Recit: 1. 3.5 pts. Professor Zukowski. Prerequisite: ELEN E1201 or the equivalent. Corequisite: MATH V1201. A course on analysis of linear and nonlinear circuits and their applications. Formulation of circuit equations. Network theorems. Transient response of first- and secondorder circuits. Sinusoidal steady-state analysis. Frequency response of linear circuits. Poles and zeros. Bode plots. Two port networks.
ELECTRICAL ENGINEERING: THIRD AND FOURTH YEARS EARLY-STARTING STUDENTS 141 TOTAL POINTS 6 16.5 17 16 18 SEMESTER V SEMESTER VI SEMESTER VII SEMESTER VIII PHYSICS C1403 (3) Lab C1494 (3) 1 (tracks continued) C2601 (3.5) Lab C2699 (3) Lab W3081 (2) ELEN E3106 (3.5) ELEN E3401 (4) Solid-state devices & Electromagnetics materials EE CORE ELEN E3701 (3) 2 REQUIRED Intro. to COURSES communication systems or CSEE W4119 (3) 2 Computer networks ELEN E3043 (3) One capstone design Solid state, microwave, course 3 (ELEN E3390, EE REQUIRED LABS & fiber optics lab ELEN E4332, EECS E4340, or CSEE W4840) ELEN E3399 (1) EE practice IEOR E3658 or STAT 4105 4 ; and COMS W3137 (or W3133, W3134, or W3139) OTHER REQUIRED (Some of these courses are not offered both semesters. Students with an adequate background COURSES can take some of these courses in the sophomore year) At least two technical electives in one depth area. The four depth areas are EE DEPTH TECH (a) photonics, solid-state devices, and electromagnetics; (b) circuits and electronics; (c) signals and systems; and (d) communications and networking (For details, see www.ee.columbia.edu/academics/undergrad) BREADTH TECH OTHER TECH At least two technical electives outside the chosen depth area; must be engineering courses (see www.ee.columbia.edu/academics/undergrad) Additional technical electives (consisting of more depth or breadth courses, or further options listed at www.ee.columbia.edu/academics/undergrad) as required to bring the total points of technical electives to 18 5 NONTECH Complete 27-point requirement; see page 11 or www.seas.columbia.edu for details (administered by the advising dean) ELECTIVES 1 Chemistry lab (CHEM 1500) may be substituted for physics lab, although this is not generally recommended. 2 These courses can be taken in the sophomore year if the prerequisites/corequisites are satisfied. 3 The capstone design course provides ELEN majors with a “culminating design experience.” As such, it should be taken near the end of the program and involve a project that draws on material from a range of courses. 4 SIEO W3600 and W4150 cannot generally be used to replace IEOR E3658 or STAT W4105. 5 The total points of technical electives is reduced to 15 if APMA E2101 has been replaced by MATH E1210 and either APMA E3101 or MATH V2010. 6 “Total points” assumes that 20 points of nontechnical electives and other courses are included. ELEN E3331y Electronic circuits Lect: 3. 3 pts. Professor Vallancourt. Prerequisite: ELEN E3201. Operational amplifier circuits. Diodes and diode circuits. MOS and bipolar junction transistors. Biasing techniques. Smallsignal models. Single-stage transistor amplifiers. Analysis and design of CMOS logic gates. A/D and D/A converters. ELEN E3390y Electronic circuit design laboratory Lab: 6. 3 pts. Professor Vallancourt. Prerequisites: ELEN E3082, E3083, E3331, E3401, and E3801. Advanced circuit design laboratory. Students work in teams to specify, design, implement, and test an engineering prototype. The work involves technical as well as nontechnical considerations, such as manufacturability, impact on the environment, and economics. The project is chosen by the instructor and may change from year to year. ELEN E3399x Electrical engineering practice 1 pt. Design project planning, written and oral technical communication, practical aspects of engineering SEAS 2009–2010
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The Fu Foundation School of Enginee
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A MESSAGE FROM THE DEANS As student
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About the School and University
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3 neers of the far-reaching politic
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RESOURCES AND FACILITIES 5 A COLLEG
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systems. www.columbia.edu/ cuit/cla
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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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to science and develop the range of
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Carleton College, Northfield, MN Ca
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One year of general chemistry, with
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UNDERGRADUATE ADMISSIONS 21 Office
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Transfer applicants should provide
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25 research work are required to me
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27 process for evaluating student
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29 2. Free Application for Federal
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Graduate Studies
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33 general studies, totaling from 6
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University’s income from tuition,
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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 Shih-Fu Chang Professor of Elect
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Jung-Chi Liao Assistant Professor o
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Michael I. Weinstein Professor of A
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Departments and Academic Programs
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55 IEOR INAF INTA Industrial Engine
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57 instability is guiding research
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of which 17 points must be technica
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M.S. Program in Applied Physics The
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APPLIED PHYSICS: THIRD AND FOURTH Y
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APPLIED MATHEMATICS: THIRD AND FOUR
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to satisfy the minimum residence re
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BIOMEDICAL ENGINEERING 351 Engineer
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First and Second Years As outlined
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in consultation with the student’
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BIOMEDICAL ENGINEERING: THIRD AND F
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BIOMEDICAL ENGINEERING: THIRD AND F
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the equivalent. Design, fabrication
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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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Page 149 and 150: EEME E4601y Digital control systems
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EAEE E3255: Environmental control a
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MINOR IN MATERIALS SCIENCE AND ENGI
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Interdisciplinary Courses and Cours
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COURSES IN OTHER DIVISIONS OF THE U
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EESC W3018y Weapons of mass destruc
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MATH V1202 Calculus IV Lect: 3 pts.
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203 W3107 as prerequisites; like ot
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Campus and Student Life
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207 the Office of Preprofessional A
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The Faculty in Residence Program al
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has been matched by the determinati
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213 only. Summer sublets are also a
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Scholarships, Fellowships, Awards,
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217 Leta Stetter Hollingworth Fello
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Burns and Roe, Arthur J. Fiehn Scho
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Ronald A. Kurtz Scholarship Fund (1
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Upton Fellowship For the children o
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Engineering and Operations Research
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University and School Policies, Pro
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229 averaging 16 points per term. S
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ut are still officially registered
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233 LEAVE FOR MILITARY DUTY Any stu
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235 University Information Technolo
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acknowledging the source, is consid
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239 MC 4333, 535 West 116th Street,
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SEXUAL ASSAULT POLICY On February 2
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243 appointed and the nature of the
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Directory of University Resources
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247 Donna Peters, Administrative As
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ENGINEERING AND APPLIED SCIENCE DEP
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OFFICE OF STUDENT GROUP ADVISING Se
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THE MORNINGSIDE HEIGHTS AREA OF NEW
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255 campus life, 206-211 campus saf
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engineering students and campus lif
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Middle East and Asian languages and
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The Fu Foundation School of Enginee
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2009-2010 Bulletin â PDF - SEAS Bulletin - Columbia University