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

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86 CHEMICAL ENGINEERING PROGRAM: FIRST AND SECOND YEARS SEMESTER I SEMESTER II SEMESTER III SEMESTER IV MATHEMATICS MATH V1101 (3) MATH V1102 (3) MATH V1201 (3) MATH V1202 (3) and one of the following: MATH E1210 (3) Ord. diff. equations or APMA E2101 (3) Intro. to appl. math. PHYSICS (three tracks, choose one) C1401 (3) C1402 (3) Lab C1493 (3) C1601 (3.5) C1602 (3.5) C2801 (4.5) C2802 (4.5) Lab W3081 (2) CHEMISTRY (three tracks, choose one) ENGLISH COMPOSITION (three tracks, choose one) C1403 (3.5) and C1404 (3.5) C3443 (3.5) Lab C1500 (3) C1604 (3.5) C2507 (3) C3045 (3.5) C3046 (3.5) and Lab C2507 (3) C1010 (3) Z1003 (0) C1010 (3) Z0006 (0) Z1003 (0) C1010 (3) REQUIRED ELECTIVES NONTECH TECH Professional engineering elective (3) 1 CHEN E3100 (4) 3 One core humanities Three core humanities elective (3–4 points) 2 electives (11 points) 2 CHEM. ENG. REQUIREMENT Material & energy balances COMPUTER SCIENCE PHYSICAL EDUCATION GATEWAY LAB C1001 (1) C1002 (1) E1102 (4) either semester TOTAL POINTS 4 16.5 16.5 17.5 17 1 Students are encouraged to take CHEN 1040: Molecular engineering and product design. 2 Four core humanities electives should be taken as follows: In Semester III, HUMA C1001, C1101 (4), or any initial course in one of the Global Core sequences offered by the College (3–4); in Semester IV, HUMA C1002, C1102 (4), or the second course in the Global Core sequence elected in Semester III (3–4); also in Semester IV, ECON W1105 (4) with W1105 recitation (0) and either HUMA C1121 or C1123 (3). 3 Should be taken in Semester III, but may be moved upon adviser’s approval to Semester V if CHEM C3543: Organic chemistry lab is taken in Semester III. 4 Taking the first track in each row and E1102 in Semester II. here greater emphasis is placed on biological materials and cellular biophysics. Both theory and experiment are catered to. Students will be introduced to statistical mechanics and its application to soft matter research and to cellular biophysics. In parallel, the student will learn about genomics and cellular biology to develop an understanding of what the central and fascinating biological issues are. CHAP E4120: Statistical mechanics CHEN E6920: Physics of soft matter BIOC G6300: Biochemistry/molecular biology— eukaryotes, I BIOC G6301: Biochemistry/molecular biology— eukaryotes, II CHEN E4750: The genome and the cell CMBS G4350: Cellular molecular biophysics Genomic Engineering. Genomic engineering may be defined as the development and application of novel technologies for identifying and evaluating the significance of both selected and all nucleotide sequences in the genomes of organisms. An interdisciplinary course concentration in genomic engineering is available to graduate students, and to selected SEAS 2009–2010
CHEMICAL ENGINEERING: THIRD AND FOURTH YEARS 87 SEMESTER V SEMESTER VI SEMESTER VII SEMESTER VIII REQUIRED COURSES CHEN E3110 (4) CHEN E3120 (4) CHEN E4500 (4) CHEN E4510 (4) Transp. phenomena I Transp. phenomena II Process & product design I Process & product design II CHEE E3010 (4) CHEN E3210 (4) CHEN E4140 (3) Principles of chem. Chem. eng. Chem. & biochem. CHEN E4320 (4) eng. thermodynamics thermodynamics separations Molecular phenomenon in chem. eng. CHEN E4230 (3) CHEN E4300 (2) Reaction kinetics & Chem. eng. control reactor design REQUIRED LABS CHEN C3543 (3) 1 CHEN 3810 (3) Org. chem. lab Chem. eng. lab REQUIRED ELECTIVES NONTECH TECH 2 3 points 3 points 3 points 3 points 3 points 3 points 3 points TOTAL POINTS (normal track) 17 17 15 14 1 May be taken in Semester III with adviser’s permission if CHEN E3100: Material and energy balances is taken in Semester V. 2 The total of 12 points of required technical electives must include one chemical engineering course, one engineering course outside of chemical engineering, and 6 points of “advanced natural science” courses (i.e., chemistry, physics, biology, materials science, and certain chemical engineering courses—contact a departmental adviser for details). undergraduate students. The National Science Foundation is sponsoring the development of this concentration, which is believed to be the first of its kind. Courses in the concentration equip students in engineering and computer science to help solve technical problems encountered in the discovery, assembly, organization, and application of genomic information. The courses impart an understanding of the fundamental goals and problems of genomic science and gene-related intracellular processes; elucidate the physical, chemical, and instrumental principles available to extract sequence information from the genome; and teach the concepts used to organize, manipulate, and interrogate the genomic database. The concentration consists of five courses that address the principal areas of genomic technology: sequencing and other means of acquiring genomic information; bioinformatics as a means of assembling and providing structured access to genomic information; and methods of elucidating how genomic information interacts with the developmental state and environment of cells in order to determine their behavior. Prof. E. F. Leonard directs the program and teaches CHEN E4750. The other instructors are Profs. D. Anastassiou (ECBM E4060), Jingyue Ju (CHEN E4700, CHEN E4730), and C. Leslie (CBMF W4761). The departments of Chemical, Biomedical, and Electrical Engineering and of Computer Science credit these courses toward requirements for their doctorates. Students may take individual courses so long as they satisfy prerequisite requirements or have the instructor’s permission. All lecture courses in the program are available through the Columbia Video Network, which offers a certificate for those students completing a prescribed set of the courses. The course Introduction to genomic information science and technology (ECBM E4060) provides the essential concepts of the information system paradigm of molecular biology and genetics. Principles of genomic technology (CHEN E4700) provides students with a solid basis for understanding both the principles that underlie genomic technologies and how these principles are applied. The Genomics sequencing laboratory (CHEN E4760) provides hands-on experience in high-throughput DNA sequencing, as conducted in a bioscience research laboratory. The genome and the cell (CHEN E4750) conveys a broad but precise, organized, and quantitative overview of the cell and its genome: how the genome, in partnership with extragenomic stimuli, influences the behavior of the cell and how mechanisms within the cell enable genomic regulation. Computational genomics (CBMF W4761) introduces students to basic and advanced computational techniques for analyzing genomic data. Interested parties can obtain further information, including a list of cognate courses that are available and recommended, from Professor Leonard (leonard@columbia.edu). 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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Page 47 and 48: and Applied Science are automatical
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Page 73 and 74: BIOMEDICAL ENGINEERING 351 Engineer
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Transfer Students Transfer students
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3.Two communications or networking
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ELECTRICAL ENGINEERING: THIRD AND F
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ELECTRICAL ENGINEERING: THIRD AND F
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EEME E4601y Digital control systems
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ELEN E6711x Stochastic models in in
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ELEN E4741x Introduction to biologi
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INDUSTRIAL ENGINEERING AND OPERATIO
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B.S. in Operations Research: Financ
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In addition to courses within the E
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of one or more random variables. Mo
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INDUSTRIAL ENGINEERING: THIRD AND F
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OPERATIONS RESEARCH: THIRD AND FOUR
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OPERATIONS RESEARCH: ENGINEERING MA
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OPERATIONS RESEARCH: FINANCIAL ENGI
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MATERIALS SCIENCE AND ENGINEERING P
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OTHER MSAE E3900: Undergraduate res
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MATERIALS SCIENCE AND ENGINEERING:
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periodic, and more advanced analysi
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175 straints, and the teamwork need
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sues; cell mechanics; and mixture t
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MECHANICAL ENGINEERING: THIRD AND F
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MECHANICAL ENGINEERING: THIRD AND F
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MECE E3038y Mechanical engineering
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instructor’s permission. Computer
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Undergraduate Minors
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189 MINOR IN ARCHITECTURE 1. Studio
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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