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| 9 AM | CHEM 30 @ Science Center E | | CHEM 30 @ Science Center E | | CHEM 30 @ Science Center E | |
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| 10 AM | PHYSICS 232 @ Jefferson Lab 356 | MATH 126 @ Science Center 507 | PHYSICS 232 @ Jefferson Lab 356 | MATH 126 @ Science Center 507 | PHYSICS 232 @ Jefferson Lab 356 | |
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| 11 AM | | | Lit C-14 Section @ Sever 104 | |
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| APMTH 201 @ Pierce Hall 307 | | APMTH 201 @ Pierce Hall 307 | |
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| 12 PM | LIT-ART C-14 @ Sever Hall 113 | LIT-ART C-14 @ Sever Hall 113 | | |
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| Berg Lab Research @ Rowland | |
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| 1 PM | Chem 30 Lab @ Sci Ctr 210 | | | | |
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| Berg Lab Research @ Rowland | | Berg Lab Research @ Rowland | Berg Lab Research @ Rowland | |
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| 4 PM | Chem 30 Section @ Sci Ctr 109 | |
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| | Phys 95 seminars @ Jeff 256 | | | |
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APMTH 201:
Applied Mathematics 201. Physical Mathematics I
Catalog Number: 3241
Michael P. Brenner
Half course (fall term). Tu., Th., 11:30-1. EXAM GROUP: 13, 14
Introduction to methods for developing accurate approximate
solutions for problems in the physical sciences that cannot be solved
exactly. Topics include: complex function theory, approximate solution
of integrals, algebraic equations, nonlinear differential equations,
and qualitative methods.
Prerequisite: Applied Mathematics 105a, b or equivalent.
Recent CUE Scores (Detailed CUE Results):
4.1 (Fall 2004-2005, Lakshminarayanan Mahadevan)
CHEM 30:
Chemistry 30. Organic Chemistry
Catalog Number: 6587
Garry Procter
Half course (fall term). Lectures M., W.,
F., at 9, and laboratory, four to six hours a week, to be arranged..
EXAM GROUP: 2
Continuation of Chemistry 20. Fundamental principles and advanced
topics in organic chemistry. Carbonyl chemistry and pericyclic
reactions are covered in particular detail, using principles of
stereochemistry, stereoelectronic theory, and molecular orbital theory
as a foundation. Students learn about strategies in multi-step organic
synthesis and are introduced to biologically important classes of
compounds including alkaloids, carbohydrates, peptides, and nucleic
acids. Laboratory: an introduction to organic chemistry laboratory
techniques and experimental organic synthesis.
Note: See note for Chemistry 17. This course, when taken for a letter grade, meets the Core area requirement for Science A.
Prerequisite: Chemistry 20 or equivalent.
Recent CUE Scores (Detailed CUE Results):
3.7 (Fall 2004-2005, David Evans)
4 (Fall 2003-2004, Maria-Christina White)
4.63 (Fall 2002-2003, Eric Jacobsen)
LIT-ART C-14:
Literature and Arts C-14. Concepts of the Hero in Greek Civilization
Catalog Number: 3915
Gregory Nagy
Half course (fall term). M., W., at 12, and a weekly section to be arranged.. EXAM GROUP: 5
The true "hero" of this course is the logos or "word" of logical
reasoning, as activated by Socratic dialogue. The logos of dialogue
requires careful thinking, realized in close reading and reflective
writing. The last "word" in the course will come from Plato's memories
of Socrates' last days. These memories depend on a thorough
understanding of heroic concepts in all their historical varieties
throughout Greek civilization. This course leads to such an
understanding through dialogues, guiding the attentive reader through
many ancient Greek Classics, including works by Homer, Hesiod, Sappho,
Alcman, Pindar, Theognis, Aeschylus, Sophocles, Euripides, Herodotus,
and Plato.
Recent CUE Scores (Detailed CUE Results):
3.9 (Fall 2004-2005, Gregory Nagy)
4.1 (Spring 2003-2004, Gregory Nagy)
3.99 (Fall 2002-2003, Gregory Nagy)
MATH 126:
Mathematics 126. Representation Theory and Applications
Catalog Number: 0369
Wilfried Schmid
Half course (fall term). Tu., Th., 10-11:30. EXAM GROUP: 12, 13
Representation theory of finite groups including character theory,
induced representations, Frobenius reciprocity, and interesting
applications.
PHYSICS 232:
Physics 232. Advanced Electromagnetism
Catalog Number: 4885
David R. Nelson
Half course (fall term). M., W., F., at 10. EXAM GROUP: 3
Maxwell's equations in macroscopic media, conservation laws,
Green's functions, time-dependent solutions and radiation, scattering
and diffraction, and gauge invariance. Time permitting, geometrical
optics, fiber optics, photon band gaps and negative refraction index
materials will be discussed.
Prerequisite: Physics 153 and Applied Mathematics 105a, 105b, or equivalent.
CUE overall results may not reflect the most recent data for a particular course. Please consult the CUE Guide website for comprehensive and authoritative ratings.
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