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Member of the Division of Science
Lee Sharpe, Chair, Mark Levandoski, Jim Lindberg, Leslie Lyons, Elaine Marzluff, Martin Minelli,
Andrew Mobley, James
Swartz*, Elizabeth Trimmer, Elliott L. Uhlenhopp*
Chemistry, as pure science, seeks to describe and make comprehensible
the nature and transformations of matter. As applied science, it provides
society with knowledge and tools to achieve its material purposes. By coupling
creative thought with experimentation, the study of chemistry contributes to a
liberal education.
The Department of Chemistry recommends that students considering
chemistry as a major begin coursework as first-year students. The starting point for
those with no more than a year of secondary school chemistry is Chemistry
129. Placement in Chemistry 130 or, in rare cases, in 221 may be appropriate.
The department emphasizes laboratory work in its curriculum. Students
have excellent facilities for independent projects and study, and majors will
get hands-on experience with modern instrumentation in several areas
of chemistry. A variety of microcomputers and graphics workstations are used
for data acquisition, simulation, and analysis in all courses. An active
summer program provides further opportunities for intensive research.
A major in chemistry may lead to a career in chemical research or education.
It also serves those who seek to enter the medical or engineering professions
and those wishing to pursue graduate work in fields such as biochemistry,
molecular biology, physiology, pharmacology, geology, environmental science,
nutrition, and materials science, or for others, as a focus for liberal education.
To complete the major, mathematics through 133 and physics through 132
are needed and should be taken as early as possible. Students
contemplating graduate work in science should consider taking two additional semesters
of mathematics (215 and 220) as well as related coursework in biology
and physics, depending on personal interests and goals. The department
recommends the study of a foreign language, with German providing the
most extensive access to chemical literature.
A minimum of 32 credits. With permission, up to four of the 32 credits
may be taken in related studies outside the department. Required are
Chemistry 129, 130, 221-222, 363, 499 (four credits), and eight credits
from 325, 330, 332, 358, 364, or 423. Also required are Mathematics 131 and
133 and Physics 131-132. Participation in the Chemistry Colloquium is
required for 499 projects. Note: Chemistry 100 does not count
toward the major. ACS Certification: The department's program is approved by
the American Chemical Society through its Committee on
Professional Training. Graduates who complete the following program meet the
ACS certification standards and are eligible for ACS membership: Chemistry
129, 130, 221-222, 358, 363-364, and 423; four credits of 499
projects; and four credits from 325, 330, or 332.
To be considered for honors in chemistry, graduating seniors, in addition to meeting
the College's general requirements for honors, must be selected by the chemistry
faculty. The criteria used to decide which students have achieved sufficient
distinction and academic excellence to qualify for honors in chemistry are both
objective and subjective in nature. It signifies, in addition, an underlying commitment
to the discipline as evidenced by participation in departmental affairs and
activities (such as serving as a mentor), attendance at co-curricular activities such
as departmental seminars and poster presentations both on and off campus, and
other indications of strong interest above and beyond normal classroom participation
and achievement. The faculty believes that honors signifies both academic
excellence and an unusually high commitment and dedication to the discipline.
Graduating with honors in chemistry should not be regarded solely as the
culmination of previous accomplishments, but rather an expectation of future
accomplishments in the discipline in the years ahead.
100 Chemistry is Everywhere* 4 credits
This course is intended for nonscience majors and introduces the
basic principles of chemistry with special emphasis on everyday life and
illustrates these principles through extensive use of classroom
demonstrations. Environmental, consumer, or health-related issues emphasized.
Prerequisites: none. STAFF.
129 General Chemistry (Fall and Spring) 4 credits
An introductory course. Primary emphasis on stoichiometry,
atomic and molecular structure, dynamic equilibrium, acid-based chemistry,
thermodynamics, electronic structure and intermolecular interactions.
Three classes, one laboratory each week. Prerequisites: none. STAFF.
130 Inorganic and Analytical Chemistry (Fall and Spring) 4 credits
Leads to advanced work in the department. Principles of inorganic
chemistry and elementary quantitative analysis, including ionic equilibrium,
electrochemistry, and acid-base chemistry. Three classes, one laboratory each
week. Prerequisite: Chemistry 129 or permission of instructor. STAFF.
221-222 Organic Chemistry (Fall and Spring) 4 credits
A comprehensive study of structures, reactions, syntheses, and
spectroscopy of aliphatic and aromatic compounds, which emphasizes modern
mechanistic models. Three classes, one laboratory each week. Prerequisite:
Chemistry 129 or permission of instructor. (Students with AP/IB credit or other
off-campus credit to substitute for Chemistry 129 must take Chemistry 130.)
Prerequisite for 222: Chemistry 221 or permission of instructor. STAFF.
325 Advanced Organic Chemistry (Fall) 4 credits+
Selected topics in organic chemistry, including spectral methods of
identifying organic compounds, reaction mechanisms, and modern methods of
organic synthesis. Laboratory emphasis on spectral, chromatographic, and
synthetic methods. Three classes, one laboratory each week. Prerequisite:
Chemistry 222 or permission of instructor. LINDBERG, MOBLEY.
330 Enzyme Mechanisms* (Fall) 4 credits+
Examination of the mechanisms of enzyme reactions. Topics include
enzyme structure, catalytic strategies, and methodologies to study enzyme
mechanisms. Emphasis on enzymes that require a coenzyme (pyridoxal
phosphate, flavin, etc.) to carry out their chemistry. Labs stress spectroscopic and
kinetic techniques. Three classes, one laboratory each week. Prerequisite:
Biological Chemistry 262 or permission of instructor. TRIMMER.
332 Biophysical Chemistry* (Fall) 4 credits+
Exploration of advanced topics in biochemistry with an emphasis on
physical methodologies (thermodynamics and kinetics) and techniques. Topics
include ligand binding theory, protein folding, and structure determination,
etc. Secondary emphasis involves topics in molecular neuroscience, such as
second messenger systems and ion channels. Laboratory employs some of
the techniques discussed and includes an independent project. Three classes,
one laboratory each week. Completion of the introductory physics sequence
and Chemistry 363 is recommended. Prerequisites: Biological Chemistry
262 and completion of or concurrent registration in Physics 131, or permission
of instructor. LEVANDOSKI.
358 Instrumental Analysis (Spring) 4 credits+
Analytical chemistry, including both theory and applications of
spectral, electrochemical, chromatographic, and other commonly employed methods
of analysis and separation. Two classes, two laboratories each week.
Prerequisite: Chemistry 221. LYONS, SHARPE.
363 Physical Chemistry I (Fall) 4 credits+
An introduction to physical chemistry that emphasizes experimental
and theoretical aspects of chemical thermodynamics, chemical and
physical equilibrium, and kinetics. Three classes, one laboratory each week.
Prerequisites: Chemistry 222, and Mathematics 133 or equivalent, and Physics 131
or equivalent, and completion of or concurrent registration in Physics 132; or permission of instructor. MARZLUFF.
364 Physical Chemistry II (Spring) 4 credits+
Selected topics in physical chemistry with emphasis on molecular
structure and chemical bonding and the application of thermodynamic and
quantum theory to a variety of physical chemical phenomena. Three classes,
one laboratory each week. Prerequisite: Chemistry 363 or permission of instructor. MARZLUFF.
390 Seminar: Current Topics in Chemistry* (Spring) 2 credits
An investigation of a selected topic in chemistry with readings from the
recent literature discussed in a seminar format. Specific topic announced at least
a semester in advance. May be repeated a second time for credit.
Prerequisite: Chemistry 222 or permission of instructor. STAFF.
399 Directed Research 4 credits
See Directed Research. STAFF.
423 Advanced Inorganic Chemistry (Spring) 4 credits+
Selected topics, including atomic structure, bonding, acid-base
theories, coordination chemistry, crystal structure, and inorganic reactions.
Three classes, one laboratory each week. Prerequisite: Chemistry 363 or
permission of instructor. MINELLI.
*Not offered every year.
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