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Course Criteria
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1.00 Credits
Exercises related to general chemistry, classical mechanics, quantum mechanics, statistical mechanics, thermodynamics, and kinetics, are solved with numerical software. Each exercise is accompanied by a lecture, a software template solving a problem and a related take-home problem. The software allows us to focus on, and treat in a transparent fashion, physical problems without the unworldly idealizations and contrivances found in textbooks. Prerequisites: Chem 111A, concurrent enrollment with Chem 401 and prior or concurrent enrollment in Physics 117A.
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3.00 Credits
Introduction to quantum chemistry (with applications to elementary spectroscopy) and kinetics. Prerequisites: Chem 111A-112A, Math 233; prior completion of Physics 117A and 118A is strongly encouraged (but concurrent enrollment in Physics 117A is accepted); or permission of instructor. Required course for all Chemistry majors.
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3.00 Credits
Introduction to chemical thermodynamics, statistical mechanics, and transport phenomena. Required course for all Chemistry majors. Prerequisites: Chem 111A-112A, Chem 401, Math 233, prior completion of Physics 117 and 118 is strongly encouraged (but prior completion of Physics 117 and concurrent enrollment in Physics 118 are accepted); or permission of instructor.
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3.00 Credits
Application of radiochemical techniques to problems in chemistry, physics, and nuclear medicine. Prerequisites: 3 units of physical chemistry and permission of instructor. One lecture hour and five hours of laboratory a week.
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3.00 Credits
Introduction to the production and decay of radioactive nuclides, the structure and properties of nuclei, and the applications of nuclear and radiochemical techniques to current scientific problems. Prerequisites: one year each of chemistry, mathematics, and physics.
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1.00 Credits
The following topics are discussed: (a) general properties of nuclei; (b) laws of radioactive decay; (c) interaction of radiation with matter; (d) radiation detectors; (e) radiation dosimetry; (f) biological effects of radiation exposure; (g) radiation safety, safety test, regulations; (h) basics of radioisotope production.
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3.00 Credits
A course providing direct hands-on experience with the principles of physical chemistry (thermodynamics, quantum, kinetics) and associated experimental methods and instrumentation, including optical, infrared, and nuclear and electron spin resonance, electrochemistry, calorimetry, laser kinetics, and basic electronics. Prerequisite: Chem 401 or concurrent enrollment in Chem 402.
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3.00 Credits
A lecture course that builds on the material in Chem 261, 262, covering in more detail certain topics in those courses while also introducing new topics. A transition to graduate-level study in organic chemistry; recommended for chemistry, biochemistry, and biology majors. Prerequisite: Chem 262.
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1.00 Credits
This seminar meets for one hour each week. During the meetings, student participants are responsible for presenting topics from the current literature. The format of the presentation varies from informal talks to student-authored problem sets. Attendance at meetings is strongly recommended for all students who are currently taking the organic cumulative examinations. Prerequisite: Chem 262.
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3.00 Credits
Survey of organometallic compounds with discussion of their synthesis, structure, spectroscopy, and reactivity. Prerequisite: Chem 262.
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