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Course Criteria
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3.00 Credits
09S, 10S: 11; Laboratory M or Th 2:00-6:00 An examination of the laws of classical thermodynamics, followed by applications to the properties of gases, liquids, and solids, as well as to solutions, phase, and chemical equilibria. Kinetic theory of gases at equilibrium. Laboratories cover physical chemistry techniques drawn from these areas. Students will normally elect either the Chemistry 61-62 sequence or the Chemistry 71-72 sequence. Chemistry 61 may not be selected in conjunction with either Chemistry 71 or Chemistry 72. Prerequisite: Chemistry 6 (or 10) and Physics 13 (or 15, or Physics 3 and 4) and Mathematics 8, or permission of the instructor. Supplemental course fee required. Dist: SLA.
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3.00 Credits
08F, 09F: 12; Laboratory M or Tu 2:00-6:00 Topics in chemical reaction kinetics and the application of quantum mechanics to chemical bonding and spectroscopy. Laboratories cover physical chemistry techniques drawn from these areas. Students will normally elect either the Chemistry 61-62 sequence or the Chemistry 71-72 sequence. Chemistry 62 may not be selected in conjunction with either Chemistry 71 or Chemistry 72. Prerequisite: Chemistry 61 and Chemistry 64, or permission of the instructor. Supplemental course fee required. Dist: SLA.
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3.00 Credits
09X: 9L; Laboratory M, Tu, W, Th or F 2:00-6:00 A study of the chemistry of current environmental problems and potential solutions. The course will deal with such topics as atmospheric chemistry, chemicals and cancer, and the chemistry of resource management. A few laboratory experiments emphasizing modern methods of instrumental analysis for substances in the environment will be included in the course. Prerequisite: Chemistry 51 or 57, or permission of the instructor. Supplemental course fee required. Dist: TLA.
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3.00 Credits
09W, 10W: 9L; Laboratory Th or F 2:00-6:00 A study of bonding, structure, physical and chemical properties, and chemical reactions of inorganic compounds. Examples will be drawn from main group and transition metal compounds. The laboratory will involve preparations of inorganic compounds which illustrate appropriate experimental techniques for syntheses and manipulations, and methods for characterization of inorganic compounds using instrumental methods. Prerequisite: Chemistry 51 or 57, or permission of the instructor. Supplemental course fee required. Dist: SLA.
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3.00 Credits
09W, 10W: 11; Laboratory W 2:00-6:00 Chemistry 67 covers the structural and chemical properties of proteins and nucleic acids, including ligand binding, enzymatic catalysis, the structural basis and functional significance of protein-nucleic acid recognition, and protein folding. The course also covers the application of physical and spectroscopic techniques, including X-ray crystallography, nuclear magnetic resonance, microscopy, fluorescence and circular dichroism, to the study of biological macromolecules. The laboratory introduces these experimental methods in the study of proteins. Prerequisite: Chemistry 41, Chemistry 62 or 72, and Chemistry 52 or 58, or permission of the instructor. Supplemental course fee required. Dist: SLA.
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3.00 Credits
10S: Arrange; Laboratory: Arrange Chemistry 68 emphasizes application of spectroscopic techniques to biopolymers. This includes an introduction to basic quantum mechanics as well as the principles and application of such techniques as ultraviolet, fluorescence, circular dichroism, Raman, and nuclear magnetic resonance spectroscopy to biopolymers. Determination of the three-dimensional structure of biopolymers by x-ray crystallography and nuclear magnetic resonance will also be covered. The laboratory is an independent project designed and executed by the student. Prerequisite: Chemistry 41, Chemistry 67, Chemistry 62 or 72, and Chemistry 52 or 58, or permission of the instructor. Supplemental course fee required. Dist: SLA.
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3.00 Credits
Consult special listings
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3.00 Credits
09W, 10W: 11; Laboratory M or Th 2:00-6:00 An examination of the fundamental laws of classical thermodynamics is followed by applications to the properties of gases, liquids, and solids, as well as to solutions, phase and chemical equilibria, surface phenomena and electrochemistry. The accompanying laboratory work in this course and that in Chemistry 72 and 73 is largely instrumental. Prerequisite: Chemistry 6 (or 10), Mathematics 13, and Physics 13 (or 15, or Physics 3 and 4), or permission of the instructor. Supplemental course fee required. Dist: SLA.
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3.00 Credits
09S, 10S: 11; Laboratory M or Th 2:00-6:00 An examination of the fundamental ideas of quantum mechanics and their application to simple model systems such as the linear harmonic oscillator and a confined particle, and to atomic and molecular structure. Application of quantum theory to electronic, vibrational, rotational, and magnetic resonance spectroscopies. Prerequisite: Chemistry 64 and Chemistry 71, or permission of the instructor. Supplemental course fee required. Dist: SLA.
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3.00 Credits
08F, 09F: 11; Laboratory W or Th 2:00-6:00 Chemical kinetics: experimental and theoretical aspects of the study of the rates and mechanisms of chemical reactions. Photophysical and photochemical kinetics. Kinetic theory of gases. Transport phenomena. Introduction to statistical mechanics and chemical reaction dynamics. Prerequisite: Chemistry 72, or permission of the instructor. Supplemental course fee required. Dist: SLA.
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