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Chemistry 127: Inorganic Chemistry II

4.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour. Advanced treatment of selected fundamental topics in inorganic chemistry, building on material presented in Chemistry 107. Molecular symmetry with applications to electronic structure and spectroscopy. Reaction kinetics and mechanisms; inorganic synthesis and catalysis; bioinorganic chemistry. Prerequisite: Chemistry 107.

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Chemistry 128: Introduction to Chemical Biology W

4.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour. Introduction to the basic principles of chemical biology: structures and reactivity; chemical mechanisms of enzyme catalysis; chemistry of signaling, biosynthesis, and metabolic pathways. Prerequisites: Chemistry 1A-B-C; Chemistry 51A-B-C or H52A-B-C.

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Chemistry 128L: Introduction to Chemical Biology Laboratory Techniques

4.00 Credits

University of California-Irvine

Discussion, one hour; laboratory, six hours. Introduction to the basic laboratory techniques of chemical biology: electrophoresis, plasmid preparation, PCR, protein expression, isolation, and kinetics. Prerequisite: Chemistry 128. NOTE: Chemistry 130A-B-C and 131A-B-C are parallel courses in physical chemistry; both are acceptable to satisfy the physical chemistry requirements for the major. Because of significant differences in course content, students starting in one series may not switch to the other in subsequent quarters.

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Chemistry 130A: B-C Physical Chemistry:Biological and Materials Applications

3.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour. 130A Chemical Thermodynamics (4) F. Principles of chemical and heterogeneous equilibrium. Multiple chemical equilibrium, electrochemical equilibria, and equilibria at phase boundaries. Corequisite: Physics 7E or Engineering CBEMS40A, and Chemistry 5. Prerequisites: Chemistry 1C, Mathematics 2D, and Physics 7D. 130B Quantum Chemistry, Spectroscopy, and Bonding (4) W. Fundamentals of molecular quantum mechanics. Development of the principles of rotational, vibrational, electronic, and magnetic resonance spectroscopy. Chemical bonding. Applications to biological and condensed phase systems. Prerequisite: Chemistry 130A; Physics 7E or Engineering CBEMS40A. 130C Structure, Statistical Mechanics, and Chemical Dynamics (4) S. Kinetic theory and statistical mechanics with applications to gases, macromolecules, and condensed phases. Transport phenomena. Chemical kinetics. Prerequisite: Chemistry 130B.

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Chemistry 131A: B-C Physical Chemistry:A Molecular Approach

3.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour. 131A Quantum Principles (4) F. Principles of quantum chemistry with applications to nuclear motions and the electronic structure of the hydrogen atom. Corequisite: Physics 7E or Engineering CBEMS40A, and Chemistry 5. Prerequisites: Chemistry 1C, Mathematics 2D, and Physics 7D. 131B Molecular Structure and Elementary Statistical Mechanics (4) W. Principles of quantum mechanics with application to the elements of atomic structure and energy levels, diatomic molecular spectroscopy and structure determination, and chemical bonding in simple molecules. Prerequisites: Chemistry 131A; Physics 7E or Engineering CBEMS40A. 131C Thermodynamics and Chemical Dynamics (4) S. Energy, entropy, and the thermodynamic potentials. Chemical equilibrium. Chemical kinetics. Prerequisite: Chemistry 131B.

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Chemistry 135: Methods of Molecular Structure Determination

4.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour. Determination of molecular structure using spectroscopic, diffraction, and scattering techniques. Prerequisites: Chemistry 130A-B-C or 131A-B-C.

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Chemistry 137: Computational Chemistry

4.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour; laboratory, three hours. Short introduction to programming languages and to representative algorithms employed in chemical research. Students have the opportunity to devise and employ their own codes and also to employ codes which are widely used in various fields of chemistry. Corequisite: Chemistry 130B or 131B. Prerequisites: Chemistry 51A-B-C or H52A-B-C and 130A or 131A.

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Chemistry 138: Introduction to Computational Organic Chemistry

4.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour; laboratory, three hours. An introduction to the use of computational chemistry to investigate reaction mechanisms, to calculate structures, and to predict properties of molecules. Students have the opportunity to perform calculations employing computational methods which are widely used in various fields of chemistry. Prerequisites: Chemistry 51AB- C or H52A-B-C.

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Chemistry 151: Quantitative Analytical Chemistry

4.00 Credits

University of California-Irvine

Lecture, three hours; discussion, one hour. Theoretical aspects of methods in analytical chemistry. Topics include statistical treatment of data and the fundamental chemistry which underlies methods of chemical analysis. Corequisite: Chemistry 151L. Prerequisites: Chemistry 1A-B-C, 1LB-LC; 5; 51A-B-C and 51LA-LB-LC or H52A-B-C and H52LA-LB-LC.

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Chemistry 151L: Quantitative Analytical Chemistry Laboratory

2.00 Credits

University of California-Irvine

Discussion, one hour; laboratory, six hours. Practical aspects of important methods in analytical chemistry. Laboratory analysis of standard samples. Laboratory experiments include methods of gravimetry, titrimetry, chromatography and other separation methods, spectrochemical and electrochemical measurements. The use of computer programs for the reduction of data from laboratory experiments is encouraged. Corequisite: Chemistry 151. Prerequisites: Chemistry 1A-B-C, 1LB-LC; 5; 51A-B-C and 51LA-LB-LC or H52A-B-C and H52LA-LB-LC.

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