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Course Criteria
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5.00 Credits
Prerequisite: Chemistry 1C with a grade of C or better. Advisory: English Writing 1A or English as a Second Language 5. Three hours lecture, six hours laboratory. An introduction to the physical properties and chemical behavior of important classes of organic compounds, focusing on hydrocarbons and haloalkanes. Emphasis on retrosynthesis, spectroscopic structure determination, and reaction mechanism. Laboratory experiments involving the synthesis of simple compounds and the characterization of those compounds using gas chromatography (GC) and infrared (IR) and nuclear magnetic resonance (NMR) spectroscopy. For chemistry majors or those in closely allied fields such as biochemistry and chemical engineering.
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5.00 Credits
Prerequisite: Chemistry 12A with a grade of C or better. Advisory: English Writing 1A or English as a Second Language 5. Three hours lecture, six hours laboratory. An exploration of the physical properties and chemical behavior of important classes of organic compounds, focusing on: polyenes; aromatic compounds; alcohols, thiols, and ethers; and aldehydes and ketones and their derivatives. Emphasis on retrosynthesis, spectroscopic structure determination, and reaction mechanism. Laboratory experiments involving the synthesis of simple compounds and the characterization of those compounds using chromatography and infrared (IR), ultraviolet-visible (UV-Vis) and nuclear magnetic resonance (NMR) spectroscopy. For chemistry majors or those in closely-allied fields such as biochemistry and chemical engineering.
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5.00 Credits
Prerequisite: Chemistry 12B with a grade of C or better. Advisory: English Writing 1A or English as a Second Language 5. Three hours lecture, six hours laboratory. An exploration of the physical properties and chemical behavior of important classes of organic compounds, focusing on amines, carboxylic acids, and carboxylic acid derivatives, with an introduction to the chemistry of terpenes, lipids, carbohydrates, and proteins. Emphasis on retrosynthesis, spectroscopic structure determination, and reaction mechanism. Laboratory experiments involving the multi-step synthesis of organic compounds and characterize those compounds using chromatography and infrared (IR), ultraviolet-visible (UV-Vis) and nuclear magnetic resonance (NMR) spectroscopy. For chemistry majors or those in closely allied fields such as biochemistry and chemical engineering.
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5.00 Credits
(See general education pages for the requirement this course meets.) Prerequisites: High School Chemistry and satisfactory score on Chemistry placement test or Chemistry 50; Mathematics 114 or equivalent. Advisory: English Writing 211 and Reading 211 (or Language Arts 211), or English as a Second Language 272 and 273. Three hours lecture, six hours laboratory. An introduction to the structure and reactivity of matter at the molecular level. Application of critical reasoning to modern chemical theory and structured numerical problem solving. Development of molecular structure from rudimentary quantum mechanics, including an introduction to ionic and covalent bonding. Chemical problem solving involving both formula and reaction stoichiometry employing the unit analysis method. Application of Kinetic Molecular Theory to the study of classical gas laws and an introduction to thermochemistry. (CAN CHEM 1) (CHEM 1A + 1B + 1C = CAN CHEM SEQ A)
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5.00 Credits
Prerequisite: Chemistry 1A with a grade of C or better. Three hours lecture, six hours laboratory. Continuation of an introduction to the principles of chemistry. Investigation of reversible reactions from the standpoints of kinetics, thermodynamics, and equilibrium. Application of equilibrium to the reactions of acids and bases. (CAN CHEM 3) (CHEM 1A + 1B + 1C = CAN CHEM SEQ A)
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5.00 Credits
Prerequisite: Chemistry 1B with a grade of C or better. Advisory: English Writing 211 and Reading 211 (or Language Arts 211), or English as a Second Language 272 and 273. Three hours lecture, six hours laboratory. Introduction to electrochemistry, the chemistry of transition metals, and the chemistry of organic compounds. Identification of ions using qualitative analysis methods. (CAN CHEM 5) (CHEM 1A + 1B + 1C = CAN CHEM SEQ A)
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5.00 Credits
Prerequisite: Mathematics 212 or equivalent. Advisory: English Writing 211 and Reading 211 (or Language Arts 211), or English as a Second Language 272 and 273. Four hours lecture, three hours laboratory. An introduction to fundamental topics in general and in organic chemistry as preparation for the biological and health sciences. (CAN CHEM 6) (CHEM 30A + 30B = CAN CHEM SEQ B)
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5.00 Credits
Prerequisite: Chemistry 30A. Advisory: English Writing 211 and Reading 211 (or Language Arts 211), or English as a Second Language 272 and 273. Four hours lecture, three hours laboratory. An introduction to fundamental topics in general and in organic chemistry as preparation for the biological and health sciences. (CAN CHEM 8) (CHEM 30A + 30B = CAN CHEM SEQ B)
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5.00 Credits
Prerequisite: Mathematics 114 or equivalent, or high school equivalent. Advisory: English Writing 211 and Reading 211 (or Language Arts 211), or English as a Second Language 272 and 273. Four hours lecture, three hours laboratory. An introduction to core theory and problem-solving techniques of chemistry as preparation for Chemistry 1A. An introduction to gravimetric and volumetric analysis, rudimentary laboratory equipment and operations, and the preparation and maintenance of a laboratory notebook.
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1.00 Credits
Special Projects in Chemistry
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