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Course Criteria
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2.00 Credits
4 HRS. Continuation of CHEM 115. Chemical equilibrium, Ionic equilibrium, electrochemistry, and organic chemistry. (3 lecture hours; 2 lab hours per week.) (Prerequisite: CHEM 115) F-S
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1.00 Credits
3 HRS. Introduction to chemistry; metric system; matter and energy relationships; atomic structure; chemical bonding; kinetic theory; reaction; chemical equilibrium; carbon and compounds. Designed for persons employed in business areas within chemical companies. (3 lecture hours per week; no labs.) On demand.
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2.00 Credits
3 HRS. Continuation of CHEM 151; overview of organic chemistry. Designed for persons employed in business areas within chemical companies. (3 lecture hours per week; no labs.) On demand.
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3.00 Credits
3 HRS. Continuation of CHEM 152; polymer chemistry; structure, nomenclature, molecular weights; step-growth and chain-growth polymerization; copolymers, tacticity, crystallinity, reaction kinetics, and viscosity. Designed for persons employed in business areas with chemical companies. (3 re hours per week; no labs.) On demand.
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3.00 Credits
4 HRS. An overview of organic chemistry with emphasis on biological applications for students in medical technology, agriculture & nutrition. Nomenclature, structure, reactivity and stereochemistry will be covered. (3 hr. lecture, 3 hr lab.) (Prerequisite: CHEM 115, CHEM 112 or CTEC 104.)
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1.00 Credits
3 HRS. Study of characteristic reactions, synthesis, and stereochemistry of major classes of organic compounds using a mechanistic approach. Classes of compounds studied include alkanes, alkyl halides, alkenes, and alcohols. Mechanisms studied include: free radical halogenation, nucleophilic substitution, nucleophilic addition, and electrophilic addition. (Prerequisites: CHEM 115 and 116 or equivalent.) (Co-requisite: CHEM 235.) F
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2.00 Credits
3 HRS. Continuation of CHEM 233 to include spectroscopic methods, theory and interpretation. Classes of compounds studied include alkynes, aromatics, carbonyls, amides, amines, and synthetic polymers. Mechanisms studied include electrophilic aromatic substitution, Aldol condensation, esterification, and polymerization. Lab work includes some computer simulation, unknown analysis & individual work. (3 lecture hours and 3 lab hours per week.) (Co-requisite: CHEM 236.) (Prerequisite: CHEM 233/235.) (Co-requisite: Chemc 236.) S
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1.00 Credits
1 HR. An introduction to microscale techniques of organic chemistry preparation and purification, this lab is designed to be taken concurrently with CHEM 233. Techniques studied will be re-crystallization, distillation, extraction and preparation of simple aliphatic compounds. (3 lab hours per week) (Co-requisite: CHEM 233) F
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1.00 Credits
1 HR. A continuation of CHEM 235, this lab is designed to be taken concurrently with CHEM 234. Techniques studied will include multi-step synthesis, qualitative analysis and instrumental analysis. Some computer simulation and individualized experiments will be involved. (3 lab hours per week) (Co-requisite: CHEM 234) S
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4.00 Credits
4 HRS. This is an introductory course on PC management, maintenance and troubleshooting. Topics covered include operating systems and OS architecture, software/hardware relationships. (Corequisite: CS 101.) F, S
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