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Course Criteria
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5.00 Credits
A study of the basic concepts of chemistry for the chemistry, engineering and pre-professional students. Topics include: stoichiometry, atomic theory, periodic properties of the elements, thermodynamics, chemical bonding, molecular structure, gases, intermolecular forces, solids, liquids, and solutions. The laboratory deals with quantitative experiments including the use of computer interfacing software which emphasizes observation organization and analysis of data. Lecture - 4 hours/week. Lab - 3 hours/week.
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5.00 Credits
A continuation of the first semester emphasizing chemical kinetics, equilibrium, precipitation reaction acids and bases, entropy and free energy, complex ions, oxidation-reduction, electrochemical reactions, nuclear and organic. The laboratory will continue to expose the students to the instruments needed for quantitative experimentation with the second half of the semester emphasizing equilibrium systems of aqueous solutions with the separation and identification of metal ions using semi-micro qualitative techniques. Lecture - 4 hours/week. Lab - 3 hours/week.
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5.00 Credits
An initial course in organic chemistry with the emphasis on the classification, structure, isomerism, and the fundamental reactions and preparations of the families of carbon compounds. Topics include covalent bonding, alkanes, stereochemistry, free radical mechanisms, alkyl halides and spectroscopy. Laboratory introduces students to basic laboratory procedures of organic chemistry relative to properties, preparations, analysis and synthesis. Lecture - 4 hours/week. Lab - 4 hours/week.
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5.00 Credits
A continuation of CHEM 261. The topics include alcohols, alkenes, alkynes, aromatics, aidehydes, ketones, and organic acids and their derivatives. Macromolecules including carbohydrates, lipids, proteins and polymers. The study is from the standpoint of chemistry relative to structure, structure determination and properties. Lecture - 4 hours/week. Lab - 4 hours/week.
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2.00 Credits
Combines an intense study of the theory taught in CNEL 1411 with practical hands-on design of electronic circuits. The student works with the components and materials of electricity in designing and analyzing electrical circuits.
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2.00 Credits
A continuation of Practical Lab I. The student practices the theory that is being taught in Electronic Circuits II and Semiconductors II.
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4.00 Credits
This course covers the study of the fundamental concepts of DC electricity including Ohms Law, network theorems, magnetism and electrostatics. Also covered are the fundamental concepts of AC electricity including capacitance, inductance, reactance, impedance, and transformers. The associated laboratory will provide an opportunity to measure the phenomena studied in the theory portions of the course.
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2.00 Credits
This course studies series and parallel RC, RL, RLC circuits, power factor, resonance and filters. The associated laboratory will provide an opportunity to measure the phenomena studied in the theory portions of the course.
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2.00 Credits
The course studies fundamentals of solid state principles, diodes, common diode applications, basic power supply circuits, special diode applications, bipolar junction transistors, dc biasing circuits, and thyristor.
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2.00 Credits
Introduces the basic concepts of digital logic, including numbering systems, logic gates, Boolean algebra, DeMorgan's Theorem, Karnaugh mapping, comparators, multiplexing, de-multiplexing and flip-flops.
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