ENG 105. Thermodynamics (4)<\/p>\n
Lecture–4 hours. Prerequisite: Mathematics 21D, 22B and Physics 9B. Open to College of Engineering students\u00a0only. Fundamentals of thermodynamics: heat energy and work, properties of pure substances, First and Second\u00a0Law for closed and open systems, reversibility, entropy, thermodynamics temperature scales, power cycles,\u00a0nonreacting ideal gas mixtures and psychrometrics and applications of thermodynamics to engineering\u00a0systems.<\/p>\n
MAE 216. Advanced Thermodynamics (4)<\/p>\n
Lecture–3 hours; discussion–1 hour. Prerequisite: Engineering 105. Study of topics important to energy\u00a0conversion systems, propulsion and other systems using high temperature gases. Classical thermodynamics\u00a0and quantum statistical mechanics of nonreacting and chemically reacting gases, gas mixtures, and other\u00a0substances.<\/p>\n
ATM 149 and CEE 149. Introduction to Air Pollution (4)<\/p>\n
Lecture–3 hours; discussion–1 hour. Prerequisite: Mathematics 21D, 22B, Chemistry 2B, Atmospheric Science 121A or Engineering 103. Physical and technical aspects of air pollution. Emphasis on geophysical processes\u00a0and air pollution meteorology as well as physical and chemical properties of pollutants.<\/p>\n
CEE 242. Air Quality (3)<\/p>\n
Lecture–3 hours. Prerequisite: Engineering 105, courses 141 and 149, or the equivalents. Factors determining\u00a0air quality. Effects of air pollutants. Physical and chemical fundamentals of atmospheric transport and reaction. \u00a0Introduction to dispersion modeling.<\/p>\n
MAE 215. Biomedical Fluid Mechanics and Transport Phenomena (4)<\/p>\n
Lecture–3 hours; discussion–1 hour. Prerequisite: Engineering 103 or Chemical Engineering 150B or Civil and\u00a0Environmental Engineering 141. Application of fluid mechanics and transport to biomedical systems. Flow in\u00a0normal physiological function and pathological conditions. Topics include circulatory and respiratory flows, effect\u00a0of flow on cellular processes, transport in the arterial wall and in tumors, and tissue engineering. (Same course\u00a0as Biomedical Engineering 215.)<\/p>\n
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Thermodynamics ENG 105. Thermodynamics (4) Lecture–4 hours. Prerequisite: Mathematics 21D, 22B and Physics 9B. Open to College of Engineering students\u00a0only. Fundamentals of thermodynamics: heat energy and work, properties of pure substances, First and Second\u00a0Law for closed and open systems, reversibility, entropy, thermodynamics temperature scales, power cycles,\u00a0nonreacting ideal gas mixtures and \u2026 Continue reading