Course Catalog
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| Course code & No. | Course Title | Course Description | Offering Unit |
|---|---|---|---|
| Chem 1 | Chemistry: Science that Matters | IC | |
| Chem 16 | General Chemistry I | IC | |
| Chem 16.1 | General Chemistry I Laboratory | Experiments and practical exercises in basic principles of chemistry: properties, structure, transformations, and energy involved in the transformations of matter. | IC |
| Chem 17 | General Chemistry II | IC | |
| Chem 17.1 | General Chemistry II Laboratory | Experiments and practical exercises in thermochemistry, kinetics and equilibrium of different chemical systems. | IC |
| Chem 26 | Introduction to Quantitative Chemical Analysis | IC | |
| Chem 26.1 | Introduction to Quantitative Chemical Analysis Laboratory | Basic principles of analytical chemistry with emphasis on stoichiometry and equilibrium concepts and calculations. | IC |
| Chem 28 | Fundamentals of Analytical Chemistry | IC | |
| Chem 28.1 | Fundamentals of Analytical Chemistry Laboratory | IC | |
| Chem 31 | Elementary Organic Chemistry | IC | |
| Chem 31.1 | Elementary Organic Chemistry Laboratory | IC | |
| Chem 33 | Fundamentals of Organic Chemistry | IC | |
| Chem 33 | Fundamentals of Organic Chemistry | Introduction to modern concepts in organic chemistry. Discussion of electronic and structural effects on reaction mechanisms. | IC |
| Chem 33.1 | Organic Chemistry I Laboratory | IC | |
| Chem 34 | Organic Reactions and Spectroscopy | An integrated application of modern concepts in organic chemistry to physical properties and chemical reactivities of organic compounds. | IC |
| Chem 34.1 | Organic Chemistry II Laboratory | IC | |
| Chem 40 | Elementary Biochemistry | IC | |
| Chem 40.1 | Elementary Biochemistry Laboratory | IC | |
| Chem 101.1 | Laboratory Techniques for Organic and Analytical Chemistry | IC | |
| Chem 101.2 | Organic Reactions and Instrumental Methods of Analysis | IC | |
| Chem 102.1 | Integrated Laboratory for Biochemistry, Inorganic Chemistry and Physical Chemistry | IC | |
| Chem 102.2 | Advanced Chemistry Laboratory II | IC | |
| Chem 102.2 | Advanced Integrated Laboratory for Biochemistry, Inorganic Chemistry and Physical Chemistry | IC | |
| Chem 105 | Mathematical Methods for Chemistry | IC | |
| Chem 112 | Principles of Inorganic Chemistry and their Applications to Representative Elements | Structure, bonding, and chemical reactivities of representative elements and their compounds. | IC |
| Chem 112.1 | Inorganic Chemistry Laboratory | IC | |
| Chem 113 | Transition and Rare Earth Elements and their Compounds | Chemical structures, properties and reactivities of d- and f-block elements and their compounds. | IC |
| Chem 121 | Computer Methods in Chemistry | IC | |
| Chem 123 | Advanced Analytical Chemistry | Principles and applications of instrumental methods with emphasis on separations, spectroscopic and electrochemical methods; introduction to quality assurance in the analytical laboratory. | IC |
| Chem 123.1 | Advanced Analytical Chemistry Laboratory | IC | |
| Chem 125 | Basic Electronics for Chemical Instrumentation | IC | |
| Chem 145 | Principles of Biochemistry | Concepts in structure and function of the major biomolecules; bioenergetics, kinetics and mechanisms of enzyme catalysis, modulation and inhibition. | IC |
| Chem 145.1 | Laboratory Techniques in Biochemistry | Fundamental techniques in biochemistry for extracting, handling and characterizing the major classes of biomolecules. These techniques are used for molecules of high molecular weights, which are relatively unstable and often denaturable with techniques ordinarily applied for small molecules. | IC |
| Chem 146 | Biochemistry of Metabolism and Informational Pathways | Primary catabolic and anabolic pathways; gene replection, expression and regulation; hormones and signaling pathways. | IC |
| Chem 146.1 | Biochemistry Laboratory | IC | |
| Chem 150 | Introduction to Physical Chemistry | IC | |
| Chem 150.1 | Introduction to Physical Chemistry Laboratory | IC | |
| Chem 152 | Physical Chemistry I | IC | |
| Chem 153 | Physical Chemistry: Foundations of Chemical Thermodynamics | Fundamental relations and equations of state. | IC |
| Chem 153.1 | Physical Chemistry I Laboratory | IC | |
| Chem 154 | Physical Chemistry of Real Systems | IC | |
| Chem 154.1 | Physical Chemistry II Laboratory | IC | |
| Chem 155 | Mathematical Methods in Chemistry | IC | |
| Chem 156 | Introduction to Quantum Chemistry | IC | |
| Chem 196 | Undergraduate Seminar | IC | |
| Chem 197 | Special Topics in Applied Chemistry | IC | |
| Chem 200 | Undergraduate Thesis | IC | |
| Chem 201 | Chemistry for Teachers of College Chemistry | IC | |
| Chem 203 | Environmental Chemistry | IC | |
| Chem 203.1 | Environmental Chemistry Laboratory | IC | |
| Chem 211 | Systematic Inorganic Chemistry | IC | |
| Chem 212 | Reaction Mechanisms of Transition Metal Complexes | IC | |
| Chem 213 | Physical Methods of Inorganic Chemistry | IC | |
| Chem 214 | Inorganic Synthesis | IC | |
| Chem 215 | Coordination Chemistry | IC | |
| Chem 216 | Bioinorganic Chemistry | IC | |
| Chem 217 | Nuclear Chemistry | IC | |
| Chem 218 | Organometallic Chemistry of the Transition Metals | IC | |
| Chem 219 | Solid State Chemistry | IC | |
| Chem 220 | Instrumental Methods of Analysis | IC | |
| Chem 220.1 | Laboratory in Instrumental Methods of Analysis | IC | |
| Chem 221 | Electroanalytical Chemistry | IC | |
| Chem 222 | Optical Methods of Analysis | IC | |
| Chem 223 | Theoretical Analytical Chemistry | IC | |
| Chem 224 | Aquatic Chemistry | IC | |
| Chem 225 | Modular Chemical Instrumentation | IC | |
| Chem 226 | Analytical Separation Methods | IC | |
| Chem 227 | Radioisotope Techniques | IC | |
| Chem 230 | Physical Organic Chemistry I | IC | |
| Chem 231 | Polymer Chemistry | IC | |
| Chem 231.1 | Polymer Chemistry Laboratory | IC | |
| Chem 234 | Physical Organic Chemistry II | IC | |
| Chem 235 | Theoretical Organic Chemistry | IC | |
| Chem 236 | Organic Synthesis | IC | |
| Chem 236.1 | Organic Synthesis Laboratory | IC | |
| Chem 237 | Spectroscopic Methods in Organic Chemistry | IC | |
| Chem 238 | Hetorocyclic Chemistry | IC | |
| Chem 239 | Natural Products Chemistry | IC | |
| Chem 240 | Advanced Biochemistry | IC | |
| Chem 241 | Lipids and Related Systems | IC | |
| Chem 242 | Carbohydrates and Related Systems | IC | |
| Chem 243 | Nucleic Acids | IC | |
| Chem 244 | Proteins | IC | |
| Chem 245 | Enzymes | IC | |
| Chem 247 | Molecular Biochemistry | IC | |
| Chem 248 | Metabolic and Information Pathways | IC | |
| Chem 250 | Chemical Thermodynamics I | IC | |
| Chem 251 | Chemical Thermodynamics II | IC | |
| Chem 252 | Graduate Physical Chemistry Laboratory | IC | |
| Chem 255 | Quantum Chemistry | IC | |
| Chem 256 | Advanced Quantum Chemistry | IC | |
| Chem 257 | Chemical Kinetics | IC | |
| Chem 288 | Chemistry Teaching Practicum | IC | |
| Chem 289 | Special Problem in Chemical Education | IC | |
| Chem 291 | Seminar in Inorganic Chemistry | IC | |
| Chem 292 | Seminar in Analytical Chemistry | IC | |
| Chem 293 | Seminar in Organic Chemistry | IC | |
| Chem 294 | Seminar in Biochemistry | IC | |
| Chem 295 | Seminar in Physical Chemistry | IC | |
| Chem 300 | MS Thesis | IC | |
| Chem 319 | Special Topics in Inorganic Chemistry | IC | |
| Chem 319.1 | Special Topics in Experimental Inorganic Chemistry | IC | |
| Chem 329 | Special Topics in Analytical Chemistry | IC | |
| Chem 329.1 | Special Topics in Experimental Analytical Chemistry | IC | |
| Chem 339 | Special Topics in Organic Chemistry | IC | |
| Chem 339.1 | Special Topics in Experimental Organic Chemistry | IC | |
| Chem 349 | Special Topics in Biochemistry | IC | |
| Chem 349.1 | Special Topics in Experimental Biochemistry | IC | |
| Chem 359 | Special Topics in Physical Chemistry | IC | |
| Chem 359.1 | Special Topics in Experimental Physical Chemistry | IC | |
| Chem 391 | Research Seminar in Inorganic Chemistry | IC | |
| Chem 392 | Research Seminar in Analytical Chemistry | IC | |
| Chem 393 | Research Seminar in Organic Chemistry | IC | |
| Chem 394 | Research Seminar in Biochemistry | IC | |
| Chem 395 | Research Seminar in Physical Chemistry | IC | |
| Chem 397 | Advanced Studies in Chemistry | IC | |
| Chem 400 | Ph.D. Dissertation | IC | |
| ChemE 2 | Elementary Chemical Engineering | Introduction to chemical engineering calculations; elementary mass and energy balances for common unit operations and unit processes | DChE |
| ChemE 101 | Chemical Engineering Process Analysis I | Problem-solving techniques in solving chemical engineering problems; mass balances in unit operations and unit processes; principles of phase equilibrium as applied to unit operations | DChE |
| ChemE 102 | Chemical Engineering Process Analysis II | Energy balances in unit operations and unit processes; mass and energy balances in industrial processes | DChE |
| ChemE 103 | Chemical Engineering Practice I | History and emerging trends in various fields of chemical engineering | DChE |
| ChemE 104 | Chemical Engineering Practice II | Professional practice and ethical issues in chemical engineering | DChE |
| ChemE 105 | Mathematical Methods in Chemical Engineering I | Introduction to programming as a computational tool; matrix algebra; analytical and numerical solutions of systems of linear equations as applied to chemical engineering | DChE |
| ChemE 106 | Mathematical Methods in Chemical Engineering II | Analytical and numerical solutions of ordinary differential equations; introduction to partial differential equations; applications in chemical engineering | DChE |
| ChemE 122 | Chemical Engineering Thermodynamics I | Application of the first and second laws of thermodynamics to closed and open systems; thermodynamic properties of fluids; power cycles, refrigeration, and liquefaction processes | DChE |
| ChemE 123 | Chemical Engineering Thermodynamics II | Thermodynamic properties of homogeneous mixtures; phase and reaction equilibria; calculations involving equilibrium models as applied to chemical engineering systems | DChE |
| ChemE 124 | Chemical Engineering Thermodynamics Laboratory | DChE | |
| ChemE 125 | Chemical Reaction Engineering I | DChE | |
| ChemE 126 | Chemical Reaction Engineering II | DChE | |
| ChemE 128 | Chemical Reaction Engineering | Kinetics of homogeneous and heterogeneous reactions; application of thermodynamics and transport processes in the analysis and design of reactors. | DChE |
| ChemE 130 | Process Fluid Systems | Fundamentals of momentum transport in fluid systems; mechanical energy balance of flow systems and design of piping systems | DChE |
| ChemE 131 | Thermal Systems | Fundamentals of heat transfer; application to design of heat transfer equipment | DChE |
| ChemE 132 | Separation Processes I | Fundamentals of mass transfer; separation processes based on equilibrium and mass transfer rate; applications of equilibrium-based and rate-based principles to equipment design | DChE |
| ChemE 133 | Separation Processes II | Principles and equipment design of simultaneous heat and mass transfer; humidification, drying, crystallization, sorption, and membrane separation technologies; emerging separation process technologies | DChE |
| ChemE 134 | Particle Technology | Particle characterization; particle dynamics; unit operations involving particulate solids; materials handling; mechanical separations for solid-fluid systems | DChE |
| ChemE 135 | Process Engineering Laboratory | Experiments on applications of thermodynamics and physical chemistry; experiments on heat transfer and momentum transfer | DChE |
| ChemE 136 | Special Projects Laboratory | Experimental design; practical study of the applications of mass transfer, separation processes, particle technology, reaction engineering, process control, and bioprocessing | DChE |
| ChemE 140 | Chemical Process Industries | DChE | |
| ChemE 141 | Chemical Process Development and Plant Economics | DChE | |
| ChemE 143 | Chemical Engineering Research I | Application of selected topics in Design of Experiments to chemical engineering research; conceptualization and proposal writing for a chemical engineering research project | DChE |
| ChemE 144 | Chemical Engineering Research II | Research project implementation and assessment | DChE |
| ChemE 145 | Chemical Plant and Process Economics | Engineering economics as applied to chemical process industries; market study and market trends | DChE |
| ChemE 146 | Chemical Process Development and Simulation | Application of engineering economics to process flow development and industrial plant design; general chemical process design considerations; simulation and optimization of processes | DChE |
| ChemE 147 | Chemical Engineering Plant Design | Application of chemical engineering principles to the design of an industrial processing plant; design of waste treatment and pollution management facilities | DChE |
| ChemE 151 | Introduction to Health, Safety, and Environment | Environmental process engineering; health, safety, and environment (HSE) practices in chemical processing plants | DChE |
| ChemE 170 | Introduction to Bioprocess Engineering | Mass and energy balance in biological systems; kinetics of bioprocesses; heat and mass transfer applications to bioreactor design and downstream processes | DChE |
| ChemE 172 | Chemical Process Dynamics and Control | DChE | |
| ChemE 182 | Chemical Process Dynamics and Control | Introduction to process dynamics of simple chemical systems; objectives and performance criteria of control systems | DChE |
| ChemE 190 | Plant Inspection and Seminar | DChE | |
| ChemE 191 | Chemical Process Industries | Survey of the different industrial chemical processes; unit operations and processes in chemical industries | DChE |
| Chemistry 21 | General Chemistry | A study of fundamental principles of chemistry and brief survey of metallic elements. | IC |