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Course Criteria
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3.00 Credits
This course covers the structure and functions of proteins, polynucleic acids, and biological membranes. Enzymes and kinetics are taught. Metabolic pathways, with emphasis on the thermodynamics of the equilibrium and the storage and usage of energy, are covered.
Prerequisite:
CHM205
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3.00 Credits
Metabolism is studied with an emphasis on anabolic pathways and special pathways such as cytochrome P450. Other topics include molecular genetics and protein synthesis, hormones, receptors, and immunology. MAT students must make two presentations on current topics and lead the class in an evaluation of a case study. Prerequisite(s): CHM 538
Prerequisite:
CHM538
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3.00 Credits
This course is an advanced study of the chemical principles underlying common environmental problems. It aims to deepen the student's knowledge of chemistry and it's role in the environment and to show the power of chemistry as a tool to help us comprehen
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3.00 Credits
Study of computational techniques of importance in contemporary drug design. Topics include molecular docking, ligand binding free energy calculations, de novo drug design, pharmacophore elucidation, quantitative structure-activity relations, and combinations.
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3.00 Credits
This course will explore the process of drug development, from target identification to final drug registration. It will present drug development as a process involving target selection, lead discovery using computer-based methods and combinatorial chemistry/high-throughput screening. Safety evaluation, bioavailability, clinical trials, and the essentials of patent law will also be discussed.
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3.00 Credits
An interdisciplinary framework for designing and operating industrial systems as living systems interdependent with natural systems. There is a balance between environmental and economic performance with local and global ecological constraints.
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3.00 Credits
Catalysis lies at the heart of many chemical processes, from the academic research lab through living systems to the industrial large-scale reactor. By understanding and careful use of catalysis many processes can be made faster, cleaner and more sustainable. This course will provide training in the state-of-the-art of catalysis theory, application, preparation and analysis.
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3.00 Credits
Physical and organic chemistry of polymers for persons with a basic training in chemistry, physics, or engineering. A survey of preparative methods of polymers; physical chemistry of polymer molecules in solution, liquid, and solid phases; thermodynamics and statistics of polymers; methods of characterization; mechanical properties, fabrication techniques. Prerequisites: one semester of physical chemistry and one semester of organic chemistry.
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3.00 Credits
Expands skills and techniques acquired in physical chemistry by providing applications to large systems of reaction occurring in flow systems. Introduction to the mass, momentum and energy balances and design concepts familiar to chemical engineers. Topics also included are fluid flow, heat transfer, process control, mixing and transport properties.
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3.00 Credits
In the first of this two-course sequence a series of professionals from the region are invited to present to the class. These presentations will present problems/projects being addressed by local industry. Groups of students will choose one, design a protocol to follow, and present their protocol to the class.
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