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CHEM 4133 PHARMCEUTICAL BIOCHEMISTRY An introductory course involving the study of the physical and chemical properties of compounds associated with the chemistry of life processes and an introduction to metabolism, especially carbohydrate degradation and nucleic acid and protein biosyntheses. Lecture-only course for Pharmacy students only. Prerequisites: (CHEM-4113 and CHEM-4021) or 4115 or permission of instructor. F, S CHEM 4223 POLYMER CHEMISTRY The synthesis, testing and industrial application of intermediate and high molecular weight polymers. Includes three hours of laboratory per week. Prerequisites: (CHEM 4113 and CHEM 4021) or CHEM 4115 and Theory and practice in the use of instrumental methods utilized in chemical analysis. Prerequisites: CHEM 3124 or departmental approval. SO CHEM 4313 ADVANCED ORGANIC SYNTHESIS This course is a study of advanced synthetic methodologies. Specifically, the application of modern organic reactions, associated mechanistic principles, and their application toward the design, execution, and evaluation towards the synthesis of complex molecules. Prerequisites: CHEM 4113 or CHEM 4115, or permission of instructor. D CHEM 4353 MATERIALS CHEMISTRY concurrent or prior enrollment in CHEM 3343. D CHEM 4234 INSTRUMENTAL ANALYSIS An introduction to the fundamental chemistry of materials. Includes study of the classification, structure, bonding, synthesis, analysis, processing, development, and utilization of metals, glass-ceramics, polymers, composites, and nanomaterials. Prerequisites: CHEM 4113 or CHEM 4115, or permission of instructor. D CHEM 4254 INDUSTRIAL CHEMISTRY AND ENVIRONMENTAL REGULATIONS Critical examination of chemical innovation and emerging technologies in chemical production, use, and disposal for the protection of worker safety, public health, and the environment, including pollution prevention and remediation strategies, emissions monitoring and regulatory compliance, waste treatment, and resource conservation and recovery. Prerequisites: CHEM 4113 or CHEM 4115 or CHEM 2114. SE CHEM 4455 PHYSICAL CHEMISTRY II A continuation of CHEM 3343. Topics include quantum mechanics and its role in chemistry and the theoretical and experimental aspects of atomic and molecular structure, chemical bonding, spectroscopy, and photochemistry. Includes 3 hours of lecture and 6 hours of laboratory instruction. Corequisite: CHEM 4455L. Prerequisite: CHEM 3124 and CHEM 3343 with a āCā or better and concurrent or prior enrollment in MATH 3834. SO CHEM 4554 ADVANCED ORGANIC SPECTROSCOPY In-depth study of instrumental techniques including nuclear magnetic resonance, infrared, ultraviolet/visible, and mass spectroscopy to identify or verify organic molecules of moderately complex structure. Efficient interpretation of structure is emphasized by establishing features such as overall carbon framework, presence and location of functional groups, regiochemistry of substituents, and stereochemistry of chiral centers. Prerequisites: CHEM 4115 and CHEM 4234 or departmental permission. D CHEM 4673 ADVANCED METABOLISM Study of metabolic reactions and biochemical processes of living organisms. An understanding of enzymes, utilization or energy, synthesis of compounds, interrelationships among various metabolic pathways, hormone function, and metabolic regulation is developed. Prerequisite: CHEM 4124. S
CHEM 4900 SEMINAR ATTENDANCE A non-credit course required each semester for all chemistry majors. The course provides seminars, workshops and presentations by visiting and in- house faculty and staff, graduate school and industry contacts, and student presenters. F, S CHEM 4901 SENIOR SEMINAR IN CHEMISTRY II (CAPSTONE) Each student will be required to select, conduct a literature search, write a review paper, and present a seminar on a current chemistry topic of interest. Prerequisite: CHEM 3901. S Engineering Physics ENGR 2022 INTRODUCTION TO ENGINEERING PHYSICS An overview of engineering fields and fundamental principles. Students will explore various engineering branches, discuss ethics, develop skills in communication, and explore some engineering tools available. The course covers basic physics concepts relevant to engineering, including dimensions and unit conversion, statics, materials, energy, and electrical circuits. Through a mix of instruction and projects, students will gain a foundation in both technical and professional aspects necessary for success in engineering. Prerequisite: completion of or concurrent enrollment in MATH 1513 (or higher-level MATH course). F ENGR 2203 STATICS An introductory calculus-based statics course for engineers. Topics covered include vectors, forces and moments, systems of forces, equilibrium, structures (such as trusses), centroids and moments of inertia, distributed forces, internal forces, friction and simple devices, and fluid statics. Prerequisites: PHY-2145 and completion of or concurrent enrollment in MATH-2834 . F ENGR 2213 STRENGTH OF MATERIALS An introductory calculus-based course for engineers that studies the mechanical properties of stressed materials (and members of structures) using appropriate factors of safety and accounting for cost. Topics covered include elastic and plastic deformation of beams, columns, and shafts, the stress on members due to axial, bending, shear, and torsional load, temperature effects, stress and strain in rotated coordinate systems, buckling, and strain energy. Prerequisite: ENGR 2203. S ENGR 3013 MATERIALS SCIENCE An introductory, interdisciplinary course about the fundamental properties of solid materials. Topics include: atomic and crystalline structure, diffusivity, imperfections, mechanical testing, deformation, hardening techniques; electrical magnetic, optical, thermal, corrosive and wear properties. Materials discussed include ferrous and nonferrous alloys, ceramics, polymers, and composites. Prerequisites: ENGR 3403 and CHEM 1303. D ENGR 3112 ENGINEERING AND EXPERIMENTAL TECHNIQUES Study of common techniques used for research, development, and design with an emphasis on professionalism cumulating with a student designed project. Prerequisite: ENGR 3414. SE ENGR 3311 MODERN PHYSICS LABORATORY A laboratory designed to complement the Modern Physics for Engineers course and introduce techniques needed for research such as notebook maintenance, best measurement practices, basics statistics, use of data analysis and modeling software, and teamwork. This course culminates with a student-led team project to improve on or extend a research project. Prerequisites: PHY 2155, completion of or concurrent enrollment in MATH-3834, and completion of or concurrent enrollment in ENGR 3403. S
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