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Course Criteria
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1.00 Credits
Students will become familiar with ethical issues facing modern scientists, their role in maintaining an ethical environment, and learn to behave in an ethical fashion when conducting research as an undergraduate and moving forward. Students will also evaluate the role of scientists in society, and their responsibility to ensure the proper dissemination of scientific knowledge. Topics include: what is misconduct, roles in a lab setting and how they affect power dynamics, scientific communication, data ownership, human subjects and the IRB, and the societal responsibilities of scientists. Assignments will be tailored to the major program (including: biochemistry, cannabis chemistry, and other specific chemistry tracks) of the registered students.
Prerequisite:
30 (or more) credits completed
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3.00 Credits
[[CHM-322]] presents a survey of current topics in Inorganic Chemistry. The first half of the course offers a survey of main group chemistry, including individual group trends. The second half of the course covers Crystal Field Theory, Ligand Field Theory, reaction mechanisms, and organometallic compounds. Three hours of lecture per week.
Prerequisite:
[[CHM-114]] with a grade of 2.0 or better & [[CHM-116]] with a grade of 2.0 or better
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1.00 Credits
Advanced Inorganic Chemistry Laboratory is the complimentary laboratory toCHM-322Inorganic Chemistry. Students will build upon the foundational concepts first explored inCHM-322. An emphasis will be placed on the synthesis and characterization of transition metal complexes. Coordination chemistry reactions and mechanisms will be introduced as well as the chemistry of lanthanides. Students will gain experience in the handling of air-sensitive materials. Laboratory, three hours per week. Click here for course fee.
Prerequisite:
[[CHM-322]]
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3.00 Credits
A course in the fundamental principles that provide the basis for the design and fabrication of chemical instrumentation. The underlying physical basis for each method is introduced through an exploration of the capabilities, limitations, and applications of a wide range of separations, spectroscopic, and electrochemical methods.Three hours of lecture per week.
Prerequisite:
[[CHM-246]] with a grade of 2.0 or better, [[CHM-248]] with a grade of 2.0 or better, [[MTH-112]], [[PHY-202]]
Corequisite:
[[CHM-343]]
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1.00 Credits
Weekly lab that corresponds to the lecture topics in [[CHM-341]]. One three-hour laboratory per week. Click here for course fee.
Prerequisite:
[[CHM-341]]
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2.00 Credits
An analytical chemistry laboratory course in separations chemistry. The course will cover chromatography, including GC-MS, LC, and LC-MS with a focus on their application to cannabis and natural products analysis. The course will also cover the operation and maintenance of the modern chemical chromatography instrumentation. Meets for two-laboratory sessions per week. Click here for course fee.
Prerequisite:
[[CHM-341]] , [[CHM-343]] and [[CHM-261]] or instructor permission.
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3.00 Credits
This course emphasizes the molecular approach to physical chemistry. It begins discussing the principles of quantum mechanics and their applications in chemistry, leading to atomic and molecular structure, and chemical bonding. These concepts are then used in the development of atomic and molecular spectroscopy. Photochemistry is introduced.Three hours of lecture per week.
Prerequisite:
[[CHM-114]] with a grade of 2.0 or better, [[CHM-116]] with a grade of 2.0 or better, [[MTH-212]] and [[PHY-202]]
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3.00 Credits
Statistical mechanics is used to formulate thermodynamics in terms of atomic and molecular properties, allowing a molecular interpretation of the laws of thermodynamics. Three hours of lecture a week.
Prerequisite:
[[CHM-114]] with a grade of 2.0 or better, [[CHM-116]] with a grade of 2.0 or better, [[MTH-212]], and [[PHY-202]]
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1.00 Credits
Laboratory experiments are performed in order to reinforce concepts in [[CHM-351]]. Bench as well as computational experiments will explore the photoelectric effect, resonance states of a particle in a one-dimensional box, applications of molecular orbital theory, and molecular spectroscopy. Three hours per week. Click here for course fee.
Prerequisite:
[[CHM-351]]
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1.00 Credits
Laboratory experiments are performed in order to reinforce concepts in [[CHM-352]]. Bench as well as computational experiments explore calorimetry, phase equilibria, colligative properties, kinetics, and applications of the Monte Carlo method to chemical kinetics. One three-hour lab per week.
Prerequisite:
[[CHM-352]]
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