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Course Criteria
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3.00 Credits
In this course, students will explore the tools and methods used for quantitative chemical analysis. Topics of study include experimental error and statistics, chemical equilibria, spectrophotometry, chromatography, and electrochemistry. The use of Excel in the manipulation of quantitative data and critical thinking in addressing chemical analysis will be emphasized.
Prerequisite:
CHEM235 OR CHEM236 AND MATH140
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1.00 Credits
In this course, students will be introduced to the most widely used types of analytical instrumentation, and apply those instruments to the quantification of species of interest in various matrices. Laboratory exercises will emphasize the analytical approach to problem solving, and require precision and accuracy in all measurement. Experiments will include spectrophotometry, potentiometry, chromatography, and voltammetry. Scientific writings skills will be reinforced in the preparation of laboratory reports, and spreadsheet analysis of data will be required.
Prerequisite:
CHEM234 AND CHEM236 AND MATH140
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1.00 Credits
In this course, students will be introduced to the most widely used types of analytical instrumentation, and apply those instruments to the quantification of species of interest in various matrices. Laboratory exercises will emphasize the analytical approach to problem solving, and require precision and accuracy in all measurement. Experiments will include spectrophotometry, potentiometry, chromatography, and voltammetry. Scientific writing skills will be reinforced in the preparation of laboratory reports, and spreadsheet analysis data will be required.
Prerequisite:
CHEM234 AND CHEM236 AND MATH140
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1.00 Credits
This course is a study of the various classes of chemical literature, techniques of searching the literature, and the proper documentation of experimental observations and literature references.
Prerequisite:
CHEM234
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3.00 Credits
This course deals with the nature and theoretical bases of recent noteworthy advances in science. Interdisciplinary in design, the course draws its content from the various disciplines of natural science. Emphasis is placed upon topics being reported upon in professional journals. This course is also listed as PHYS 402.
Prerequisite:
CHEM353 AND CHEM354
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3.00 Credits
Topics presented in this course will cover a variety of advanced areas of biochemistry. Typically in one semester, the course will focus either on enzymes and regulation and integration of metabolism, or nucleic acids and recombinant DNA technology. Current journal articles will be used to supplement the textbook and provide the basis for discussions. The choice of focus and inclusion of other special topics will be determined by the needs of the students enrolled.
Prerequisite:
CHEM315 AND CHEM317 AND CHEM350 OR CHEM353
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3.00 Credits
This course will lay strong emphasis on the physio-chemical properties of proteins and nucleic acids, their synthesis, and molecular interactions as they relate to phenotypic expressions. Students will be introduced to correlations between structure and function for proteins and nucleic acids. Topics covered include mechanisms of nucleic acid replication and synthesis of proteins, characterization of proteins and their roles in pathology, disease prevention, gene editing, etc.
Prerequisite:
CHEM315 AND CHEM317
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1.00 Credits
This laboratory focuses on laboratory protocols for the purification, quantification, and analysis of protein and nucleic acid structures and functions used in industry and research. Emphasis will be placed on record keeping, critical evaluation of data and experimental design and written and oral presentation of experimental results.
Corequisite:
CHEM415
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3.00 Credits
This course introduces students to the fields of toxicity and risk assessment. Emphasis will be on the molecular basis of toxicity and the biochemical impact of exposure to toxic agents.
Prerequisite:
CHEM234 AND CHEM236 AND CHEM315
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3.00 Credits
This course explores the molecular logic of metabolism and protein synthesis and discusses how organic molecules function in biochemical processes and pathways. Biosynthetic reactions, the roles of cofactors and coenzymes, enzyme active sites, transcription and translation, regulation, advanced bioenergetics, and structure and patterns common to all biochemical transformations are explored and discussed.
Prerequisite:
CHEM315 AND CHEM317
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