300

An introduction to principles and applications of physical chemistry. Topics include states and properties of matter, thermodynamics and its application to chemical and biochemical systems, phase and chemical equilibrium, electrochemistry and chemical kinetics. Lecture only.

An advanced treatment of chemical equilibrium and its application to the quantitative analysis of materials. Emphasizes gravimetric, volumetric, spectrophotometric and potentiometric methods of analysis. Lecture and laboratory.

Laboratory component of CHE 310.

The ocean is the largest aqueous mixture on the planet, and this course is an introduction to the chemistry of the seas. Chemical oceanography is one of the four major fields of oceanography and requires an interdisciplinary approach to understand the biological, chemical, geological and  physical processes that affect seawater constituents. The composition of seawater and its spatial and temporal variations will be the primary focus of the course. Interactions at the boundaries of the ocean with the atmosphere, sediments and seafloor that affect seawater chemistry will be explored.

A study of the chemical properties and biological functions of the atoms, molecules, macromolecules and macromolecular complexes that contribute to living systems. Topics include pH; structure and function of carbohydrates, proteins, lipids and nucleic acids; enzyme kinetics; and the major metabolic cycles and their cellular control processes. Lecture only.

This laboratory course is designed to supplement lecture material discussed in CHE 320 (Biochemistry). Topics to be discussed and experiments performed by students include buffer composition and analysis; protein purification and quantitation; enzyme kinetics and inhibition; nucleic acid purification and quantification; and ligand binding and equilibrium analysis.
CHE 320L is only required for Biochemistry and Forensic Science majors. Other students enrolled in or who have previously completed CHE 320 (lecture) with a grade of at least a C may register for the lab, but it is not required.

This course extends the basic biochemistry (CHE 320) curriculum and provides a more comprehensive foundation. Topics covered in the lecture component include: glycolysis and gluconeogenesis, the citric acid cycle, oxidative phosphorylation and photosynthesis, the Calvin cycle and pentose phosphate pathway, glycogen and fatty acid metabolism, biosynthesis and catabolism of amino acids, nucleotide biosynthesis, biosynthesis of lipids, metabolism integration, metabolism of nucleic acids, and biochemical regulation of gene expression.

A hands-on training experience in modern methods for obtaining and interpreting DNA profiles in forensic applications. All aspects of the process are taught, including: sampling extraction, quantification, amplification, and acquisition of a DNA profile. The interpretation of results, including multiple-source mixed DNA samples, will be discussed. Students operate instrumentation relevant to modern forensic laboratories, including extraction robots, quantification instruments, thermal cyclers, and genetic analyzers. This course is conducted in collaboration with the National Forensic Science Technology Center (NFSTC) in Largo, FL. Periodic travel to the NFSTC facility is required.

This course is designed to provide hands-on experience in firearms evidence examination, with a focus on microscopic methods. The course will explore common types of firearms evidence such as cartridge casings, bullets, bullet fragments, shot pellets, and gunshot residues. Students will compare fired bullets and cartridges with unknown samples, primarily using comparison microscopy.

Topics include gases and kinetic molecular theory, the laws of thermodynamics, phase equilibrium, ideal and non-ideal solutions, electrochemistry and surface phenomena. Lecture only.

Introduction to advanced chemical laboratory techniques.

A continuation of Physical Chemistry I. Topics include kinetics, photochemistry, quantum mechanics, spectroscopy and X-ray diffraction. Lecture only.

Continuation of physical chemistry laboratory.

This course is designed for students to explore research in chemistry, biochemistry, forensic science or marine chemistry. Specifically this course is for students who are not yet eligible to take 400 level research courses and for students of any year whose major is outside the department. Students choose a project requiring experimental or computational research in consultation with a faculty member. An electronic or written record of the student's progress must be submitted to the faculty mentor who may set additional requirements. This class may be repeated for a total of 8 credit hours. Graded on a satisfactory/unsatisfactory basis.

Provides practical experience in chemistry-related programs in an organization under the supervision of faculty and external representatives. May be taken by students who do not satisfy the prerequisites for CHE 453 Chemistry Internship or CHE 463 Forensic Science Internship or by students engaged in experiences that relate to scientific activities but that do not directly build scientific knowledge. May be accomplished on a part-time basis and may be repeated for a total of 4 credit hours. Graded on a satisfactory/unsatisfactory basis.