Unified treatment of the chemistry of the important classes of inorganic compounds and their reactions, with emphasis on underlying principles of molecular structure, symmetry, and bonding theory, including molecular orbital descriptions and reactivity. Prerequisite; CHEM 1420.

Execution of laboratory experiments that illustrate important laws and demonstrate quantitative methods of measuring the chemical and physical properties of matter. One hour lab lecture and four hour lab meet weekly. Prerequisite: CHEM 1421, 1621, or 1811. CHEM 3410 must be taken concurrently or prior to CHEM 3811. Drop/withdrawal from CHEM 3410, requires drop/withdrawal from CHEM 3811.

Introducing the components of biological macromolecules and the principles behind their observed structures. Prerequisites: CHEM 2420 or 2810

Introduces the components of biological macromolecules and the principles behind their observed structures. Examines the means by which enzymes catalyze transformations of other molecules, emphasizing the chemical principles involved. Topics include a description of the key metabolic cycles and pathways, the enzymes that catalyze these reactions, and the ways in which these pathways are regulated. Prerequisite: CHEM 2420

Seeks to understand elementary reaction types as a function of chemical structure by emphasizing organic compounds. Topics include acid-base, nucleophilic substitution, oxidation-reduction, electrophilic addition, elimination, conformational analysis, stereochemistry, aromaticity, and molecular spectroscopy. Prerequisite: CHEM 1810 w/grade C or higher. CHEM 1821, 2411, or 2311 may be taken concurrently or after completing CHEM 1820. Drop or withdrawal from CHEM 1820, requires drop/withdrawal from CHEM 1821/2411/2311.

Continued exploration of organic reactions and structures initiated in CHEM 1820. Includes electrophilic aromatic substitution, nucleophilic aromatic substitution, nucleophilic addition, nucleophilic acyl substitution, organometallic compounds, carbohydrates, lipids, peptides, proteins, and nucleic acids. Prerequisite: CHEM 1820. CHEM 2811, 2421, or 2321 may be taken concurrently or after CHEM 2810. Drop/withdrawal from CHEM 2810, requires drop/withdrawal from CHEM 2811/2421/2321.

Covers three main areas: structure and function of biological membranes; complex biochemical systems and processes, including photosynthesis, oxidative phosphorylation, vision, neurotransmission, hormonal regulation, muscle contraction, and microtubules; and molecular biology, including DNA and RNA metabolism, protein synthesis, regulation of gene expression, and recombinant DNA methodology.

First of a four-semester sequence covering the basic concepts of general & organic chemistry. Establishes a foundation of fundamental particles & the nature of the atom, develops a rationale for molecular structure, & explores the basis of chemical reactivity. Topics: introductory quantum mechanics, atomic structure, chemical bonding, spectroscopy, & elementary molecular reactivity.Prerequisite: A strong background in high school chemistry. CHEM 1811 or 1411 may be taken concurrently or after completing CHEM 1810. Drop/withdrawal from CHEM 1810, requires drop/withdrawal from CHEM 1811/1411.

This course provides an introduction to statistical mechanics for graduate students or highly advanced undergraduates. The course begins with a review of thermodynamics and an introduction to the fundamental assumptions of equilibrium statistical mechanics, continues on to examine both non-interacting and interacting systems of interest, and finally introduces the basic concepts of non-equilibrium statistical mechanics.

Further development of the laboratory skills acquired in CHEM 1821, for the organic synthesis (including multistep synthesis) of compounds such as esters, amides, peptides, polymers, organometallics. Extensive hands-on experience using spectroscopic (NMR, IR, UV) and chromatographic methods for the characterization of organic compounds. One hour lab lecture and four hours laboratory meets weekly. Prerequisite: CHEM 1821. CHEM 2810 must be taken concurrently or prior to CHEM 2811. Drop/withdrawal from CHEM 2810, requires drop/withdrawal from CHEM 2811.