Courses of Instruction
CHEM 512. ADVANCED INSTRUMENTAL ANALYSIS. Theoretical and experimental treatment of gas and liquid chromatography, Fourier-transform NMR spectroscopy, and mass spectrometry. Prerequisites: CHEM 469 or Graduate standing (2 lecture, 3 lab hours). (3 credits).
CHEM 513. PRINCIPLES OF ANALYTICAL CHEMISTRY. A survey of the basic principles of analytical techniques and instrumentation. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 514. FUNDAMENTALS OF ELECTROCHEMISTRY. Introduction to the theory and principles of electrochemistry, including modern electroanalytical techniques and microelectrodes. Prerequisites: CHEM 469 or Graduate standing (3 credits).
CHEM 519. CHEMICAL SEPARATIONS. Theoretical and mathematical treatment of chromatography and other separation techniques. Prerequisites: CHEM 469 or graduate standing (3 credits).
CHEM 524. PRINCIPLES OF ORGANIC CHEMISTRY. A survey of the basic principles of organic chemistry with physical chemical principles. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 527. ADVANCED ORGANIC CHEMISTRY, STRUCTURE AND MECHANISM. Resonance and molecular orbital theory, linear free energy relations, and reaction mechanisms. Prerequisites: CHEM 331 or graduate standing (3 credits).
CHEM 528. ADVANCED ORGANIC CHEMISTRY, MECHANISM AND SYNTHESIS. Conformational analysis, carbanion chemistry, and synthetic reactions. Prerequisites: CHEM 331 or graduate standing or Graduate standing (3 credits).
CHEM 529. STEREOCHEMISTRY. Configurational and conformational analysis of molecules; the steric course of organic chemical reactions. Prerequisites: CHEM 331 or graduate standing (3 credits).
CHEM 530. ADVANCED ORGANIC SYNTHESIS. A study of the literature, reactions, and planning methods that are used in modern organic synthesis. Prerequisites: CHEM 331 or graduate standing (3 credits).
CHEM 531. ADVANCED PHYSICAL CHEMISTRY, QUANTUM CHEMISTRY. Elementary quantum chemistry; solution of the Schrodinger equation for simple chemical systems; molecular orbital theory. Prerequisites: CHEM 332 or graduate standing (3 credits).
CHEM 532. CHEMICAL THERMODYNAMICS. Discussion of irreversible and equilibrium thermodynamics and application to various chemical problems. Prerequisites: CHEM 332 or Graduate standing (3 credits).
CHEM 534. PHYSICAL BIOCHEMISTRY. Macromolecules: structure and function; thermodynamics and kinetics of confrontational transitions and macromolecule-ligand interactions. Prerequisites: CHEM 471 and either CHEM 331 or CHEM 334 or graduate standing (3 credits).
CHEM 535. PRINCIPLES OF PHYSCIAL CHEMISTRY I. A survey of the principles of physical chemistry. Thermodynamics, kinetics, quantum mechanics, spectroscopy, statistical mechanics. Prerequisites: Consent of Department Chairperson Required and Graduate standing (3 credits).
CHEM 536. ADVANCED PHYSICAL CHEMISTRY, REACTION DYNAMICS. Kinetic theory; molecular reaction dynamics; transition state theory. Prerequisites: CHEM 332 or graduate standing (3 credits).
CHEM 538. PRINCIPLES OF PHYSCIAL CHEMISTRY II. Continuation of a survey of the principles of physical chemistry. Thermodynamics, kinetics, quantum mechanics, spectroscopy, statistical mechanics. Prerequisites: CHEM 535 with a minimum grade of B and Consent of Department Chairperson Required (3 credits).
CHEM 544. CHEMICAL APPLICATIONS OF GROUP THEORY. Introduction to the principles of symmetry and group theory and their application to the description of molecular structure in terms of the chemical bonding models (VB, MO, LF) and spectral properties (magnetic, vibrational, and electronic). Prerequisites: CHEM 401 or graduate standing (3 credits).
CHEM 545. CHEMICAL LITERATURE. Introduction to and practice in the use of chemical abstracts, journals and other library reference materials. Prerequisites: Consent of Department Chairperson Required (Z grade) (3 credits).
CHEM 546. CHEMISTRY FOR HIGH SCHOOL SCIENCE TEACHERS I. A review of the basic principles of chemistry and an overview of the new technology, instructional materials, and methods used for teaching chemistry at the high-school level. Appropriate for high-school teachers seeking certificate renewal or supplemental endorsement. May not be counted toward a degree in the sciences. Maybe be repeated once for credit. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 547. CHEMISTRY FOR HIGH SCHOOL SCIENCE TEACHERS II. A review of the basic principles of chemistry and an overview of the new technology, instructional materials, and methods used for teaching chemistry at the high-school level. Appropriate for high-school teachers seeking certificate renewal or supplemental endorsement. May not be counted toward a degree in the sciences. May be repeated once for credit. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 548. WORKSHOP-MIDDLE SCHOOL SCIENCE TEACHERS. Selection and application of instructional materials and methods for secondary school chemistry. May not be counted toward an advanced degree in any of the sciences. Prerequisites: Consent of Department Chairperson Required (1-2 credits).
CHEM 550. SAFETY IN THE CHEMICAL LABORATORY. Assigned readings and demonstrations on the use and handling of hazardous chemicals and chemical apparatus. Prerequisites: Consent of Department Chairperson Required (Z grade) (3 credits).
CHEM 554. ANALYTICAL ENVIRONMENTAL CHEMISTRY. This course will focus on the analytical chemistry of pollutants and instrumental techniques used to identify and quantify them. Prerequisites: CHEM 469 with a minimum grade of C or graduate standing (3 credits).
CHEM 563. APPLIED SPECTROSCOPY. Application of theoretical principles to the interpretation of various types of spectroscopy. (2 lecture, 3 lab hours). Prerequisites: CHEM 332 and 469; or graduate standing (3 credits).
CHEM 580. MOLECULAR BIOCHEMISTRY I. Examination of the organization and functional mechanisms of gene expression at the molecular level. Prerequisites: CHEM 471 and Graduate standing (3 credits).
CHEM 581. MOLECULAR BIOCHEMISTRY II. Continuation of CHEM 580. Prerequisites: CHEM 471; or graduate standing (3 credits).
CHEM 617. RESEARCH METHODOLOGY IN CHEMISTRY I. Modern techniques and methods of research in chemistry. May be repeated for credit. (3 credits).
CHEM 697. THESIS. (1-12 credits).
CHEM 700. INTRODUCTION TO GRADUATE RESEARCH. An introduction to a variety of aspects related to the performance and presentation of research, with emphasis on scientific ethics. Z grade. (3 credits).
CHEM 701. ADVANCED INORGANIC CHEMISTRY I. Atomic and molecular structure, symmetry, acid-base chemistry, the crystalline solid state, coordination chemistry; including structure, bonding, electronic spectra and reactions; main group chemistry; organometallic chemistry; and bioinorganic chemistry. (3 credits).
CHEM 702. ADVANCED INORGANIC CHEMISTRY II. Continuation of CHEM 701. (3 credits).
CHEM 703. INORGANIC TECHNIQUES. Atomic and molecular structure; chemical bonds; solvent systems; reactions of the elements and their compounds. (3 credits).
CHEM 705. SEMINAR IN CHEMISTRY. A discussion of the current literature in organic chemistry taken primarily from journal articles appearing in the previous year. May be repeated for credit. Z grade. (1 credit).
CHEM 715. SELECTED TOPICS IN ANALYTICAL CHEMISTRY. May be repeared once for credit if topics are different. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 717. INTERNSHIP SEMINAR IN COLLEGE CHEMISTRY. Preparation and delivery of lectures in chemistry for use in classroom work and laboratory experimentation. May be repeated for credit. Z grade. (3 credits).
CHEM 718. RESEARCH METHODOLOGY IN CHEMISTRY II. Modern techniques and methods of research in chemistry. May be repeated for credit (6 lab hours) (3 credits).
CHEM 722. ORGANIC TECHNIQUES. Important research techniques in organic chemistry and preparation of selected materials in their use. (3 credits).
CHEM 725. SELECTED TOPICS IN ORGANIC CHEMISTRY. May be repeated once for credit if topics are different. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 733. SELECTED TOPICS IN PHYSICAL CHEMISTRY. May be repeated once for credit if topics are different. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 741. SELECTED TOPICS IN INORGANIC CHEMISTRY. May be repeated once for credit if topics are different. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 750. AREA SEMINARS. Student seminar presentation in one of the following areas: analytical chemistry, biochemistry, inorganic chemistry, organic chemistry, physical chemistry. May be repeated for credit. (1 credit).
CHEM 759. DOCTORAL SEMINAR. Contributions to scientific knowledge by the doctoral candidate in chemistry; presentation required during student’s terminal year. (1 credit).
CHEM 761. QUANTUM CHEMISTRY. Rigorous treatment of quantum theory applied to molecular systems; Hartree-Fock and density functional theory; molecular orbital theory. (3 credits).
CHEM 762. THEORY OF MOLECULAR STRUCTURE. Theoretical studies of rotational, vibrational, and electronic spectra; magnetic spectroscopy; molecular beam and laser scattering. (3 credits).
CHEM 765. BIOINORGANIC CHEMISTRY. The role of metal ions in biological processes; structure of metal ion complexes; mechanisms of enzyme-metal complex catalysis. (3 credits).
CHEM 771. BIOCHEMISTRY I. Chemistry of biological macromolecules including proteins, carbohydrates, lipids and nucleic acids. Special topics in ligand binding, kinetics and noncovalent forces. An independent study project is required. (3 credits).
CHEM 772. BIOCHEMICAL TECHNIQUES. Specialized laboratory methodology currently used in biochemistry (4 credits).
CHEM 773. BIOCHEMISTRY II. Intermediary metabolism, including catabolic and anabolic processes involving carbohydrates, lipids, proteins, and nucleic acids. An independent study project is required. Prerequisites: CHEM 771 with a minimum grade of C (3 credits).
CHEM 774. SELECTED TOPICS IN BIOCHEMISTRY. May be repeated once for credit if topics are different. Prerequisites: Consent of Department Chairperson Required (3 credits).
CHEM 776. NUCLEIC ACID CHEMISTRY. The structural and functional properties of nucleic acids will be examined from a chemical perspective and correlated to their biochemical significance (3 credits).
CHEM 777. PROTEIN STRUCTURE. Discussion of forces involved in protein folding; common structural motifs; structure-function relationships; overview of experimental and computational methods used to determine protein structure and homologies (3 credits).
CHEM 796. DOCTORAL THESIS. Preparation of a thesis of a publishable quality on a topic approved by the student’s advisory committee. The topic of the thesis may deal either with a critical review of some current topic in chemistry, a credible proposal on teaching the substance of chemistry at the college level, or the student’s research. (1-6 credits).
CHEM 797. DISSERTATION. (No grade) (1-18 credits).