Introduction to chemistry for non-science majors. Discussion of basic chemistry concepts and their application to everyday life. No credit for science and engineering majors. A-F only. Students who successfully completed 110/SUST 120 with a grade of C or better will not be allowed to enroll in 100 without instructor override. Students who successfully complete 100 with a grade of C or better will not be allowed to enroll in 110/SUST 120 without instructor override.
Laboratory to accompany CHEM 100, 110, or SUST 120. Lab introduces fundamental applications of chemistry, with special emphasis on relevant topics and how chemistry relates to the real world. (For students in non-science fields.) A-F only. Pre: 100 (or concurrent), 110 (or concurrent), or SUST 120 (or concurrent).
Introduction to chemistry for non-science majors. Discussion of the role of natural and manmade chemicals in everyday life, with an emphasis on sustainable and environmentally-sensitive use of chemicals to improve our world. A-F only. Students who successfully completed 100 with a grade of C or better will not be allowed to enroll in 110/SUST 120 without instructor override. Students who successfully complete 110/SUST 120 with a grade of C or better will not be allowed to enroll in 100 without instructor override. (Cross-listed as SUST 120)
For students lacking preparation in chemistry. Provides background in algebra and elementary concepts of chemistry in preparation for entering the General Chemistry sequence. A-F only. Pre: successful completion of placement exam.
Nonrigorous but adequate background in fundamentals. Preparation for technical training in life sciences.
(1 3-hr Lab) Experiments introducing laboratory techniques and illustrating chemical principles. Pre: 151 (or concurrent).
Structure, nomenclature, properties, reactions of organic compounds emphasizing those of practical importance in related fields. Pre: 151, 162, or 171.
(1 3-hr Lab) Techniques of preparation, purification, identification of organic compounds. Pre: 151L, 162L, or 171L; and 152 (or concurrent).
Basic principles of chemistry, including stoichiometry. Introduction to solution phase chemistry. Gas phase chemistry. Thermodynamics, including enthalpies of formation and reaction. Atomic structure, periodic trends, chemical bonding, molecular structure. Students who successfully completed 171 or 181A with a grade of C or better will not be allowed to enroll in 161 without instructor override. Students who successfully complete 161 with a grade of C or better will not be allowed to enroll in 171 or 181A without instructor override. Pre: C (not C-) in 131 or C (not C-) in 151 or successful completion of placement exam, or consent.
(1 3-hr Lab) Laboratory experiments introducing techniques and fundamental principles of chemistry. Students who successfully completed 171 or 181A with a grade of C or better will not be allowed to enroll in 161 without instructor override. Students who successfully complete 161 with a grade of C or better will not be allowed to enroll in 171 or 181A without instructor override. Pre: 161 (or concurrent).
Continuation of 161. Liquids and solids. Solutions and colligative properties. Continuation of thermodynamics, including entropy and free energy. Principles and applications of chemical equilibrium, including acidbase chemistry (titrations, buffers). Kinetics. Redox reactions and electrochemistry. Pre: C (not C-) or better in 161.
(1 3-hr Lab) Laboratory experiments introducing techniques and fundamental principles of chemistry. Pre: C (not C-) or better in 161L and 162 (or concurrent).
Principles, theories, elementary analytical methods of chemistry. Intended for physical science majors and engineers. Pre: Satisfactory Placement Exam score, and MATH 241 or MATH 242 or MATH 243 or MATH 251A or MATH 252A or MATH 253A. Co-requisite: 171L. Students who successfully completed 161 or 181A with a grade of C or better will not be allowed to enroll in 171 without instructor override. Students who successfully complete 171 with a grade of C or better will not be allowed to enroll in 161 or 181A without instructor override. (Fall only)
(1 3.5- hr Lab) Laboratory experiments illustrating fundamental principles of chemistry. Students who successfully completed 161L or 181A with a grade of C or better will not be allowed to enroll in 171 without instructor override. Students who successfully complete 171L with a grade of C or better will not be allowed to enroll in 161L or 181A without instructor override. Co-requisite: 171. (Fall only)
Rigorous, in-depth introduction to chemical principles with emphasis on experimental and applied aspects of modern chemistry. Students who successfully completed 161 or 171 with a grade of C or better will not be allowed to enroll in 181A without instructor override. Students who successfully complete 181A with a grade of C or better will not be allowed to enroll in 161 or 171 without instructor override. Pre: satisfactory placement exam score and MATH 215 (or concurrent) or MATH 241 (or concurrent) or MATH 251A (or concurrent) with a minimum grade of C. (Fall only)
(1 3-hr Lab) Laboratory experiments illustrating chemical principles involving advanced techniques and modern instrumentation. A-F only. Students who successfully completed 161L or 171L with a grade of C or better will not be allowed to enroll in 181L without instructor override. Students who successfully complete 181L with a grade of C or better will not be allowed to enroll in 161L or 171L without instructor override. Corequisite: 181A.
Molecular structure, stereochemistry, spectroscopy, mechanisms, reactions, and synthesis of organic compounds. Pre: C (not C-) or better in 162 or 171 or 181A.
(1 4-hr Lab) Techniques, synthesis and qualitative analysis, applications of spectroscopy. Pre: C (not C-) or better in 162L, 171L, or 181L; and C (not C-) or better in 272 (or concurrent).
Continuation of 272. Molecular structure, stereochemistry, spectroscopy, mechanisms, reactions, and synthesis of organic compounds. Pre: C (not C-) or better in 272.
(1 4-hr Lab) Techniques, synthesis and qualitative analysis, applications of spectroscopy. Pre: C (not C-) or better in 272L and 273 (or concurrent).
Selected methods and principles, e.g., phase equilibria, ionic equilibria, electrode equilibria, separations, spectroscopy, automation, and process control. Pre: C (not C-) or better in 162 or 171 or 181A, MATH 215 or MATH 241 or MATH 251A.
(2 3-hr Lab) Phase separations, chromatography, titrimetry, spectrophotometry, etc. Pre: C (not C-) or better in 162L or 171L or 181L; and 274 (or concurrent).
Principles and theories; physico-chemical procedures. Pre: 274, 274L, PHYS 272, PHYS 272L, and MATH 243 or MATH 253A.
Continuation of 351. Pre: 351.
(2 3-hr Lab) Laboratory on instrumentation, measurements, and data analysis in thermodynamics, spectroscopy, and other areas of physical chemistry. Emphasis on instruction in scientific reporting writing. Pre: 274L, 351, and 352 (or concurrent).
Mechanism of biochemical reactions, biophysical structure, techniques for studying biochemical reactions. Pre: 273 (with a grade of C or better) or graduate standing with consent, or departmental approval. (Fall only)
Student team-led discussions of contemporary ethical issues and ethical decision making in chemistry using case studies and additional examples from the media. CHEM or BIOC majors only. CR/NC only. Pre: 274 (or concurrent). (Spring only)
Directed reading and discussion of scientific journal articles culminating in a written literature review. Repeatable unlimited times. CHEM or BIOC majors only.Pre: minimum cumulative GPA of 2.7 or minimum in-major GPA of 3.0.
Directed laboratory research culminating in a written research report. Repeatable unlimited times. CHEM or BIOC majors only. A-F only. Pre: minimum cumulative GPA of 2.7 or minimum in-major GPA of 3.0.
Lecture on advanced methods of preparation and characterization of inorganic compounds and materials. A-F only. Pre: 351 (or concurrent) or 461 (or concurrent). (Fall only)
Laboratory on preparative methods and analytical techniques and instruments in inorganic chemistry. A-F only. Pre: 425 (or concurrent). (Fall only)
Classification, description, fundamental theory. Pre: 425.
(1 Lec, 2 2-hr Lab) Common experimental techniques in materials testing and research: x-ray diffraction, optical and electron microscopy, thermal and mechanical properties,
electrochemical methods—theory and hands-on experience. Pre: 351 (or concurrent) or ME 341. (Crosslisted as ME 435)
Introduction to multi-step synthesis and instruments/analytical techniques used to characterize organic compounds. Retrosynthesis and diastereoselective reactions; spectroscopy (optical methods, NMR), mass spectrometry. Chromatography (GC, HPLC) and coupled techniques (GCMS, LCMS). CHEM or BIOC majors only. A-F only. Pre: 273 with a grade of C (not C-) or better, or departmental approval. (Spring only)
Laboratory on the preparation of organic compounds and physical methods for their characterization. Includes optical methods (UV-vis, IR), chromatography (HPLC, GC), mass spectrometry (GCMS and LCMS) and NMR. A-F only. Pre: 273L with a grade of C (not C-) or better, or departmental approval. Co-requisite: 445. (Spring only)
Biochemical thermodynamics, chemical and enzyme kinetics, biomolecular structure, and biomolecular spectroscopy. A-F only. Pre: 162, PHYS 272, and MATH 242 or 252A with a grade of C or better for prerequisites.
Advanced topics in biochemistry including nucleic acid replication, transcription, and translation; genetic and epigenetic regulation; bioenergetics and control of metabolism; alternative metabolic strategies; and enzyme structure and mechanism. A-F only. Pre: 372 and BIOL 402. (Spring only)
Advanced biochemistry lab techniques: protein purification and characterization, identification of unknown proteins, enzyme kinetics, ligand binding, enzyme kinetics, protein structure, and spectroscopy, with instruction in writing scientific reports. A-F only. Pre: 274L, 372, 462 (or concurrent), and BIOL 275L.
Introduction to field-specific methods and skills needed for success in graduate research. Includes training modules for safety, ethics, and library resources. Short faculty research overviews may also be given.CHEM majors only. Graduate students only. CR/NC only. (Fall only)
Application of quantum mechanics and symmetry principles to descriptions of chemical bonding. Pre: graduate standing in CHEM.
Introduction to magnetic resonance, infrared, UV, and visible spectroscopy, emphasizing applications to organic and inorganic chemistry. Three topics each semester–1 credit hour per topic. Repeatable unlimited times in different topics. Pre: graduate standing in CHEM.
Reactivity and reaction mechanisms of compounds containing metalcarbon bonds. Pre: 352 and 427.
Survey of Lewis acids and bases, coordination numbers, geometries, stereochemistry, ligand field theory, formation constants, and bioinorganic chemistry. Pre: 601 and 602 (or concurrent).
Introduction to the principles of catalysis and the classes of catalytic reactions effected by organometallic compounds. A-F only. Pre: 622 and a minimum required grade for prerequisites of B.
Theory, instrumentation, applications. Three areas each semester-one credit hour per area. Repeatable unlimited times in different areas. Pre: 333 and graduate standing in CHEM or consent.
Interpretation of chemical and physical (primarily spectral) data in the identification of organic compounds. Pre: graduate standing or consent.
Modern synthetic methods with emphasis on the design and execution of multi-step sequences. Pre: graduate standing or consent
Theory of molecular structure, stereochemistry, and reaction mechanisms. Pre: 601 or consent.
Continuation of 642, and is the second half of a two-semester course in Modern Organic Synthesis. Pre: 642 and a minimum required grade for prerequisites of B. (Spring only)
Includes statistical thermodynamics, with application to chemical systems. Pre: graduate standing in CHEM.
Kinetics and chemical reaction dynamics of elementary reactions relevant to combustion processes, astrochemistry, chemical vapor deposition and planetary sciences. Pre: graduate standing in CHEM. (Spring only)
Rigorous introduction to quantum mechanics, including operator formalism, matrix formation, group theory, and perturbation theory; introduction to the electronic structure of atoms and molecules. Pre: graduate standing in CHEM.
Formation of astrobiologically important molecules and their precursors in the interstellar medium and in our solar system: first principles and latest trends. Pre: consent. (Fall only) (Cross-listed as ASTR 657 and ERTH 657)
Crystal symmetry. Elementary x-ray physics. Diffraction theory and its application to crystal and molecular structure determination. Pre: 352 and MATH 244 or MATH 253A.
The chemical mechanisms of reactions catalyzed by enzymes in biochemical pathways, with an emphasis on the major types of cofactor and metal catalyzed reactions. Pre: graduate standing or consent.
Theory and application of computational modeling in chemistry. Statistical theory behind molecular dynamics simulations, application to modeling chemical systems, computer programming, and analysis of results. Graduate students only.
Current topics in (D) physical; (E) organic; (Q) biochemistry; (Z) inorganic chemistry. Repeatable unlimited times. Pre: graduate standing.
Continuation of 691. Current topics in: (D) physical; (E) organic; (Q) biochemistry; (Z) inorganic chemistry. Repeatable unlimited times. Pre: graduate standing.
Repeatable unlimited times. Pre: consent.
Repeatable unlimited times. Pre: candidacy for MS degree and consent of thesis chair.
Theory and applications. Repeatable unlimited times in different topics. Pre: consent.
Theory and applications. Repeatable unlimited times in different topics. Pre: consent.
Theory and applications. Repeatable unlimited times in different topics. Pre: consent.
Theory and applications. A-F only. Repeatable unlimited times in different topics.
Repeatable unlimited times. Pre: candidacy for PhD degree and consent of dissertation chair.