Chemistry
111 .
Elements of General Chemistry.
(4)
One-semester course in general chemistry, especially for non-science majors in the health sciences except premedicine and medical technology. (Credit not allowed for both 111 and 121 and 123L.) Three lectures, 3 hours demo lab/recitation. Meets New Mexico Lower Division General Education Common Core Curriculum Area III: Science (NMCCN 1114).
Prerequisite: ACT=>22 or SAT=>510 or MATH 120 or 121 or MATH 150 or MATH 162 or MATH 163 or MATH 180 or MATH 181 or MATH 264.
{Summer, Fall, Spring}
120.
Foundations of Chemistry.
(3)
A course designed for science and engineering majors as a preparatory course for entry into Chemistry 121; General chemistry in the following semester. The course is a 3 credit course, and will contain an online homework component.
121.
General Chemistry I.
(3)
Introduction to the chemical and physical behavior of matter. Meets New Mexico Lower Division General Education Common Core Curriculum Area III: Science (NMCCN 1214).
Prerequisite: ACT=>25 or SAT=>570 or MATH 121 or MATH 123 or MATH 150 or MATH 162 or MATH 163 or MATH 180 or MATH 181 or MATH 264.
Pre- or Corequisite: 123L.
{Summer, Fall, Spring}
122.
General Chemistry II.
(3)
Continuation of 121. Meets New Mexico Lower Division General Education Common Core Curriculum Area III: Science (NMCCN 1224).
Pre- or Co-requisite: 124L
Prerequisite: (ACT=>25 or SAT=>570 or MATH 121 or MATH 123 or MATH 150 or MATH 162 or MATH 163 or MATH 180 or MATH 181 or MATH 264) and (121 and 123L) or 131L
{Summer, Fall, Spring}
123L.
General Chemistry I Laboratory.
(1)
Introduction to basic chemical laboratory principles and techniques.
Pre- or Co-requisite: 121
Prerequisite: ACT=>25 or SAT=>570 or MATH 121 or MATH 123 or MATH 150 or MATH 162 or MATH 163 or MATH 180 or MATH 181 or MATH 264
{Summer, Fall, Spring}
124L.
General Chemistry II Laboratory.
(1)
Experiments illustrating the fundamental principles and techniques of chemistry. (3 hour lab)
Pre- or Co-requisite: 122
Prerequisite: (ACT=>25 or SAT=>570 or MATH 121 or MATH 123 or MATH 150 or MATH 162 or MATH 163 or MATH 180 or MATH 181 or MATH 264) and (121 and 123L) or 131L
{Summer, Fall, Spring}
131L.
Principles of Chemistry.
(4)
Chemical and physical behavior of matter, atomic and molecular structure and chemical periodicity. Introduction to quantitative laboratory techniques and chemical instrumentation. Strongly recommended for students intending to major in chemistry. Three lectures, 3 hours lab.
(Credit not allowed for both (121 and 123L) and 131L)
Prerequisite: ACT=>28 or SAT=>640 or Pre-or Corequisite: MATH 162 or MATH 180 or MATH 264.
{Fall}
132L.
Principles of Chemistry.
(4)
Thermodynamics, equilibria and kinetics in chemical terms. Continuation of General Chemistry I.
(Credit not allowed for both 122 and 124L) and 132L)
Pre- or corequisite: MATH 163 or MATH 181 or MATH 264
Prerequisite: (121 and 123L) or 131L
{Spring}
212.
Integrated Organic Chemistry and Biochemistry.
(4)
Survey interrelating the major principles of organic chemistry and biochemistry with special emphasis toward interests of students in the health sciences.
(Credit not allowed for both 212 and 301)
Prerequisite: 111L or 122.
{Fall, Spring}
253L.
Quantitative Analysis.
(4)
Theory and techniques of chemical analysis. Three lectures, 4 hours lab.
Prerequisite: 121 and 122 and 123L and 124L.
{Summer, Fall, Spring}
**301.
Organic Chemistry.
(3)
Chemistry of the compounds of carbon.
Prerequisite: (122 and 124L) or 132L
{Summer, Fall, Spring}
**302.
Organic Chemistry.
(3)
Continuation of 301.
Prerequisite: 301
{Summer, Fall, Spring}
303L.
Organic Chemistry Laboratory.
(1)
Teaches basic organic chemistry laboratory techniques, including separations, thin-layer chromatography, gas chromatography, and set up of apparatus for organic synthesis. Three hours lab.
Prerequisite: (122 and 124L) or 132L
Pre- or corequisite: 301
{Summer, Fall, Spring}
304L.
Organic Chemistry Laboratory.
(1)
Teaches synthesis of organic compounds using reactions learned in CHEM 302 and spectroscopic characterization of the products. Three hours lab.
Prerequisite: 303L
Pre- or corequisite: 302
{Summer, Fall, Spring}
**311.
Physical Chemistry.
(3)
An introduction to quantum chemistry that starts from the postulates of quantum mechanics and simple models and covers structure of polyatomic molecules.
Prerequisite: 132L or (122 and 124L) and MATH 163 and (PHYC 152 or PHYC 161)
Pre- or corequisite: MATH 264
**312.
Physical Chemistry.
(3)
An introduction to chemical thermodynamics. Topics will include basic thermodynamic principles, phase diagrams, and solution phase thermodynamics.
Prerequisite: 132L or (122 and 124L) and MATH 163 and (PHYC 152 or PHYC 161)
Pre- or corequisite: MATH 264.
**315.
Introductory Physical Chemistry.
(4)
Fundamentals of physical chemistry with primary emphasis upon biological and biochemical applications.
(Cannot be used for credit toward B.S.)
(Credit not allowed for both (CHEM 311 or 312) and 315)
Prerequisite: (122 and 124L) or 132L and (MATH 163 or MATH 181) and (PHYC 152 or PHYC 161)
**325.
Special Topics for Undergraduates.
(1-3, may be repeated once Δ)
Possible topics are: chemical literature, environmental chemistry, photochemistry, stereochemistry, macromolecules, C-13-NMR, natural products.
**326.
Special Topics for Undergraduates.
(1-3 to a maximum of 6 Δ)
Possible topics are: chemical literature, environmental chemistry, photochemistry, stereochemistry, macromolecules, C-13-NMR, natural products.
**391.
Readings in Selected Topics.
(1-3 to a maximum of 6 Δ)
Advanced topics not covered in general offerings.
**392.
Readings in Selected Topics.
(1-3, may be repeated once Δ)
Advanced topics not covered in general offerings.
411L.
Laboratory Methods In Physical Chemistry .
(3)
Introduction to modern physical chemistry laboratory techniques including computational chemistry, quantum mechanical description of molecular rotations, molecular vibrations and electronic absorption, and thermodynamics. One lecture, 6 hrs. lab.
Prerequisite: 311 and 312.
412.
Advanced Physical Chemistry.
(3)
Advanced topics in physical chemistry, including statistical mechanics, reaction kinetics, chemical dynamics and transition state theory will be discussed.
Prerequisite: 311 and 312
421.
Biological Chemistry.
(3)
Brings the fundamentals of general and organic chemistry to bear on the complex array of structures and chemical processes that occur in living organisms.
{Offered upon demand}
Prerequisite: 301 and 302.
*422.
Molecular Biology of the Gene.
(3)
Focuses on the biological chemistry of gene structure, expression and regulation and the structure and function of the cell nucleus.
Prerequisite: 301 and BIOL 202 and (MATH 180 or MATH 162).
424L / 524L.
Experimental Chemical Biology.
(4)
Introduction to experimental techniques for the study of protein and nucleic acid structure and function. Topics include protein isolation and purification, protein structure analysis, protein expression systems, enzyme kinetics, RNA purification and characterization.
Prerequisite: 421 and *422
425 / 525 [425].
Organic Chemistry of Biological Pathways.
(3)
Covers basic principles of mechanisms, acidity, stereochemistry; structures; properties of biomolecules; reactions in lipid, carbohydrate, amino acid, nucleotide metabolic pathways. (3 hrs lecture)
*431.
Advanced Inorganic Chemistry.
(3)
Atomic theory and molecular structure, the fundamentals of symmetry, point groups, bonding concepts, acid-base chemistry, periodic trends, and reaction chemistry of both transition metals and non-metals. .
Prerequisite: 311 or 315
432L.
Advanced Synthetic Chemistry Laboratory .
(3)
Provides students with basic laboratory techniques in synthetic, structural, mechanistic, spectroscopic, and computational chemistry. 1 hr lecture, 6 hrs lab.
Prerequisite: 431.
*433.
Group Theory.
(1)
Chemical group theory will provide basic concepts of molecular symmetry and the use of group theory in defining molecular orbitals and transition probabilities.
Prequisite: 311 or 315 Corequisite: 431
442 / 552.
Molecular Structure Analysis.
(3)
Introduction to using X-ray, Mass Spec, and NMR techniques to determine structure. Suggested for students planning to use X-ray/Mass Spec facilities, required for those requesting NMR training.
Prerequisite: 312
453L.
Analytical Instrumentation: Theory and Application.
(4)
This course introduces students to a variety of instrumentation used in chemical analysis. Content will include theory, design and application of primary instrumentation used in analytical labs. Labs and research project will be performed.
Prerequisite: 253L and (MATH 180 or 162).
457.
Environmental Chemistry.
(3)
Introduction to the chemistry of natural and polluted environments, including both atmospheric and aquatic systems.
Prerequisite: 253L and 302.
471.
Advanced Topics in Chemistry.
(2-3 to a maximum of 6 Δ)
Current topics requiring a background in physical chemistry such as spectroscopy, reaction mechanisms, advanced synthesis, polymer chemistry and materials chemistry.
495.
Undergraduate Problems.
(1-3)
496.
Undergraduate Problems.
(1-3 to a maximum of 4 Δ)
497.
Senior Honors Research.
(1-3 to a maximum of 4 Δ)
Senior paper based on independent research.
498.
Senior Honors Research.
(1-3 to a maximum of 4 Δ)
Senior paper based on independent research.
*499.
Chemistry Seminar–Research.
(1 to a maximum of 2 )
Offered on a CR/NC basis only.
500.
Scientific Teaching in Chemistry.
(1-3, no limit Δ)
A course which includes lecture, seminar, workshop and field experience to provide a scientific framework for teaching chemistry and practice in strategies of scientific teaching.
501.
Molecular Structure Theory.
(3)
General introduction to quantum mechanics with emphasis on chemical applications. Topics covered include basic postulates of quantum mechanics, standard analytically solvable quantum systems (free electrons, particle in a box, harmonic oscillator, rigid rotor, hydrogen atom), approximation methods (perturbation theory and the variational method). An introduction to molecular quantum mechanics, molecular spectroscopy and time-dependent perturbation theory.
504.
Chemical Dynamics.
(3)
A rapid review of chemical thermodynamics and kinetics. Usually for graduate students in areas outside of physical chemistry.
511.
Mechanisms in Organic Chemistry.
(3)
An introduction to the methods used for determining reaction mechanisms in organic chemistry and the application of those methods for determining the mechanisms of reactions based on ionic processes.
513.
Organic Molecular Structure Determination.
(3)
Determination of the structure of organic compounds using spectroscopic methods, especially hydrogen and carbon NMR, infrared and electronic spectroscopies and mass spectrometry.
514.
Synthesis in Organic Chemistry.
(3)
Development of strategies for synthesizing organic compounds including stereochemical control; introduction to advanced reactions for carbon-carbon bond formation and functional group manipulation.
515.
Topics in Organic Chemistry.
(1-3 to a maximum of 6 Δ)
516.
Topics in Organic Chemistry.
(1-3 to a maximum of 6 Δ)
521.
Biological Chemistry.
(3)
Brings the fundamentals of general and organic chemistry to bear on the complex array of structures and chemical processes that occur in living organisms.
Restriction: permission of instructor
524L / 424L.
Experimental Chemical Biology.
(4)
Introduction to experimental techniques for the study of protein and nucleic acid structure and function. Topics include protein isolation and purification, protein structure analysis, protein expression systems, enzyme kinetics, RNA purification and characterization.
525 / 425 .
Organic Chemistry of Biological Pathways.
(3)
Covers basic principles of mechanisms, acidity, stereochemistry; structures; properties of biomolecules; reactions in lipid, carbohydrate, amino acid, nucleotide metabolic pathways. (3 hrs lecture)
536.
Synthesis and Mechanism in Inorganic Chemistry.
(3)
A general outline of synthesis methodologies and approaches for main group element and transition metal compounds is provided. In addition, the reactivity of these compounds is explored with particular emphasis on systematics in reaction mechanisms.
537.
Topics in Inorganic Chemistry.
(1-3 to a maximum of 6 Δ)
538.
Topics in Inorganic Chemistry.
(1-3 to a maximum of 6 Δ)
541.
Separations.
(3)
Theory and practice of the chemical separation techniques used for chemical analysis including chromatography and electrophoresis.
552 / 442.
Molecular Structure Analysis.
(3)
Introduction to using X-ray, Mass Spec, and NMR techniques to determine structure. Suggested for students planning to use X-ray/Mass Spec facilities, required for those requesting NMR training.
545.
Topics in Analytical Chemistry.
(1-3 to a maximum of 6 Δ)
546.
Topics in Analytical Chemistry.
(1-3 to a maximum of 6 Δ)
560.
Biophysical Chemistry.
(3)
565.
Kinetics.
(3)
Molecular reaction dynamics and chemical reactivity, experiment and theory; phenomenology or rates of chemical reactions and the relationship to reaction mechanism; potential energy surfaces, transition state theory and other approaches.
566.
Spectroscopy.
(3)
A graduate physical chemistry course in spectroscopy. Covers theory of atomic and molecular absorption and emission as well as applications to Fluorescence and Raman.
567.
Topics in Physical Chemistry.
(1-3 to a maximum of 6 Δ)
587.
Advanced Topics in Biological Chemistry.
(1-3 to a maximum of 6 Δ)
599.
Master’s Thesis.
(1-6, no limit Δ)
Offered on a CR/NC basis only.
623.
Research Colloquium.
(1 to a maximum of 10 Δ)
Presentation and discussion of current research by faculty from other institutions.
Offered on a CR/NC basis only.
625.
Chemistry Divisional Seminar.
(1, no limit Δ)
Student presentations and discussion of current research by students and faculty in the same traditional division of chemistry.
Offered on a CR/NC basis only.
627.
Chemistry Instrumentation Seminar.
(1 to a maximum of 2 Δ)
Training and practice in use of research instrumentation required by a student’s graduate research.
Offered on a CR/NC basis only.
650.
Research/Readings.
(2-12, no limit Δ)
Offered on a CR/NC basis only.
699.
Dissertation.
(3-12, no limit Δ)
Offered on a CR/NC basis only.
512.
Characterization Methods for Nanostructures.
(3)
(Also offered as NSMS 512)
Nanostructure characterization methods. Examine principles underlying techniques and limitations, and how to interpret data from each method: electron beam, scanning probe, x-ray, neutron scattering, optical and near field optical. Lab demonstrations and projects provide experience.
{Fall}