Plan of Study – Chemistry

Principles of chemistry, including atomic structure and periodicity, chemical bonding, stoichiometry, gas laws, solution concepts, acid-base theory, redox processes, and equilibrium. Lecture meets 3 hours per week. Prerequisites: one year of high school chemistry or CHM 1010 with grade of C (2.0) or better; one year of high school algebra or MTH 1040 with grade of C (2.0) or better. Two years of high school algebra highly recommended, or MTH 1040 and 1050 with grades of C (2.0) or better. Corequisite: CHM 1110.LB.

Principles of chemistry, including atomic structure and periodicity, chemical bonding, stoichiometry, gas laws, solution concepts, acid- base theory, redox processes, and equilibrium. Lab will meet 3 hours per week. Prerequisites: one year of high school chemistry or CHM 1010 with grade of C (2.0) or better; one year of high school algebra or MTH 1040 with grade of C (2.0) or better. Two years of high school algebra highly recommended, or MTH 1040 and 1050 with grades of C (2.0) or better. Corequisite: CHM 1110.

Principles of thermodynamics/Thermochemistry, kinetics, equilibrium systems, Acid-Base Chemistry, Buffers, Solutions, electrochemistry, and nuclear chemistry. Lecture will meet 3 hours per week. Prerequisite: minimum grade of C in CHM 1110 or equivalent; prerequisite or corequisite minimum grade of C in MTH 1060 or 1210 or equivalent. Corequisite: CHM 1120.LB.

Principles of thermodynamics, kinetics, equilibrium systems, proton transfer, electrochemistry, and nuclear chemistry. Laboratory projects related to each major subject area. Lab will meet 3 hours per week. Prerequisite: minimum grade of C in CHM 1110 or equivalent; prerequisite or corequisite minimum grade of C in MTH 1060 or 1210 or equivalent. Corequisite: CHM 1120.

Structure and classification of compounds of carbon, with stress on the aliphatics; IUPAC nomenclature; properties, characteristic reactions of the common functional groups, especially of the oxygen functions; concepts of stereochemistry; introduction to mechanisms; stress on Bronsted and Lewis acid/base processes. Lecture will meet 3 hours per week. Prerequisite: CHM 1110 or equivalent. CHM 1120 highly recommended. Corequisite CHM 2210.LB.

Structure and classification of compounds of carbon with stress on the aliphatics; IUPAC nomenclature; properties, characteristic reactions of the common functional groups, especially of the oxygen functions; concepts of stereochemistry; introduction to mechanisms; stress on Bronsted and Lewis acid/base processes. Laboratory exercises directed to demonstration of mechanistic processes. Lab will meet 3 hours per week. Prerequisite: CHM 1110 or equivalent. Corequisite: CHM 2210.

More extensive study of reaction mechanisms; aromatics; spectroscopy; organometallics. Laboratory exercises directed to the systematic identification of organic functional groups, spectroscopy and chromatography. Lecture will meet 3 hours per week. Prerequisites: CHM 1110 and 2210; CHM 1120 highly recommended. Corequisite: CHM 2220.LB.

More extensive study of reaction mechanism, aromatics, spectroscopy, and polymerization. Laboratory exercises directed to aromatic substitution reactions, chromatography, and systematic identification of organic functional groups. Lab will meet 3 hours per week. Prerequisites: CHM 1110 and CHM 2210; CHM 1120 highly recommended. Corequisite: CHM 2220.

Theory and techniques of classical quantitative analysis, including acquisition and evaluation of analytical data from gravimetry, titrimetry, potentiometry, and spectrophotometry techniques. Lecture will meet 3 hours per week. Prerequisites: CHM 1110, 1120, 2210, MTH 1210 or equivalent. Corequisite: CHM 3310.LB.

Theory and techniques of classical quantitative analysis, including acquisition and evaluation of analytical data from gravimetry, titrimetry, potentiometry, and spectrophotometry techniques. Lab will meet 3 hours per week. Prerequisites: CHM 1110, 1120, 2210, MTH 1210 or equivalent. Corequisite: CHM 3310.

Descriptive chemistry of the representative elements, transition metal complexes and organometallic compounds; ligand field theory, molecular orbital and valence bond theories, symmetry and group theory, nuclear chemistry. Prerequisites: CHM 1110, CHM 1120, MTH 1210 or equivalent.

Chemical thermodynamics and phase equilibria; thermodynamics and kinetic theory. Three hours of lecture and three hours of laboratory. Prerequisite: CHM 312, PHY 271

Carry out experiments in calorimetry to determine the heats of reactions. Determine heat capacity ratio. Carry out experiments in Kinetics. Lab will meet 3 hours per week. Prerequisites: CHM 1110, 1120, 2210; MTH 2510, 2520; PHY 2530, 2540. Corequisite: CHM 4410.

Atomic and molecular structure, quantum theory and mechanics, analytical spectroscopy, selection rules, photochemistry. Lecture will meet 3 hours per week. Prerequisites: CHM 4410 and CHM 4410.LB; MTH 2510, MTH 2520; PHY 2530 and PHY 2530.LB, or PHY 2630 and PHY 2630.LB; PHY 2540 and PHY 2540.LB, or PHY 2640 and PHY 2640.LB. Corequisite: CHM 4420.LB.

Experiments in Physical Chemistry. Application of the theory of Quantum Mechanics, Kinetics and Electrochemistry. Lab will meet 3 hours per week. Prerequisites: CHM 4410 and CHM 4410.LB; MTH 2510, MTH 2520; PHY 2530 and PHY 2530.LB, or PHY 2630 and PHY 2630.LB; PHY 2540 and PHY 2540.LB, or PHY 2640 and PHY 2640.LB. Corequisite: CHM 4420.

Theory and techniques of modern instrumental analysis including UV, visible, and IR spectrophotometry; NMR, EPR, and mass spectroscopies; electrochemistry; chromatography including HPLC; and emerging technologies. Prerequisites: CHM 1110, CHM 1110.LB, CHM 1120, CHM 1120.LB, CHM 2210, CHM 2210.LB; MTH 1210 or MTH 2510. Corequisite: CHM 4510.LB.

Theory and techniques of modern instrumental analysis including UV, visible, and IR spectrophotometry; NMR, chromatography including HPLC; and emerging technologies. Prerequisites: CHM 1110, CHM 1110.LB, CHM 1120, CHM 1120.LB, CHM 2210 and CHM 2210.LB; MTH 1210 or MTH 2510. Corequisite: CHM 4510.

Prerequisites: Permission of Instructor and Departmental Chair

Topics include a study of limits, continuity, derivatives of algebraic and transcendental functions, applications of derivatives, integrals, and the Fundamental Theorem of Calculus. Prerequisite: MTH 1210 or departmental approval. Computer Science majors must complete this course with a grade of C (2.0) or better within the first 20 semester hours of their major.

Derivatives and integrals of transcendental functions, techniques of integration, improper integrals, L'Hopital's Rule, sequences, series, convergence, divergence, power series, Taylor and Maclaurin Series, differentiation and integration of power series. Prerequisite: C or better in MTH 201

Fundamental methods of mechanics, molecular physics, heat, and sound. Lecture will meet 3 hours per week. Prerequisites: MTH 1050 and 1060, or 1210, or the equivalent; or departmental approval. Corequisite: PHY 2530.LB.

Experiments in the fundamental methods of mechanics, molecular physics, heat, and sound. Lab will meet for 3 hours per week. Prerequisites: MTH 1050 and 1060, or 1210, or the equivalent; or departmental approval. Corequisite: PHY 2530.

This is the first of two calculus-based physics sequence for students planning to major in engineering, pre-med, chemistry, Mathematics and computer science. This course covers motion and Newton’s laws, energy, momentum, rigid body mechanics, gravitation, simple harmonic motion, waves and sound and thermal physics. Lecture will meet 3 hours per week. Corequisites: MTH 2510, PHY 2630.LB.

This is the first of two calculus-based physics sequence for students planning to major in engineering, pre-med, chemistry, Mathematics and computer science. This course covers motion and Newton’s laws, energy, momentum, rigid body mechanics, gravitation, simple harmonic motion, waves and sound and thermal physics. Lab will meet for 3 hours per week. Corequisite: MTH 2510; PHY 2630.

Fundamental methods and principles of magnetism, electricity, optics, light, and atomic physics. Lecture will meet 3 hours per week. Prerequisites: MTH 1050 and MTH 1060, or MTH 1210, or the equivalent; or departmental approval. Co-requisite: PHY 2540.LB.

Carry out experiments that would strengthen the fundamental methods and principles of magnetism, electricity, optics, light, and atomic physics. Lab will meet 3 hours per wek. Prerequisites: MTH 1050 and MTH 1060, or MTH 1210, or the equivalent; or departmental approval. Corequisite: PHY 2540.

Fundamentals of electricity, magnetism and Nature of electric charges, electric field, magnetic field and concept of electromagnetic waves. Understanding wave interference, reflection and refraction of light waves. Fundamentals of mirrors and lenses and optical instruments. Lecture will meet for 3 hours per week. Prerequisites: MTH 2510 and PHY 2630. Corequisite: PHY 2640.LB.

Experiments in electricity, magnetism, and optics. Nature of electric charges, electric field, magnetic field and concept of electromagnetic waves. Understanding wave interference, reflection and refraction of light waves. Fundamentals of mirrors and lenses and optical instruments. These would all be explored through experiments. Lab will meet 3 hours per week. Prerequisites: MTH 2510 and PHY 2630. Corequisite: PHY 2640.

Principles of biochemistry; major metabolic and biosynthetic pathways; structure and conformation of biological molecules and their molecular biology. Laboratory exercises in enzyme kinetics, electrophoresis, chromatography, and DNA isolation and manipulation. Lecture will meet 3 hours, laboratory 3 hours. Prerequisites: CHM 1110, CHM 1110.LB; and CHM 2210, CHM 2210.LB or CHM 1610 and CHM 1610.LB. Corequisite CHM 3610.LB.

Laboratory exercises in enzyme kinetics, electrophoresis, chromatography, and DNA isolation and manipulation. Lab will meet 3 hours per week. Corequisite: CHM 3610.

Advanced treatment of modern topics, including DNA structure and function; gene control; recombinant techniques; and newer techniques of protein design and engineering. Lecture will meet 3 hours per week. Prerequisites: CHM 1110, CHM 2210, CHM 3610. Corequisite: CHM 3620.LB.

Laboratory exercises in molecular cloning, transformation, DNA transfer techniques, PCR and bioinformatics. Lab will meet 3 hours per week. Prerequisites: CHM 1110, CHM 2210, CHM 3610. Prerequisites: CHM 1110, CHM 2210, CHM 3610. Corequisite: CHM 3620.