UNCA Catalog: Courses of Instruction
UNCA Catalog: Table of Contents

Chemistry (CHEM)

Professor Holmes (Chair); Professors Bares, Stevens; Associate Professors C. James, Van Engelen; Assistant Professor Krumpe

Degrees offered by the Department of Chemistry prepare students for advanced studies in chemistry and related disciplines such as medicine, pharmacy or veterinary science, and careers as chemists in government, industry and teaching. The curricula developed by the Department of Chemistry reflect the standards set by the American Chemical Society (ACS), which are accepted by virtually all chemistry departments at competitive colleges and universities across the country.

Because the department is small, Chemistry majors receive a good deal of individual attention from faculty and have laboratory experiences not usually available in undergraduate courses. In addition, majors perform research, an experience which develops independent and creative thinking as part of their studies.

The student may pursue either a Bachelor of Science or a Bachelor of Arts degree. The Bachelor of Science degree is accredited by the American Chemical Society and fully prepares students for graduate studies in chemistry or professional careers in the chemical industry. ACS-certified degrees are often highly valued by employers of chemists and by graduate schools. The Bachelor of Arts degree allows the student more flexibility in course selections and is therefore advantageous for some pre-professional programs. Students seeking teacher licensure must complete, at a minimum, the B.A. requirements listed under Chemistry with Teacher Licensure. They may elect to complete the required courses listed under the Bachelor of Science degree. The department also offers a joint program with North Carolina State University in Chemistry and Textile Chemistry. See the section on Joint Programs.

Major in Chemistry for the Bachelor of Science Degree

1. Required courses in major--45-49 hours, including: CHEM 111, 144, 222, 223, 231, 232, 233, 312, 314, 315, 332, 333, 334, 335, 412, 413, 414, 415, 416, 417; and six hours from CHEM 430, 436, 438.
2. Required courses outside the major--20 hours, including: MATH 191, 192, 291 (MATH 394 is also highly recommended for those planning to go to graduate school in chemistry); PHYS 221, 222.
3. Foreign language requirement--GERM 115 and 125 are recommended to meet the foreign language requirement. (GERM 210 and 220 are highly recommended for those planning to go to graduate school in chemistry.)
4. Other departmental requirements--Chemistry Department Comprehensive Examination; a grade of C or better in CHEM 415, Chemistry Seminar, to demonstrate oral competency; and a grade of C or better in CHEM 416 and 417, Chemical Research I, II, to demonstrate both a practical and a written competency in chemistry.

Major in Chemistry for the Bachelor of Arts Degree

1. Required courses in the major--36-38 hours, including: CHEM 111, 144, 222, 223, 231, 232, 233, 312, 314, 332, 333, 334, 412, 413, 415, 416; and three hours from CHEM 430, 436, 438.
2. Required courses outside the major--16 hours including: MATH 191, 192; PHYS 221, 231 (or 222).
3. Other departmental requirements--Chemistry Department Comprehensive Examination; a grade of C or better in CHEM 415, Chemistry Seminar, to demonstrate oral competency; and a grade of C or better in CHEM 416, Chemical Research I, to demonstrate a practical and a written competency in chemistry.

Chemistry with Teacher Licensure

1. Required courses in the major--38 hours, including: CHEM 111, 144, 222, 223, 231, 232, 233, 312, 314, 332, 333, 334, 412, 413, 415, 416; and three hours from CHEM 430, 436, 438.
2. Required courses outside the major--34 hours, including: ASTR 105; BIOL 105; ENVR 105; MATH 191, 192; PHYS 221, 231 (or 222); SOC 240; and those requirements indicated under the Education section of the catalog.
3. Other departmental requirements--Chemistry Department Comprehensive Examination; a grade of C or better in CHEM 415, Chemistry Seminar, to demonstrate oral competency; and a grade of C or better in CHEM 416, Chemical Research I, to demonstrate both a practical and a written competency in chemistry.

Students seeking licensure in Secondary Comprehensive Science (as distinct from Chemistry) must complete the requirements listed above, as well as ATMS 103 and ENVR 241. Students pursuing middle school licensure must complete the above requirements and ATMS 103. It is also required that those desiring to teach at the middle school level have a second area of concentration, preferably Mathematics. Further, in some cases it may be advantageous that some or all of the requirements of the B.S. degree be pursued, rather than the B.A. degree. More information and specific requirements for teacher licensure must be obtained from the Department of Education.

Declaration of Major in Chemistry

Declaring a major in Chemistry requires the student to complete a Declaration of Major form that must be signed by the department chair. Before declaring a major, students must satisfy the LANG 102 and Library Research requirements.

Minor in Chemistry

Students minoring in Chemistry must complete the following requirements: 24 hours including CHEM 111, 144, 222, 223, 231, 233; and nine additional hours in chemistry (six of which must be at the 300- or 400-level).

103 Chemistry for Changing Times (3)
A chemistry course for the general student specifically designed to satisfy the three-hour interdisciplinary course of the natural science General Education requirement. The goal of the course is to create the ability in the student to critically evaluate scientific information based on available data, to develop analytical and/or quantitative ability, and to demonstrate and investigate scientific paradigms. The course utilizes current concerns in chemistry including, but not limited to, pollution, energy and toxicity. Prerequisite: MATH 155 or higher. On demand.

105 Chemistry in Social Context (5)
An introductory lecture and laboratory course designed specifically for the non-science major with no prior knowledge of chemistry. The course develops scientific thinking and helps students understand how chemistry is relevant to a variety of societal and technological issues. Topics may include global warming, pollution of the environment, legal and illegal drugs, and facets of industrial chemistry and waste. Fall and Spring.

111 General Chemistry Laboratory (1)
Introduction to general chemistry laboratory. Experiments include proper and safe laboratory techniques, chemical and physical properties of matter, synthesis of compounds, chemical kinetics and chemical reactions. Prerequisites: CHEM 132 or 144. Fall and Spring.

132 General Chemistry (3)
Introduction to basic chemical concepts such as atomic theory, periodic properties of elements, stoichiometry, gas behavior, electronic structure of atoms and molecules, molecular structure and bonding, solution theory including acid-base chemistry and aspects of oxidation-reduction, and introduction to chemical equilibrium concepts. Designed as a first course in college chemistry. Corequisite: MATH 163 or higher. Does not count for the major or the minor in Chemistry. Fall and Spring.

143 Elements of Chemistry (4)
Introduction to organic and biological chemistry. Emphasis on the relation of these areas to nursing, nutrition and para-medical professions. Acceptable for credit in the WCU nursing program but only for elective credit in other programs. Pre- or corequisite: CHEM 111. Spring.

144 Structure and Reactivity (4)
A general chemistry course with topical coverage including, but not necessarily restricted to, stoichiometry, atomic structure, periodic properties of elements, covalency and molecular structure concepts, acid-base theory, oxidation-reduction concepts, chemical kinetics and reaction mechanisms, and aspects of chemical thermodynamics. Emphasis on quantitative problem solving. Prerequisites: Completion of a high school chemistry course and a satisfactory score on the Chemistry Placement Examination; or CHEM 132; MATH 163 or higher. Fall and Spring.

190 Introduction to Research I (1-2)
Directed laboratory research and independent study designed to introduce specialized research techniques and methodology that are necessary in the early stages of professional development and appropriate in the first year of study. Prerequisite: permission of instructor. (An IP grade may be awarded although all work must be completed by the end of the academic year.) Fall and Spring.

222 Organic Chemistry Laboratory (2)
Introduction to modern organic chemistry laboratory techniques including contemporary synthesis, isolation, purification and characterization methods. Prerequisites: CHEM 111, 231. Fall and Spring.

223 Quantitative Chemistry (2)
A laboratory-based course with emphases on classical methods of quantitative analysis including gravimetric, volumetric, simple electrochemical and introductory spectrometric analyses. Laboratory experiments are evaluated upon technique, accuracy and precision. Topics covered also include sampling and sample preparation, acid-base and redox equilibria, thermodynamic properties of ionic solutions and experimental statistics. Prerequisites: CHEM 111, 144. CHEM 233 is highly recommended. Fall.

231, 232 Organic Chemistry I and II (3, 3)
Introduction to modern organic chemistry which includes contemporary discussions of structure, properties, synthesis and mechanisms. CHEM 231 prerequisite: CHEM 144. CHEM 232 prerequisite: CHEM 231. Fall and Spring.

233 Descriptive Inorganic Chemistry (3)
A course designed as an introduction to such topics as coordination chemistry, solid state chemistry and descriptive main group chemistry with emphasis on systematic coverage of the preparations and reactions of selected compounds of the representative elements. Also includes discussion of ionic and redox equilibria and aspects of electrochemistry. Prerequisite: CHEM 144. Pre- or corequisite: CHEM 111. Spring.

290 Introduction to Research II (1-2)
Directed laboratory research and independent study designed to introduce specialized research techniques and methodology that are necessary in the early stages of professional development and appropriate in the second year of study. Prerequisite: permission of instructor. (An IP grade may be awarded although all work must be completed by the end of the academic year.) Fall and Spring.

312 Instrumental Analysis Laboratory (1)
Laboratory experiments in electrochemistry, spectrometry and chromatography with related sample preparation, error reduction and data analysis methods. Discussion of contemporary applications in industrial, clinical and environmental analyses. Corequisite: CHEM 332. Spring.

314 Physical Chemistry I Lab (1)
A series of experiments involving physical measurements, which provide an examination of various statistical procedures used in the reporting of data. Also includes a series of experiments which demonstrate fundamental principles of physical chemistry and involve modern instrumentation. Corequisite: CHEM 334. Fall.

315 Physical Chemistry II Lab (1)
An introduction to the use of modern nuclear instrumentation and experimentation. This includes using cryogenic fluids, handling of radioactive materials, interfacing instrumentation with computers, designing an experiment and computing analysis. Corequisite: CHEM 335. Spring.

332 Instrumental Analysis (3)
Principles of analytical chemistry with emphases on instrumental methods, including potentiometry and electrolytic methods, molecular and atomic absorption spectrometry, fluorescence spectrometry, separation techniques, chromatographic methods and mass spectrometry. Experimental errors and methods of error reduction are studied along with statistical methods of evaluating uncertainty. Prerequisite: CHEM 223. Corequisite: CHEM 312. Spring.

333 Inorganic Chemistry (3)
Intermediate level inorganic chemical concepts with an emphasis on the study of descriptive chemistry of the main group elements, transition elements and organometallic compounds within a modern framework of bonding and structure, stereochemistry, periodicity, mechanistic concepts, acid-base theories and redox phenomena. Prerequisites: CHEM 232, 233. Pre- or corequisite: CHEM 334. Fall.

334 Physical Chemistry I (3)
Topics to be studied include the study of gases using kinetic theory of gases; an introduction to quantum theory including the models of the rigid rotator, harmonic oscillator and the hydrogen atom; the three Laws of Thermodynamics and the examination of molecular energies. Prerequisites: CHEM 223, 232, 233; MATH 192; PHYS 221. Fall.

335 Physical Chemistry II (3)
Topics to be studied include the study of liquids and solids with special emphasis on structures; empirical and theoretical approaches to chemical kinetics; and free energies and phase equilibrium. Prerequisite: CHEM 334. Spring.

390 Introduction to Research III (1-6)
Directed laboratory research and independent study designed to introduce specialized research techniques and methodology that are necessary in the early stages of professional development and appropriate in the third year of study. Prerequisite: permission of instructor. (An IP grade may be awarded although all work must be completed by the end of the academic year.) Fall and Spring.

411 Laboratory Assistantship in Chemistry (1)
Guided teaching experience in a laboratory setting. Under the direct supervision of a faculty member, the student will assist students in a chemistry laboratory that is appropriate to the student's experience. Students will present explanatory material to the class and will assist in the preparation of laboratory material and in the daily operation of the laboratory. Departmental approval is required. May be repeated for up to four credits. Fall and Spring.

412 Chemical Information Systems (1)
A laboratory introduction to systematic searching of chemical information sources utilizing both classical library methods and computerized information sources. Includes introduction to other computer methods for the development and use of information systems and current awareness. Enhancement of oral and written communication skills is emphasized. Prerequisites: CHEM 223, 232, 233. Fall.

413 Inorganic Chemistry Laboratory (1)
Syntheses, characterizations and structural investigations of representative main group, organometallic and coordination compounds utilizing methods such as high temperature reactions, inert-atmosphere and vacuum line manipulations, non-aqueous solvent systems, electrochemistry, spectroscopic and magnetic susceptibility measurements. Prerequisite: CHEM 333. Spring.

414 Advanced Laboratory in Chemistry (1)
The course is designed to expand the laboratory skills of students in specific areas of advanced chemistry within an integrated framework. Special emphasis will be placed upon experiment design. Areas of focus will include, but are not limited to, contemporary organic, organometallic and inorganic synthesis; compound isolation and purification; structure elucidation using modern spectroscopic techniques; molecular modeling; reaction mechanism studies; and advanced instrumental analysis techniques. Prerequisite: CHEM 334. Fall.

415 Chemistry Seminar (1)
The student will attend a series of scheduled seminars to introduce oral presentation of chemical information. These seminars will be analyzed for technique and performance. The student will give one seminar as a demonstration of oral competency. Prerequisites: CHEM 412, 60 hours; or permission of the instructor. Spring.

416, 417 Chemical Research I, II (1-3, 1-3)
Directed laboratory research and independent study in a specialized area of chemistry which results in a comprehensive, written research report. CHEM 416 prerequisite: permission of instructor. CHEM 417 prerequisites: 416 and permission of instructor. (An IP grade may be awarded.) CHEM 416, Fall; CHEM 417, Spring.

430 Advanced Topics in Chemistry (3)
Course designed to present current developments in a specific area of advanced chemistry. Topic areas will include analytical chemistry, inorganic chemistry, organic chemistry, physical chemistry or polymer chemistry. May be repeated as content varies. Prerequisite: CHEM 334. Fall and Spring.

436 Biochemistry (3)
Modern biochemical concepts, including carbohydrates, amino acids, nucleic acids, proteins, metabolism, the chemistry of drugs, etc. Prerequisite: CHEM 334. On demand.

438 Spectroscopy (3)
A study of instrumental techniques for the identification, characterization and structural analysis of compounds. Methods covered include mass and nuclear resonance spectroscopy, electronic absorption and infrared spectrophotometry. Prerequisite: CHEM 334. On demand.

171-4, 271-4, 371-4, 471-4 Special Topics in Chemistry (1-4)
Courses not otherwise included in the catalog listing but for which there may be special needs. May be repeated for credit as often as permitted and as subject matter changes. On demand.

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