Idaho State University Undergraduate 1999-2000
Department of ChemistryChair and Professor: Strommen
Professors: Kalivas, B. Ronald, Sutter, Wiegand
Associate Professors: Castle, De Jesus, Rodriguez, Rosentreter
Instructors: Braun, Mohseni, Omar, A. Ronald
Affiliate Faculty: Bartholomay, Gering, Pattie
Professors Emeriti: Arcand, Benson, Braun, Faler
Students who wish to major in chemistry may take courses which will prepare them for industrial or governmental laboratory work, for graduate study in chemistry, biochemistry, or allied fields, or lead toward professional training in medicine or dentistry.
The department offers three traditional degree programs and a combined BS/MS program which is designed for highly motivated students who wish to progress more rapidly. The Bachelor of Arts degree is designed for students who desire a flexible program so they can develop more interdisciplinary competence. The Bachelor of Science degree places greater emphasis on chemistry. It is designed to lead to American Chemical Society (ACS) certification upon graduation. The Bachelor of Science degree in Biochemistry is a joint program with the Department of Biological Sciences. It is directed toward future work in the field of molecular biology. Students may be admitted to the combined BS/MS program at the beginning of their junior year. This program allows the student to receive the ACS certified Bachelor of Science degree and the Master of Science degree at the end of the fifth year.
Bachelor of Science in ChemistryA suggested sequence for taking the required science courses is given below. Variations on the sequence should be checked to insure that course prerequisites have been satisfied. Because many courses have structured prerequisites, major deviations from this schedule could increase the time required to obtain the degree.
First YearCHEM 111 General Chemistry I 5 cr CHEM 112 General Chemistry II 4 cr CHEM 114 Cations and Anions 1 cr MATH 170 Calculus I 4 cr MATH 175 Calculus II 4 crSecond YearCHEM 211 Inorganic Chemistry I 2 cr CHEM 232 Quantitative Analysis 2 cr CHEM 234 Quantitative Analysis Lab 2 cr CHEM 301 Organic Chemistry I 3 cr CHEM 302 Organic Chemistry II 3 cr CHEM 303 Organic Chemistry Lab I 1 cr CHEM 304 Organic Chemistry Lab II 1 cr PHYS 211-212 Engineering Physics 8 cr PHYS 213-214 Engineering Physics Lab 2 crThird YearCHEM 305 Organic Chemistry Lab III 2 cr CHEM 331 Instrumental Analysis 2 cr CHEM 334 Instrumental Analysis Lab 2 cr CHEM g351-g352 Physical Chemistry 6 crFourth YearCHEM g407 Inorganic Chemistry II 2 cr CHEM g408 Preparative Inorganic Chemistry 1 cr CHEM g453 Modern Experimental Physical Chemistry 2 cr CHEM g466 Structural Analysis in Chemistry 2 cr CHEM g481-g482 Independent Problems 3 cr CHEM g491 Seminar 1 cr OR CHEM g492 Seminar 1 crBachelor of Science chemistry majors should note the following considerations for General Education Requirements: ENGL 101 (Goal 1) and COMM 101 (Goal 2) should be completed during the freshman year, and ENGL 201 should be passed during the sophomore year. The mathematics requirement (Goal 3) should be fulfilled by MATH 170 and 175 as early as feasible.
Combined BS/MS Program in ChemistryStudents may be admitted to the program after having completed 64 credit hours. Application for admission must be made to the chemistry department. In addition the student must have completed the following courses or the equivalent:CHEM 111-112 General Chemistry 9 cr CHEM 114 Cations and Anions 1 cr CHEM 211 Inorganic Chemistry I 2 cr CHEM 232 Quantitative Analysis 2 cr CHEM 234 Quantitative Analysis Lab 2 cr CHEM 301-302 Organic Chemistry 6 cr CHEM 303-304 Organic Chemistry Laboratory I and II 2 cr MATH 170 Calculus I 4 cr MATH 175 Calculus II 4 cr PHYS 211-212 Engineering Physics 8 cr PHYS 213-214 Engineering Physics Lab 2 crRequirements (See the suggested schedule)
During the first semester each student is expected to select three faculty members to serve as his/her advisory committee subject to the approval of the Department Chair. In the second semester, each student will form their planned program of study with their research advisor, write a research overview of their project, apply and be admitted to the Graduate School. The student is expected to begin his/her research no later than the beginning of the summer session. Thereafter, individual sections of the research paper will be required as students progress through the program.
Students must apply and be admitted to the Graduate School prior to their fourth year. The student must score at or above the 35th percentile in two areas of the aptitude sections (Verbal, Quantitative, and Analytical). Continuation in the program requires that the student maintain a minimum GPA of 3.0 from date of admission and annual approval of his/her committee. It will be recommended that students who are not making adequate progress discontinue the program.
The student must complete a total of 158 credit hours. This corresponds to 128 credit hours for the BS degree and 30 credit hours for the MS degree. The final course selection must be approved by the Chemistry Graduate Program Committee. Students are required to have completed all general education requirements by the end of their second year in the combined BS/MS program. It is the intent that all students will finish within the period of 3 years after admission to the program. Successful completion of the program requires that the student write and defend a research paper embodying his/her research before his/her research committee.
The following schedule will show how a typical student might progress through the BS/MS program. Even though courses are listed as suggested, each student is required to meet all course requirements for the BS degree in chemistry (except independent problems CHEM 481 and CHEM 482.) Each student is also required to complete all four advanced chemistry courses at the 500 level (CHEM 510, CHEM 530, CHEM 555, and CHEM 571.) These courses are taken during the second and third years of the program.
Third Year (Junior)
Fall/Spring*CHEM 305 Organic Chemistry Lab III 2 cr *CHEM 331 Instrumental Analysis 2 cr *CHEM 334 Instrumental Analysis Lab 2 cr *CHEM 351 Physical Chemistry 3 cr *CHEM 352 Physical Chemistry 3 cr MATH 230 Introduction to Linear Algebra 2 cr MATH 360 Differential Equations 3 cr Electives 11 cr TOTAL: 28 cr*Must be completed by the end of the junior year.
SummerCHEM 485 Senior Research 6 crFourth Year (Senior)
Fall/SpringCHEM 407 Inorganic Chemistry II 2 cr CHEM 408 Preparative Inorganic Chemistry 1 cr CHEM 485 Senior Research 2 cr CHEM 453 Modern Experimental Physical Chemistry 2 cr CHEM 466 Structural Analysis in Chemistry 2 cr CHEM 491 Seminar 1 cr CHEM 510 Advanced Inorganic Chemistry 3 cr CHEM 555 Advanced Physical Chemistry 3 cr Electives 11 cr TOTAL: 27 crSummerCHEM 635 Master's Research 6 crFifth Year
Fall/SpringCHEM 530 Advanced Analytical Chemistry 3 cr CHEM 571 Advanced Organic Chemistry 3 cr CHEM 601 Seminar 2 cr CHEM 635 Master's Research 4 cr Electives 13 cr TOTAL: 25 cr
Bachelor of Arts in ChemistryA suggested sequence for the science requirements is listed below. Variations in this sequence should be checked to see that course prerequisites are met.
First YearCHEM 111 General Chemistry I 5 cr CHEM 112 General Chemistry II 4 cr CHEM 114 Cations and Anions 1 cr MATH 170 Calculus I 4 cr MATH 175 Calculus II 4 crSecond YearCHEM 211 Inorganic Chemistry I 2 cr CHEM 232 Quantitative Analysis 2 cr CHEM 234 Quantitative Analysis Lab 2 cr CHEM 301 Organic Chemistry I 3 cr CHEM 302 Organic Chemistry II 3 cr CHEM 303 Organic Chemistry Lab I 1 cr CHEM 304 Organic Chemistry Lab II 1 cr PHYS 211-212 Engineering Physics 8 crThird YearCHEM g351-g352 Physical Chemistry 6 crPlus 6 additional upper-division credits in chemistry, approved by the department and not to include CHEM g481-g482, CHEM g491-g492.
No more than 40 credits in chemistry will be allowed toward graduation in this program.
Bachelor of Arts in Chemistry majors should complete ENGL 101 and COMM 101 (Goals 1 and 2 of the General Education Requirements) during the freshman year and ENGL 201 should be passed by or during the sophomore year. Goal 3 (mathematics) should be fulfilled by MATH 170 and 175 as early as feasible. The other General Education Requirements (Goals 4 and 6-12) should be taken as credit loads allow.
Teaching Major in ChemistryStudents wishing to pursue a teaching major in chemistry should see the department chairman.
Minor in ChemistryRequired courses:CHEM 111 General Chemistry I 5 cr CHEM 112 General Chemistry II 4 cr CHEM 211 Inorganic Chemistry I 2 cr CHEM 232 Quantitative Analysis 2 cr CHEM 234 Quantitative Analysis Lab 2 cr CHEM 301 Organic Chemistry I 3 cr CHEM 302 Organic Chemistry II 3 cr CHEM 303 Organic Chemistry Lab I 1 cr CHEM 304 Organic Chemistry Lab II 1 cr TOTAL: 23 crIn addition to the 23 hours specified above, the chemistry minor shall consist of six additional hours of approved upper division electives in chemistry, (excluding CHEM g400, CHEM g481-g482, and CHEM g491-g492), for a total of 29 credits.
Bachelor of Science in BiochemistryThe Department of Biological Sciences and the Department of Chemistry jointly offer the B.S. degree in biochemistry. The curriculum is designed to prepare the student for graduate work in biochemistry and related fields, as well as for admission to medical, dental, or other health professional schools. The graduate also is prepared to go directly into research or industrial positions which require preparation only at the B.S. level.
A detailed description of the program is listed under the Department of Biological Sciences.
Associate of Science in ChemistryStudents seeking an Associate of Science degree in Chemistry must complete the following:General Education Requirements*: Goals 1, 2, and 3 11-23 cr Two of Goals 6, 7, and 8 6 cr Three of Goals 9, 10, 11 and 12 9-14 cr CHEM 102 Essentials of Chemistry II 5 cr CHEM 111 General Chemistry I 5 cr CHEM 112 General Chemistry II 4 cr CHEM 114 Cations and Anions 1 cr CHEM 232 Quantitative Analysis 2 cr CHEM 234 Quantitative Analysis Lab 2 cr Electives to bring total to 64 cr variable TOTAL: 64 cr * The number of credits required for the General Education requirements varies depending on the student's performance on proficiency or placement tests in English, foreign languages, and mathematics.
CHEM 100 Architecture of Matter 4 credits. How scientific thought has produced chemical models of the structure of the material world, and the ethical and social consequences of its applications. Recommended for students not majoring in the natural sciences. Satisfies Goal 5 of the General Education Requirements. S
CHEM 101 Essentials of Chemistry I 5 credits. Atomic structure, chemical calculations, solutions, acidbase reaction, equilibrium, and descriptive inorganic chemistry. May not be used as a prerequisite to other courses in chemistry except CHEM 102. PREREQ: MATH 107 OR EQUIVALENT. F
CHEM 102 Essentials of Chemistry II 5 credits. Descriptive organic and biochemistry with emphasis on organic compounds of biological importance. May not be used as a prerequisite to other courses in chemistry. PREREQ: CHEM 101 OR CHEM 111. S
CHEM 111 General Chemistry I 5 credits. Introductory course forstudents in scientific and technical fields; structure and reactivity of elements and compounds, stoichiometry, states of matter, solutions, and chemical periodicity. PREREQ: MATH 143 OR MATH 147 OR EQUIVALENT. F, S
CHEM 112 General Chemistry II 4 credits. Introduction to kinetics, equilibrium, electrochemistry, and nuclear chemistry. PREREQ: CHEM 111 OR EQUIVALENT AND MATH 143 OR MATH 147 OR EQUIVALENT. S
CHEM 114 Cations and Anions 1 credit. Qualitative analysis of a selected group of cations and anions by wet chemical and instrumental means. PREREQ OR COREQ: CHEM 112 OR PERMISSION OF INSTRUCTOR. S
CHEM 211 Inorganic Chemistry I 2 credits. The chemistry of a representative selection of the chemical elements and their compounds: types of compounds, their preparation, and their reactions under various conditions. PREREQ: CHEM 112 OR PERMISSION OF INSTRUCTOR. F
CHEM 232 Quantitative Analysis 2 credits. Theoretical foundations of quantitative analysis including an introduction to statistical analysis of chemical data generated from gravimetric, volumetric and colorimetric methods. PREREQ: CHEM 112 AND MATH 170. S
CHEM 234 Quantitative Analysis Laboratory 2 credits. Laboratory experiments in gravimetric, volumetric, and colorimetric analysis. PREREQ: CHEM 112. COREQ: CHEM 232 OR PERMISSION OF INSTRUCTOR. S
CHEM 301 Organic Chemistry I 3 credits. The fundamentals of organic chemistry are examined through nomenclature, structure, physical and chemical properties, reaction mechanisms, spectroscopy and principal synthetic methods. PREREQ: CHEM 112 OR PERMISSION OF INSTRUCTOR. F
CHEM 302 Organic Chemistry II 3 credits. A continuation of CHEM 301. The further study of the preparation, reactions, properties, reaction mechanisms and spectroscopy of organic compounds. PREREQ: CHEM 301 OR PERMISSION OF INSTRUCTOR. S
CHEM 303 Organic Chemistry Laboratory I 1 credit. Introductory laboratory work in organic chemistry. Study and development of elementary techniques and their application to the preparation, isolation and characterization of simple organic compounds. COREQ: CHEM 301 OR PERMISSION OF INSTRUCTOR. F
CHEM 304 Organic Chemistry Laboratory II 1 credit. Further experience in the fundamental operations of organic chemistry laboratory work including the preparation and analysis of typical compounds. PREREQ: CHEM 303. COREQ: CHEM 302 OR PERMISSION OF INSTRUCTOR. S
CHEM 305 Organic Chemistry Laboratory III 2 credits. Intermediate laboratory course in modern methods of preparative organic chemistry. Primary emphasis is on reactions, synthesis, separation and spectral structural analysis techniques. PREREQ: CHEM 304 OR PERMISSION OF INSTRUCTOR. F
CHEM 331 Instrumental Analysis 2 credits. Advanced quantitative analysis dealing chiefly with quantitative applications of instrumental methods. PREREQ: CHEM 232 AND CHEM 234 OR PERMISSION OF INSTRUCTOR. F
CHEM 334 Instrumental Analysis Laboratory 2 credits. Laboratory course giving experience in fundamental operations of modern instrumental methods of analysis. PREREQ: CHEM 331 OR PERMISSION OF INSTRUCTOR. S
CHEM g335 Environmental Chemistry 2 credits. Application of chemical principles and calculations to investigate environmental issues. Natural systems, environmental degradation and protection, and the methodology of chemical detection and monitoring. PREREQ: CHEM 232 AND CHEM 234 OR PERMISSION OF INSTRUCTOR. F
CHEM g337 Environmental Chemistry Laboratory 1 credits. Utilizes both structured and self-designed field and classroom experiments to emphasize principles of environmental chemistry. COREQ: CHEM g335 OR PERMISSION OF INSTRUCTOR. F
CHEM g351-g352 Physical Chemistry 3 credits each. The fundamental principles of physical chemistry; thermodynamics, reaction kinetics, molecular structure, quantum theory, spectroscopy, and solution chemistry. PREREQ: CHEM 112, MATH 175, AND PHYS 212, OR PERMISSION OF INSTRUCTOR. F, S
CHEM 397 Workshop 1-2 credits. Workshops aimed at the development and improvement of skills. Does not satisfy requirements for a major or a minor. May be repeated. Graded S/U. D
CHEM g400 Practicum in Physical Science 2 credits. Practical problems associated with equipping, setting up and operating laboratories in chemistry. PREREQ: PERMISSION OF DEPARTMENT CHAIR. D
CHEM g407 Inorganic Chemistry II 2 credits. Structure and reactivity of inorganic compounds including coordination compounds; acid-base chemistry and nonaqueous solvent systems; organometallic chemistry and other special topics of current interest. PREREQ: CHEM 211 and CHEM g352, OR PERMISSION OF INSTRUCTOR. F
CHEM g408 Preparative Inorganic Chemistry 1 credit. A laboratory course for the preparation of selected inorganic compounds utilizing various methods of synthesis and purification employing physical, chemical and spectroscopic methods of characterization. COREQ: CHEM g407 OR PERMISSION OF INSTRUCTOR. F
CHEM g410 Advanced Inorganic Chemistry 3 credits. Modern physical methods of inorganic chemistry with an emphasis on the application of group theory to spectroscopic analysis. COREQ: CHEM g466 OR PERMISSION OF INSTRUCTOR. D
CHEM g430 Advanced Analytical Chemistry 3 credits. Advanced treatment of standards, sampling, special methods of analysis, and methods of separation. PREREQ: CHEM 302, 331, g352, OR PERMISSION OF INSTRUCTOR. D
CHEM g432 Chemometrics 4 credits. Data analysis of chemical measurements and design or selection of optimal measurement procedures and experiments by mathematical and statistical analysis including sampling theory, optimization, factor analysis, pattern recognition, and multicomponent analysis. PREREQ: PERMISSION OF INSTRUCTOR. D
CHEM g446 Computer Applications in Science 2 credits. Emphasis will be on Basic Programming and Chemistry. Students will be allowed opportunity to concentrate on problems which may be of special interest to them in their science field. D
CHEM g453 Modern Experimental Physical Chemistry 2 credits. Magnetic, optical and electrical properties of materials, calorimetry, voltammetry, optical and laser spectroscopic techniques. PREREQ: CHEM 334 AND CHEM g352. F
CHEM g455 Advanced Physical Chemistry 3 credits. Introductory material from quantum chemistry and statistical mechanics with applications in chemical thermodynamics. PREREQ: CHEM 302 AND CHEM g352 OR PERMISSION OF INSTRUCTOR. F
CHEM g466 Structural Analysis in Chemistry 2 credits. The application of spectra-structure correlations to the solution of chemical structural problems. PREREQ: CHEM 302 AND CHEM g407, OR PERMISSION OF INSTRUCTOR. F
CHEM g471 Advanced Organic Chemistry 3 credits. Kinetics and mechanisms in organic reactions. PREREQ: CHEM 302 AND CHEM g352 OR PERMISSION OF INSTRUCTOR. D
CHEM g481-g482 Independent Problems in Chemistry 1-4 credits each. Directed library and laboratory research. Courses may be repeated to a maximum of 6 credits. F, S
CHEM 485 Senior Research 1-4 credits. The student will be introduced to research techniques, development of manipulative skills, instrumental methods, laboratory notebook keeping, data interpretation and library research. PREREQ: ACCEPTANCE IN THE BS/MS PROGRAM. LIMIT 8 CREDITS. D
CHEM g491-g492 Seminar 1 credit. Oral reports of library and laboratory research. COREQ: CHEM g481, CHEM g482, OR PERMISSION OF INSTRUCTOR. F, S
IDAHO STATE UNIVERSITY
Revised: March 5, 1999