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Westmont College
Chemistry Department
955 La Paz Road
Santa Barbara, CA 93108
805.565.6152
chemistry@westmont.edu

Programs in Chemistry

Summary of Different Programs
B.S. Degree Major Requirements
B.A. Degree Major Requirements
Requirements for a Minor
Sample Four-Year Program - Professional Track
Lower Division Course Descriptions
Upper Division Course Descriptions
Education Fast Track Program in Chemistry

There are four tracks that lead to the Bachelor of Science degree in Chemistry.

1. The professional track, or Program A, leads to graduate study in chemistry and prepares students for challenging careers in teaching and research, industrial chemistry research and development, energy development, medicinal and pharmaceutical chemistry and related areas.

2. Program B, or the general track, is more flexible and allows students to go directly into laboratory work or to take additional courses in other disciplines for careers in environmental control, industrial chemistry, medical technology, food chemistry and agricultural chemistry. Those interested in teaching science at the secondary level would find Program B most appropriate.

3. The biochemistry track, or Program C, combines the best of a chemistry and biology major. It can provide the basis for pre-medical and pre-dental training or lead to graduate study in biochemistry, molecular biology, biomedical research or genetic engineering.

4. The chemical physics track, Program D, allows students to combine chemistry with a strong emphasis in physics and engineering. This track prepares students for graduate work in chemical physics or chemical engineering, or teaching chemistry and physics at the secondary level. All four tracks lead to the B.S. degree.

There are two more tracks that result in the Bachelor of Arts degree in Chemistry

1. General BA track: For students desiring a broader curriculum or a double major, the B.A. degree track allows the most flexibility. A four-year fast-track plan for obtaining a secondary teaching credential in chemistry, in addition to the B.A. degree, is available using this track.

2. Pre-Chemical Engineering: Students interested in chemical engineering have the option of the 3-2 program in which they receive a degree from the engineering school and a B.A. from Westmont. The benefits of receiving a liberal arts and sciences background and the more specialized training from a formal engineering school such as USC and Washington University can be beneficial for both the student and the employer. Since the 3-2 program has strict requirements, interested students must meet with a faculty of the department to plan the class schedules consistent with their goals.

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B.S. Degree Major Requirements: 54 to 67 units

Professional Track (Program A)
General Track (Program B)
Biochemistry Track (Program C)
Chemical Physics Track (Program D)

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A. Professional Track (Program A) - 65-66 units

Required Lower-Division Courses: 30 units

CHM 5, 6 General Chemistry I, II (4,4)
MA 9, 10 Elementary Calculus I, II (4,4)
MA 19 Multivariable Calculus (4)
PH 21, 23 General Physics I, II (4,4)
PH 22, 24 Introductory Physics Laboratory I, II (1,1)

Recommended Lower-Division Courses:

BIO 5 General Biology I (4)
CS 10 Introduction to Computer Science I (4)
PH 40 Differential Equations (4)
GS 1, 2 German Studies I, II (4,4)

Required Upper-Division Courses: 35-36 units

CHM 101, 102 Organic Chemistry I, II (4,4)
CHM 104 Advanced Inorganic Chemistry (4)
CHM 121 Introductory Analytical Chemistry (3)
CHM 122 Advanced Analytical Chemistry (2)
CHM 125 Analog and Digital Instrumental Analysis (4)
or
PH 142/143 Circuits and Electronics/Electronics Laboratory (4,1)
CHM 130, 131 Physical Chemistry I, II (3,3)
CHM 132, 133 Physical Chemistry Laboratory I, II (1,1)
CHM 195 Seminar (1,1)
CHM 198 Chemical Research (4)

Recommended Upper-Division Courses:

CHM 113 Biochemistry (4)
CHM 160 Advanced Organic Chemistry (4)

All graduating majors in the professional track are required to take the Graduate Record Exam in their senior year.

Back to BS Tracks

B. General Track (Program B) - 54-55 units

Required Lower-Division Courses: 25-26 units

CHM 5, 6 General Chemistry I, II (4,4)
MA 9, 10 Elementary Calculus I, II (4,4)

One of the following combinations: (9-10)

PH 11, 13 Physics for Life Science Majors I, II (4,4)
PH 14 Physics for Life Science Majors Laboratory (1)
or
PH 21, 23 General Physics I, II (4,4)
PH 22, 24 Introductory Physics Laboratory I, II (1,1)

Required Upper-Division Courses: 29 units

CHM 101, 102 Organic Chemistry I, II (4,4)
CHM 121 Introductory Analytical Chemistry (3)
CHM 122 Advanced Analytical Chemistry (2)
CHM 195 Seminar (1,1)
CHM 198 Research (2)

One of the following combinations: (4)

CHM 130 Physical Chemistry I (3)
CHM 132 Physical Chemistry Laboratory I (1)
or
CHM 135 Introductory Physical Chemistry (3)
CHM 132 or 133 Physical Chemistry Laboratory I or II (1)

Upper-Division CHM Electives (8)

Back to BS Tracks

C. Biochemistry Track (Program C) - 66-67 units

Required Lower-Division Courses: 33-34 units

CHM 5, 6 General Chemistry I, II (4,4)
BIO 5, 6 General Biology I, II (4,4)
MA 9, 10 Elementary Calculus I, II (4,4)

One of the following combinations: (9-10)

Required Upper-Division Courses: 33 units

CHM 101, 102 Organic Chemistry I, II (4,4)
CHM 113 Biochemistry (4)
CHM 121 Introductory Analytical Chemistry (3)
CHM 122 Advanced Analytical Chemistry (2)
CHM 195, Seminar (1,1)
CHM 198 Research (2)

One of the following combinations: (4)

CHM 130 Physical Chemistry I (3)
CHM 132 Physical Chemistry Laboratory I (1)
or
CHM 135 Introductory Physical Chemistry (3)
CHM 132 or 133 Physical Chemistry Laboratory I or II (1)

Two of the following three: (8)

CHM 131 Physical Chemistry II (3)
and CHM 133 Physical Chemistry Laboratory II (1)
BIO 102 Physiology (4)
BIO 114 Genetics (4)

Those interested in graduate school in biochemistry should choose CHM 130 and 131 and take additional courses in advanced biochemistry, inorganic and organic chemistry.

Back to BS Tracks

D. Chemical Physics Track (Program D) - 65 units

Required Lower-Division Courses: 39 units

CHM 5, 6 General Chemistry I, II (4,4)
PH 21, 23 General Physics I, II (4,4)
PH 22, 24 Introductory Physics Laboratory I, II (1,1)
PH 25 Modern Physics (4)
PH 26 Modern Physics Laboratory (1)
PH 40 Differential Equations (4)
MA 9, 10 Elementary Calculus I, II (4,4)
MA 19 Multivariable Calculus (4)

Required Upper-Division Courses: 26 units

CHM 130, 131 Physical Chemistry I, II (3,3)
CHM 132, 133 Physical Chemistry Laboratory I, II (1,1)
CHM 198 Chemistry Research (2)
*CHM Electives (8)
PH 155 Topics (4)
*PH Elective (4)

*Department Chair approval required.

Recommended Course

MA 140 Applications of Mathematics (4)

Back to BS Tracks

B.A. Degree Major Requirements: 46-47 units

General Track-(Also Fast Track of Secondary Teaching Credential)
Chemical Engineering 3-2 Program Track

A. General Track - 46-47 units

Required Lower-Division Courses: 25-26 units

CHM 5, 6 General Chemistry I, II (4,4)
MA 9, 10 Elementary Calculus I, II (4,4)

One of the following combinations (9)

PH 11, 13 Physics for Life Science Majors I, II (4,4)
PH 14 Physics for Life Science Majors Laboratory (1)

OR

PH 21, 23 General Physics I, II (4,4)
PH 22, 24 Introductory Physics Laboratory I, II (1,1)

Required Upper-Division Courses: 21 units

CHM 101, 102 Organic Chemistry I, II (4,4)
CHM 121 Introductory Analytical Chemistry (3)
CHM 195 Seminar (1,1)

One of the following combinations: (4)

CHM 130 Physical Chemistry I (3)
CHM 132 Physical Chemistry Laboratory I (1)
or
CHM 135 Introductory Physical Chemistry (3)
CHM 132 or 133 Physical Chemistry Laboratory I or II (1)

Upper-Division CHM Elective (4)

See Four-Year Schedule for Secondary Credential in Chemistry

B. Chemical Engineering 3-2 Track - 44 units

Required Lower-Division Courses: 33 units

Required Upper-Division Courses: 21 units

CHM 101, 102 Organic Chemistry I, II (4,4)
CHM 121 Introductory Analytical Chemistry (3)
CHM 122 Advanced Analytical Chemistry (2)
CHM 125 Analog and Digital Instrumental Analysis (4)
CHM 130 Physical Chemistry I (3)
CHM 132 Physical Chemistry Laboratory I (1)

Highly Recommended Courses:

MA 20 Linear Algebra (4)
CS 10 Introduction to Computer Science I (4)

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Requirements for a Minor: 20 units

Required Lower-Division Courses: 8 units

CHM 5, 6 General Chemistry I, II (4,4)

Required Upper-Division Courses: 12 units

CHM 101, 102 Organic Chemistry I, II (4,4)
Upper-Division CHM Elective (4)

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Sample Four-Year Program Professional Track (Program A)

FIRST YEAR Fall CHM 5 (4) MA 9 (4) RS 10 or 20 (4) GE, Common Inquiry (4) PEA 32 (1)	Spring CHM 6 (4) MA 10 (4) RS 10 or 20 (4) GE, Common Inquiry (4) PEA Elective (1)
SECOND YEAR Fall CHM 101 (4) MA 19 (4) PH 21 (4) PH 22 (1) PEA Elective (1)	Spring CHM 102 (4) CHM 121 (3) PH 23 (4) PH 24 (1) RS 1 (4) PEA Elective (1)
THIRD YEAR Fall CHM 122 (2) CHM 130, 132 (3,1) PHY 6 (4) GE, Common Inquiry (6)	Spring CHM 131,133 (3,1) PH 40 (4) HIS 10 (4) GE/elective (4)
FOURTH YEAR Fall CHM 104 (4) CHM 195 (1) CHM 198 (2) GE/Elective (9)	Spring CHM 125 (4) CHM 195 (1) CHM 198 (2) GE/Elective (8)

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Lower-Division Course Descriptions

CHM 1 Introductory General Chemistry (4) Prerequisites: high school algebra and geometry. Three lectures and one four-hour laboratory per week. The periodic table, atomic structure, and other fundamentals of chemistry, including laboratory. (GE)

CHM 4 Chemistry, Culture and Society (4) Survey course that teaches the basic concepts of chemistry. Emphasizes the role of chemical principles as applied to nuclear and radiochemistry, agriculture and food, drugs, pollution, and other topics of current interest. Satisfies the physical science distribution requirement. (GE)

CHM 5, 6 General Chemistry I, II (4,4) Prerequisites: two years of high school algebra and one year geometry. Three lectures and one four-hour laboratory per week. Covers basic concepts of physical, inorganic, organic, analytical and nuclear chemistry. (GE)

CHM 5H, 6H General Chemistry I, II: Honors (4,4) Prerequisites: By invitation only and two years of high school algebra and one year of geometry, high school chemistry, previous or concurrent course in calculus. Three lectures and one four-hour laboratory per week. A survey of concepts in physical, inorganic, organic, analytical and nuclear chemistry. Examines each topic with more rigor than CHM 5, 6. (GE)

CHM 14 Scientific Glassblowing (1) Practical construction and repair of glass apparatus. One three-hour laboratory per week.

Upper-Division Course Descriptions

CHM 101, 102 Organic Chemistry I, II (4,4) Prerequisite: CHM 6. Three lectures and one four-hour laboratory per week. Preparation and properties of aliphatic and aromatic compounds, reaction mechanisms, organic synthesis, and qualitative organic analysis in theory and laboratory.

CHM 104 Advanced Inorganic Chemistry (4) Prerequisite: CHM 101. Descriptive chemistry of the elements, periodicity, atomic structure, bonding theory, coordination chemistry, acid-base theory, non-aqueous solvents, inorganic stereochemistry, bioinorganic, and organometallic chemistry.

CHM 113 Biochemistry (4) Prerequisites: BIO 5 and CHM 101, 102. Introduction to the chemistry and metabolism of biologically important substances, characteristics of enzyme action, and structure-function relationships in proteins. Laboratory work emphasizes enzyme isolation and characterization.

CHM 121 Introductory Analytical Chemistry (3) Prerequisites: CHM 6. Two lectures and one four-hour laboratory per week. Theoretical background of quantitative analytical procedures, including statistics, gravimetry, titrimetry, potentiometry, and coulometry.

CHM 122 Advanced Analytical Chemistry (2) Prerequisites: CHM 121. Two lectures and one four-hour laboratory per week. Emphasis on instrumental methods of analysis including spectrophotometry, voltammetry, and gas and liquid chromatography.

CHM 125 Analog and Digital Instrumental Analysis (4) A laboratory course in analog and digital electronics: assembly language and microprocessors, computer interfacing, data acquisition by analog to digital conversion, and stepping motors. Two lectures and two three-hour laboratories per week.

CHM 130 Physical Chemistry I (3) Prerequisites: differential and integral calculus, college physics, concurrent enrollment in CHM 132. Classical equilibrium thermodynamics: applications of the first, second, and third laws to condensed and gas phases. Principles and applications of statistical thermodynamics.

CHM 131 Physical Chemistry II (3) Prerequisites: differential and integral calculus, college physics, concurrent enrollment in CHM 133. Postulates in quantum mechanics and application of the Schrodinger's equation to translation, rotation and vibration. Dirac notation, angular momentum, approximation methods, group theory, atomic and molecular structure, spectroscopy, and electric and magnetic properties. Dynamics and transport properties.

CHM 132, 133 Physical Chemistry Laboratory I, II (1,1) Prerequisite: Concurrent enrollment in CHM 130, 131, 135. One three-hour laboratory per week. Emphasizes thermodynamics, kinetics, electrochemistry, spectroscopy, quantum chemistry, and computer applications. Oral and written presentations of laboratory results are required.

CHM 135 Introductory Physical Chemistry (3) Prerequisite: CHM 6, 101, MA 9, concurrent enrollment in MA 10, PH 21, 23, and CHM 132 or 133. Applications of physical chemistry to the life sciences. Thermodynamics, energy and the first law, entropy and the second law, free energy and bioenergetics, solar energy. Chemical and biochemical kinetics, biochemical spectroscopy, transport properties, macromolecules.

CHM 150 Special Topics (1/2-4) Prerequisite CHM 102; CHM 131. Topics include probability and statistics, applications of orbital symmetry, basic gas chromatography, organometallic chemistry of the transition elements, hard and soft acids and bases, applied problem solving, interpretation of infrared spectra, use of the chemical literature, electroanalytical chemistry, and a Lewis acid-base approach to chemical reactivity.

CHM 160 Advanced Organic Chemistry (4) Prerequisite: CHM 102. Corequisite CHM 131. Advanced topics in kinetics and mechanisms of organic reactions, stereochemistry, molecular orbital theory, photochemistry, organometallic chemistry, poly- mers, and natural products. Three lectures and one four-hour laboratory per week.

CHM 190 Chemistry Practicum (1) Supervised experiences in the chemistry department or in community and industrial facilities such as clinical or research laboratories. Generally one unit of credit per semester.

CHM 195 Seminar (1,1) Prerequisites: CHM 102 or 131. Use of the chemical literature in preparation for a research paper. Oral presentations of contemporary chemical research based upon a computerized literature search included in the second semester.

CHM 198 Chemical Research (2-4) Prerequisites: CHM 102, 125 or 131. Students work closely with a faculty person on original research projects. The results may be reported in research conferences and journal form for publication.

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B.S. Degree Major Requirements: 54 to 67 units

A. Professional Track (Program A) - 65-66 units

Required Lower-Division Courses: 30 units

Recommended Lower-Division Courses:

Required Upper-Division Courses: 35-36 units

B. General Track (Program B) - 54-55 units

Required Lower-Division Courses: 25-26 units

Required Upper-Division Courses: 29 units

C. Biochemistry Track (Program C) - 66-67 units

Required Lower-Division Courses: 33-34 units

Required Upper-Division Courses: 33 units

D. Chemical Physics Track (Program D) - 65 units

Required Lower-Division Courses: 39 units

Required Upper-Division Courses: 26 units

Recommended Course

B.A. Degree Major Requirements: 46-47 units

A. General Track - 46-47 units

Required Lower-Division Courses: 25-26 units

OR

Required Upper-Division Courses: 21 units

B. Chemical Engineering 3-2 Track - 44 units

Required Lower-Division Courses: 33 units

Required Upper-Division Courses: 21 units

Highly Recommended Courses:

Requirements for a Minor: 20 units

Required Lower-Division Courses: 8 units

Required Upper-Division Courses: 12 units

Sample Four-Year Program Professional Track (Program A)

FIRST YEAR

Fall

Spring

SECOND YEAR

Fall

Spring

THIRD YEAR

Fall

Spring

FOURTH YEAR

Fall

Spring

Lower-Division Course Descriptions

Upper-Division Course Descriptions