All students pursuing a Bachelor of Arts or Bachelor of Science in chemistry must complete a common core of courses in the department. These courses are consistent with the requirements of all degree programs accredited by the American Chemical Society. The courses in the common core consist of:

Introductory Courses

- CHE 130 GENERAL CHEMISTRY I and CHE 131 GENERAL CHEMISTRY I LABORATORY
- CHE 132 GENERAL CHEMISTRY II and CHE 133 GENERAL CHEMISTRY LABORATORY II
- CHE 134 GENERAL CHEMISTRY III and CHE 135 GENERAL CHEMISTRY LABORATORY III

The department offers General Chemistry each summer. In this case, the combination of CHE 136/CHE 137 and CHE 138/CHE 139 may substitute for the three-quarter sequence above.

Foundation Courses

- CHE 202 APPLIED PROBABILITY AND STATISTICS
- CHE 204 ANALYTICAL CHEMISTRY and CHE 205 ANALYTICAL CHEMISTRY LABORATORY
- CHE 230 ORGANIC CHEMISTRY I and CHE 231 ORGANIC CHEMISTRY LABORATORY I
- CHE 232 ORGANIC CHEMISTRY II and CHE 233 ORGANIC CHEMISTRY LABORATORY II
- CHE 302 QUANTUM CHEMISTRY
- CHE 303 EXPERIMENTAL PHYSICAL CHEMISTRY I
- CHE 304 THERMOCHEMISTRY
- CHE 305 EXPERIMENTAL PHYSICAL CHEMISTRY II
- CHE 320 INTERMEDIATE INORGANIC CHEMISTRY and CHE 321 INTERMEDIATE INORGANIC CHEMISTRY LABORATORY
- CHE 340 BIOCHEMISTRY I and CHE 341 EXPERIMENTAL BIOCHEMISTRY I
- CHE 394 SEMINAR

One year of calculus is required to earn a baccalaureate degree in chemistry. This may be accomplished by completing any of the following three course sequences offered by the Department of Mathematical Sciences:

- Sequence One
- MAT 147 CALCULUS WITH INTEGRATED PRECALCULUS I
- MAT 148 CALCULUS WITH INTEGRATED PRECALCULUS II
- MAT 149 CALCULUS WITH INTEGRATED PRECALCULUS III
- Sequence Two
- Sequence Three
- MAT 160 CALCULUS FOR MATHEMATICS AND SCIENCE MAJORS I
- MAT 161 CALCULUS FOR MATHEMATICS AND SCIENCE MAJORS II
- MAT 162 CALCULUS FOR MATHEMATICS AND SCIENCE MAJORS III
- Sequence Four

Students interested in earning credit for multi-variable calculus should not take the MAT 170/MAT 171/MAT 172 sequence. Business calculus cannot be substituted for any of the sequences above.

One year of calculus-based physics is required to earn a baccalaureate in chemistry. This may be accomplished by completing the following three course sequence offered by the Department of Physics:

Non-calculus-based physics cannot be used to meet the requirements of the common core unless previously approved by the Director of Undergraduate Studies or the Chair.

The Pathways Program is only for qualified Chemistry (BA) majors who have been accepted into an accelerated 3+4 College of Science and Health pre-professional program in conjunction with Rosalind Franklin University of Medicine and Science (RFUMS). In order to pursue the pre-pharmacy track, a student must secure approval from the College of Science and Health's Pre-health Advising Committee's (PAC) pre-pharmacy advisor.

Students pursuing the pre-pharmacy track would be required to take CHE 234 ORGANIC CHEMISTRY III/CHE 235 ORGANIC CHEMISTRY LABORATORY III.

Additional course requirements are:

- BIO 191 GENERAL BIOLOGY I FOR SCIENCE MAJORS/BIO 192 GENERAL BIOLOGY II FOR SCIENCE MAJORS/BIO 193 GENERAL BIOLOGY III FOR SCIENCE MAJORS
- BIO 201 HUMAN ANATOMY
- BIO 310 VERTEBRATE PHYSIOLOGY

*Students formally accepted into a 3+4 Pathways Program will complete their fourth year of coursework - taken at RFUMS and not shown here - and apply the credit toward their Bachelor of Arts degree in Chemistry at DePaul. Students must apply for degree conferral via Campus Connection by the deadline outlined in the Student Handbook in order to be considered a candidate for earning their Bachelor of Arts degree at the conclusion of their fourth year of study. As part of the agreement with RFUMS, some Liberal Studies Program courses, Chemistry major requirements, and open electives will be fulfilled by RFUMS courses. To avoid possibly earning duplicate credit for some courses, please be sure you meet regularly with your College of Science and Health PAC pre-pharmacy advisor and your Chemistry faculty advisor.

Open elective credit also is required to meet the minimum graduation requirement of 192 hours.

The following enrollment-related policies are fully enforced by the Department of Chemistry

- All students enrolling in the first course of a General Chemistry sequence must independently meet a minimum mathematics requirement and successfully complete either the General Chemistry placement examination or a General Chemistry preparation course. See the course descriptions for General Chemistry for up-to-date information.
- All prerequisite chemistry courses must be completed with a C- or better. Students not meeting this requirement may be removed from course rosters before the start of an academic session. This requirement may be waived only with departmental consent.
- The department offers lower-level sequences several times each academic year. Due to potentially small class sizes, upper-level courses are typically scheduled every other year. Students should consult with their faculty academic advisor to develop a program they can complete in a timely fashion.

Sequencing and Prerequisites

Students should begin their General Chemistry, Physics, and Calculus sequences in their freshman year, provided they have an adequate mathematics background. The Organic Chemistry sequence and Analytical Chemistry should be taken in the sophomore year. Students not yet prepared for calculus should take the prerequisite courses in the first year and take Calculus and General Physics one year later than suggested above. Advanced courses in Chemistry may be taken as soon as students have met the appropriate prerequisites.

Students in Biochemistry are recommended to consider taking the General Biology sequence (BIO 191, BIO 192, BIO 193) prior to taking the Biochemistry sequence .

Since the Undergraduate Common Core in Chemistry, Mathematics, and Physics is particularly demanding in the first two years, students take the majority of their Liberal Studies courses in their junior and senior years. This is necessary so that students have the necessary prerequisites for advanced courses.

This introductory course for science majors emphasizes the composition of matter, atomic and molecular structure, bonding and chemical reactions. It is the first in the three-course sequence of General Chemistry. This course meets for three hours of lecture and one hour of discussion per week. CO-REQUISITE(S): CHE 131.

Laboratory course to be taken in conjunction with CHE 130. The course meets weekly for three hours. The experimental techniques provide hands-on experience with the course material in CHE130. CO-REQUISITE(S): CHE130. Lab fee.

Second course of three in the General Chemistry series. Topics discussed include: common states of matter, phase transitions, properties of solutions, kinetics and equilibrium. This course meets for three hours of lecture and one hour of discussion per week. CO-REQUISITE(S): CHE133.

Laboratory to be taken in conjunction with CHE 132. The Course meets weekly for three hours. The experimental techniques learned in lab provide hands-on experience with the course material in CHE132. CO-REQUISITE(S): CHE 132. Lab fee.

Third of three courses in the General Chemistry sequence. Topics included in lecture: chemical equilibrium in aqueous solution (acids and bases, solubility, complex ion formation), Thermodynamics (entropy and free energy), electrochemistry, chemistry of d-block elements and descriptive chemistry. CO-REQUISITE(S): CHE135.

Laboratory to be taken in conjunction with CHE 134. The Course meets weekly for three hours. The experimental techniques provide hands-on experience with the course material in CHE134. CO-REQUISITE(S): CHE 134. Lab fee.

This is a lecture course that introduces students to concepts related to the statistical analysis of experimental data, covering material from uncertainty, significant figures, and propagation of error through least squares fitting to descriptions and applications of several statistical distributions. CO-REQUISITE(S): CHE204.

Use of equilibrium chemistry to solve problems of chemical analysis in acid-base, solubility, metal-ligand complex, and electrochemical systems. CO-REQUISITE(S): CHE 202 and CHE205.

Laboratory to be taken in conjunction with CHE205. Methods include wet chemistry and instrumental techniques of analysis. CO-REQUISITE(S): CHE 204. Lab fee.

First in a sequence of courses designed to investigate what organic chemistry is and how it works, by emphasizing the relationship between structure and function of organic molecule and the language and fundamental concepts of organic chemistry, including: structure and bonding; acid-base reactions; functional groups; thermodynamics and kinetics of organic reactions; stereochemistry; substitution and elimination reactions of alkyl halides. CO-REQUISITE(S): CHE231.

Laboratory to be taken in conjunction with CHE230. CO-REQUISTE(S): CHE 230. Lab fee.

Second in a sequence of courses designed to investigate what organic chemistry is and how it works, by emphasizing the relationship between structure and function of organic molecules. Specific topics investigated include the reactivity and synthesis of alcohols, ethers, epoxides, alkenes, alkynes, alkanes, conjugated, and aromatic compounds. CO-REQUISITE(S): CHE233

Laboratory to be taken in conjunction with CHE232. CO-REQUISITE(S): CHE 232. Lab fee.

Quantum mechanics. CO-REQUISITE(S): CHE303

Laboratory to be taken in conjunction with CHE302. Introduction to essential skills and techniques of experimental physical chemistry. Topics include the use of data analysis software, computational methods, basic spectroscopy, and technical writing. CO-REQUISITE(S):CHE302. Lab fee.

Thermochemistry. CO-REQUISITE(S): CHE305.

Laboratory to be taken in conjunction with CHE304. The goal of this laboratory course is to teach students essential skills and techniques of physical chemistry. Experimental work will focus on electronic spectroscopy and thermodynamics. CO-REQUISITE(S): CHE304. Lab fee.

Lecture course emphasizing synthesis, structure and reactions of metal ligand compounds of general and biological interest. CO-REQUISITE(S): CHE321.

Laboratory to be taken in conjunction with CHE 320. CO-REQUISITE(S): CHE 320. Lab fee.

First in a three-course sequence, directed at those who wish an in- depth exploration of modern biochemistry. This course covers the structures and functions of the four major macromolecules, concentrating on enzyme kinetics and regulation. CO-REQUISITE(S): CHE341. The general biology sequence is strongly recommended.

Laboratory to be taken in conjunction with CHE340. This course will introduce classic and modern techniques for isolating and characterizing biological molecules. Topics covered will include buffer preparation; amino acid analysis; detection, quantification, and purification of proteins; enzyme kinetics; purification, amplification, and analysis of DNA; protein stabilization; and molecular interaction analysis. CO-REQUISITE(S): CHE 340. Lab fee.

This course is required for all chemistry majors. This course is designed to enhance your ability to: critically read and summarize scientific literature, thoughtfully listen to a scientific seminar, articulate questions regarding a scientific seminar, and orally present a scientific paper.

Limits, continuity, the derivative, rules of differentiation, and applications, with precalculus review included for each topic. The full MAT 147-8-9 sequence covers all the material of MAT 150-1-2 plus additional precalculus material.

Extrema, curve sketching, related rates, definite and indefinite integrals, applications of the integral, exponential and logarithmic functions, with precalculus review included for each topic.

Techniques of integration, L'Hopital's rule, improper integrals, Taylor polynomials, series and sequences, first-order differential equations, with precalculus review included for each topic.

Limits, continuity, the derivative, rules of differentiation, applications of the derivative, extrema, curve sketching, and optimization. This course meets for an additional 1.5-hour lab session each week for enrichment and problem solving.

Definite and indefinite integrals, the Fundamental Theorem of Calculus, applications of the integral, exponential and logarithmic functions, inverse trigonometric functions, techniques of integration. This course meets for an additional 1.5-hour lab session each week for enrichment and problem solving.

L'Hopital's rule, improper integrals, sequences and series, Taylor polynomials. This course meets for an additional 1.5-hour lab session each week for enrichment and problem solving.

Limits, continuity, the derivative, rules of differentiation, applications of the derivative, extrema, curve sketching, and optimization. Course meets for an additional 1.5 hour lab session each week in order to cover the material in greater depth. Students considering a math major are advised to take the 160 or 170 sequence.

Definite and indefinite integrals, the Fundamental Theorem of Calculus, applications of the integral, exponential and logarithmic functions, inverse trigonometric functions, techniques of integration. Course meets for an additional 1.5 hour lab session each week in order to cover the material in greater depth.

L'Hopital's rule, improper integrals, sequences and series, Taylor polynomials. Course meets for an additional 1.5 hour lab session each week in order to cover the material in greater depth.

The course covers the following topics using examples from the sciences: Functions as models, logarithmic scale graphing, exponential growth and decay, difference equations and limits of sequences, geometric series, functions and limits, trigonometric functions and their limits, continuity, limits at infinity, the derivative, differentiation rules, derivatives of trigonometric and exponential functions, related rates, derivatives of inverse and logarithm functions. Course meets for an additional lab session each week during which time students will work on applied mathematics projects based on the topics covered in the course. Students majoring in the sciences should consult with their major department to decide between the 160 and 170 sequences.

The course covers the following topics using examples from the sciences: Applications of the derivative including approximation and local linearity, differentials, extrema and the Mean Value Theorem, monotonicity and concavity, extrema, inflection points, graphing, L'Hospital's Rule, optimization, and the Newton-Raphson method, antiderivaties, the definite integral, Riemann sums, the Fundamental Theorem of Calculus, area, cumulative change, average value of a function, and techniques of integration: substitution rule and integration by parts. Course meets for an additional lab session each week during which time students will work on applied mathematics projects based on the topics covered in the course. Course meets for an additional lab session each week during which time students will work on applied mathematics projects based on the topics covered in the course.

This course is designed for students in the life sciences and covers some topics from MAT 152, differential equations and an introduction to the Calculus of functions of several variables. Specific topics are as follows. Numerical integration, partial fraction expansions, Taylor approximations of a function, differential equations, separation of variables, slope fields, Euler's existence theorem, polygonal approximations to solutions of differential equations, the logistic equation and allometric growth models, equilibiria of differential equations and their stability, applications of stability theory, functions of several variables, partial derivatives, directional derivative and the gradient. Course meets for an additional lab session each week during which time students will work on applied mathematics projects based on the topics covered in the course.

This course provides a comprehensive, calculus-based introduction to Newtonian mechanics. Topics include vectors, Newton's laws, linear and rotational motion. Course intended for majors in a physical science, required for the physics major. Laboratory fee. Autumn. COREQUISITE(S): MAT 147 or MAT 160 or MAT 170.

A continuation of PHY 170. Topics include heat, sound and light. Laboratory fee. Winter COREQUISITE(S): MAT 161 or 171 or 148.

A continuation of PHY 171. Topics include electricity and magnetism. Laboratory fee. Spring COREQUISITE(S):MAT 162 or 172 or 149.

This course is a rigorous introductory course in general chemistry covering topics such as composition of matter, atomic and molecular structure, bonding and chemical reactions, common states of matter, properties of solutions, phase transitions. CO-REQUISITE(S): CHE137.

Laboratory course to be taken in conjunction with CHE136. This laboratory course introduces students to basic chemical laboratory techniques. CO-REQUISITE(S): CHE 136. Lab fee.

This course is a continuation of CHE136 covering topics including kinetics, chemical equilibrium in aqueous solution (acids and bases, solubility, complex ion formation), thermodynamics (entropy and free energy), electrochemistry, chemistry of d-block elements and descriptive chemistry. CO-REQUISITE(S): CHE 139.

This laboratory course is a continuation of CHE137, emphasizing additional quantitative and qualitative laboratory techniques to coincide with CHE138 content. CO-REQUISITE(S): CHE 138.

Focuses on the unity of life: its biochemical and cellular makeup and functions, the acquisition and utilization of energy, and the storage and utilization of genetic information. Lecture-laboratory. Lab fee. CO-REQUISITE(S): Recommended: CHE 130 and CHE 131.

Introduction to evolution, ecology, organismal development and diversity. Lecture-laboratory. Lab fee.

Deals primarily with diversity and development within the plant and animal kingdoms including basic principles of physiology. Lecture-laboratory. Lab fee.

Third in a sequence of courses designed to investigate what organic chemistry is and how it works, by emphasizing the relationship between structure and function of organic molecules. Specific topics investigated include the reactivity and synthesis of carbonyl compounds; amines; and bio-molecules. CO-REQUISITE(S): CHE235.

Laboratory to be taken in conjunction with CHE234. CO-REQUISITE(S):CHE 234. Lab fee.

Biology of microorganisms with emphasis on viruses, bacteria, fungi, and protozoa. Lecture-laboratory. Lab fee.

Functions and regulatory mechanisms of vertebrate cells, organs and organ systems with special emphasis on mammals. Lecture-Laboratory. Lab fee.

Structure of the human body with an emphasis on gross anatomy. Lecture-laboratory. Lecture covers human anatomy; laboratory emphasis on feline dissection. Lab fee.