All of the required or optional courses for the chemistry immersion are core chemistry courses within the chemistry curriculum.
Notes about this immersion:
This immersion is closed to students majoring in biochemistry, biology, biotechnology and molecular bioscience, chemical engineering, chemistry, and the environmental chemistry concentration of the environmental science major.
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This is a general chemistry course for students in the life and physical sciences. College chemistry is presented as a science based on empirical evidence that is placed into the context of conceptual, visual, and mathematical models. Students will learn the concepts, symbolism, and fundamental tools of chemistry necessary to carry on a discourse in the language of chemistry. Emphasis will be placed on the relationship between atomic structure, chemical bonds, and the transformation of these bonds through chemical reactions. The fundamentals of organic chemistry are introduced throughout the course to emphasize the connection between chemistry and the other sciences.
General and Analytical Chemistry II
The course covers the thermodynamics and kinetics of chemical reactions. The relationship between energy and entropy change as the driving force of chemical processes is emphasized through the study of aqueous solutions. Specifically, the course takes a quantitative look at: 1) solubility equilibrium, 2) acid-base equilibrium, 3) oxidation-reduction reactions and 4) chemical kinetics.
General Chemistry for Engineers
This rigorous course is primarily for, but not limited to, engineering students. Topics include an introduction to some basic concepts in chemistry, stoichiometry, First Law of Thermodynamics, thermochemistry, electronic theory of composition and structure, and chemical bonding. The lecture is supported by workshop-style problem sessions. Offered in traditional and online format.
An accelerated entry-level course designed for chemistry and biochemistry majors. Topics include measurement, atomic theory, chemical bonding and structure, stoichiometry, equilibrium and acid-base chemistry.
Organic Chemistry I
This course is a study of the structure, nomenclature, reactions and synthesis of the following functional groups: alkanes, alkenes, alkynes. This course also introduces chemical bonding, IR and NMR spectroscopy, acid and base reactions, stereochemistry, nucleophilic substitution reactions, and alkene and alkyne reactions. In addition, the course provides an introduction to the use of mechanisms in describing and predicting organic reactions.
Choose two of the following:
This course will introduce students to quantitative methods. The course will cover gravimetric techniques, equilibria, statistical methods, and solution chemistry. In addition, equilibrium for polyprotic acids, electrochemistry and potentiometry will be discussed.
This course presents a preliminary treatment of instrumental theory and technique. The course will cover the theory and implementation of spectroscopic, mass spectrometric, and chemical separations instrumentation and techniques. Instrumental techniques include: atomic and molecular emission and absorption and emission spectroscopies, atomic and molecular mass spectrometry, gas chromatography, and high performance liquid chromatography.
This course introduces the structure and function of biological macromolecules and their metabolic pathways. The relationship between the three-dimensional structure of proteins and their function in enzymatic catalysis will be examined. Membrane structure and the physical laws that apply to metabolic processes will also be discussed.
Descriptive Inorganic Chemistry
This course covers descriptive inorganic reactions in terms of periodic trends. Topics will include nucleosynthesis and the birth of the universe, applications used in large-scale industrial processes and their environmental impacts, nanostructured materials, and bonding theory will also be discussed. A detailed study of solid-state chemistry and structure will also be addressed.
Organic Chemistry II
This course is a continuation of the study of the structure, nomenclature, reactions and synthesis of the following functional groups: aromatic systems, alcohols, ethers, epoxides, and carbonyls. This course will introduce the use of mechanisms in describing and predicting organic reactions.