Listed in: Chemistry, as CHEM-361
Jacob H. Olshansky (Sections 01, 01L and 02L)
The thermodynamic principles and the concepts of energy, entropy, and equilibrium introduced in CHEM 161/165 will be expanded. Statistical mechanics, which connects molecular properties to thermodynamics, will be introduced. We will spend significant time constructing, analyzing, and interpreting microscopic models of matter and will use these models to understand our macroscopic world. Examples will be drawn from chemistry, biology, and nanoscience and include non-ideal gases, solid-state materials, phase transitions, phase equilibria in multicomponent systems, properties of solutions, protein folding, and ligand binding. Appropriate laboratory work is provided. Three hours of class and four hours of laboratory per week.
Requisite: CHEM 161 or 165, PHYS 116 or 123, and MATH 121. MATH 211 is recommended. Limited to 30 students.
Spring semester: Professors Leung and Marshall.
How to handle overenrollment: Preference given to Amherst College chemistry majors, others by class year.
Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Students will engage in low stakes group activities, problem solving (both quantitative and qualitative), laboratory work, and will be expected to attend lecture. Students will be assessed via weekly problem sets, formal laboratory reports, exams, participation, and a final oral presentation.
This is preliminary information about books for this course. Please contact your instructor or the Academic Coordinator for the department, before attempting to purchase these books.
|All||Molecular Driving Forces: Statistical Thermodynamics in Biology, Chemistry, Physics, and Nanoscience, 2nd Edition||copyright 2011 by Garland Science, Taylor & Francis Group, LLC||Ken Dill and Sarina Bromberg||TBD|