BIOC
GU4324
Biophysical Chemistry II
Semester: 
Spring 2017
Section Number: 
001
Days of the Week: 
Tuesdays
Fridays
Time: 
4:10pm - 5:25pm
Location: 
320 Havemeyer Hall
Number of Credits: 
4.5
Course Description: 

This course provides a rigorous introduction to the theory underlying widely used biophysical methods, which will be illustrated by practical applications to contemporary biomedical research problems. The course has two equally important goals. The first goal is to explicate the fundamental approaches used by physical chemists to understand the behavior of molecules and to develop related analytical tools. The second goal is to prepare students to apply these methods themselves to their own research projects. The course will be divided into seven modules: (i) solution thermodynamics; (ii) hydrodynamic methods; (iii) statistical analysis of experimental data; (iv) basic quantum mechanics; (v) optical spectroscopy with an emphasis on fluorescence; (vi) nuclear magnetic resonance spectroscopy; and (vii) light-scattering and diffraction methods. In each module, the underlying physical theories and models with be presented and used to derive the mathematical equations applied to the analysis of experimental data. Weekly recitations will emphasize the analysis of real experimental data and understanding the applications of biophysical experimentation in published research papers.

Business Office

Department of Biological Sciences
500 Fairchild Center
Mail Code 2401
Columbia University
1212 Amsterdam Avenue
New York, NY 10027

Academic Office

Department of Biological Sciences
600 Fairchild Center
Mail Code 2402
Columbia University
1212 Amsterdam Avenue
New York, NY 10027
biology@columbia.edu
212 854-4581