sylab

The course gives an introduction to the basic principles of physical chemistry with applications to biological systems. Topics include the laws of thermodynamics, phase equilibria, chemical equilibria, chemical reaction kinetics and quantum chemistry.

Line number:	15301
Instructor:	Krzysztof Kuczera, 5090 Malott, phone: 864-5060
	kkuczera@ku.edu
Time & Place:	9:00-9:50 MWF, 120 Snow
Textbook:	P. Atkins and J. de Paula, Physical Chemistry
	for the Life Sciences, W.H. Freeman, 2006.
Discussion meetings:	Wednesdays 2:30-3:20, 1003 Malott
	Thursdays 3:00-3:50, 409 Summerfield
Office hours:	T,W 10:00-11:00 am or by appointment

The overall course grade will be determined by the sum of six components (weights in parentheses): pre-class quizzes (0.15), problem portfolio (0.10), homework (0.25), the average of two hour exam scores (0.25) , the final exam score (0.15) and participation in discussions and problem-solving sessions (0.10).

Quizzes. We will have on-line quizzes on BlackBoard about once a week. The quizzes will cover material needed for the next lecture and will have a deadline 1 hour before start of class. The goal is to keep everybody engaged in reading text and notes, so that more class time may be dedicated to discussion and interactive problem solving.

Reading:I recommended reading the relevant chapters of textbook and Web Lecture Notes both before and after the material is covered in class. In order to better understand the material it is useful to look at alternative presentations of material, such as

0. P. Atkins and J. de Paula, Physical Chemistry for the Life Sciences, W.H. Freeman, 2006, ISBN 0-7167-i8628-1 (class text).

1. Tinoco, Sauer & Wang, Physical Chemistry, Principles and Applications in Biological Sciences, 3 $^{rd}$ Ed. QH345.T56 2002

2. Eisenberg & Crothers, Physical Chemistry with Applications to the Life Sciences. QD453.2E37 1979

Problem solving philosophy:Learning of the complex concepts of physical chemistry cannot be achieved without the experience and insight gained by problem solving. Solutions to sample problems are given in textbook, will be discussed in class, presented on Web site, assigned as homework and covered in discussion sections and in class. Familiarity with the problems covered is ABSOLUTELY NECESSARY for success in the exams. Problem portfolios will be used to help with this.

Problem portfolios: To organize the mass of problems we will be tackling in class, each student will prepare a problem portfolio in a signed 1-3 inch three-ring binder. Enter all examples solved in class, given in lecture notes, as well as solutions to homework and trial exam problems in the portfolio in the following way:

In-class problem solving: Part of Friday lecture will be devoted to problem solving. You will be asked to present one problem in class (or two if time allows) , working in groups of two.

Dates	Topic	Chapter

08/17-08/20	Introduction, Gases	F
08/22-09/07	The First Law & Thermochemistry	1
09/10-09/21	The Second Law & Entropy	2
09/24-09/26	Free energy	2
09/28	Exam #1
10/01-10/05	Phase equilibria of pure substances	3
10/08-10/15	Mixtures	3
10/17-10/31	Chemical Equilibrium	4
11/02	Exam #2
11/05-11/09	Chemical Reaction Kinetics	6
11/12-11/16	Reaction Mechanisms	7-8
11/19-12/05	Introduction to Quantum Mechanics	9

Class website:
Lecture notes, sample problems and sample exams will be on the site
http://oolung.chem.ku.edu/~kuczera/640/640.html
Announcements, quizzes and homeworks will be given both on the site and on BlackBoard.

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Exam #1	September 28
Exam #2	November 2
FINAL	Monday, December 10, 7:30-10:00 am