Course Description
Theoretical Content:
Introduction to kinetics, the definition of reaction rates, factors that affect reaction rate, the reaction rate constant, law and order, activation energy, the temperature dependence of rate constants - Arrhenius equation, collision theory - transition state theory, zero, first, second, and third-order reactions, multiple order reactions- it's applications and methods of testing, analysis of kinetic results, parallel reactions, reversible reactions and equilibrium, consecutive reactions, chain reactions and complex reaction mechanisms.
Practical Content:
Calculate the rate, rate constant, half time, and activation energy for reactions with different orders Course Objectives & Outcomes
Objectives:
To determine the kinetics of chemical reactions and predict the mechanism of heterogeneous and homogeneous chemical reactions.
Outcomes:
At the end of this course, the student will be able to:
- State basic terminologies, concepts, and principles in kinetic chemistry
- Utilize basic concepts of mathematics in solving kinetics problems.
- Apply chemical kinetics theories and approximations in determining kinetic parameters and mechanisms of chemical reactions
- Use information technology to write reports and plot kinetics graphs.
- Work effectively and cooperatively as a member of the team
References
- Physical Chemistry, Thomas Engel and Philip Reid, 3rd Edition, Pearson Benjamin Education Inc., 2013, (Chapter 35,36).
- Physical Chemistry, R. Alberty& R. Silby, 2nd ed., 1992, John Wiley and Sons.
- Physical Chemistry, ED3, Andrew Cooksy, chapter13, 14
Course ID: CHEM 302
| Credit hours | Theory | Practical | Laboratory | Lecture | Studio | Contact hours | Pre-requisite | 3 | 2 | 2 | 4 | CHEM 207 + MATH 210 |
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