CH-310: Dynamics and kinetics

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Lectures in this course (53)

Chemical Kinetics: Lindemann-Hinshelwood Mechanism

Explains the Lindemann-Hinshelwood mechanism in chemical kinetics and the concept of a transition state on a potential energy surface.

Center of Mass in Kinetics

Explains the composition of total kinetic energy and the concept of collision in kinetics.

Center of Mass Coordinates

Discusses center of mass coordinates, collision rates, effusion, and molecule behavior.

Enzymatic Catalysis & Inhibition

Explores enzymatic catalysis mechanisms and inhibition dynamics in catalysis and polymerization.

Stochastic Method: Kinetics Modeling

Covers the stochastic method for kinetics modeling and the probability of reactions.

Reaction Rate Kinetics Theory

Covers Reaction Rate Kinetics Theory, transition state theory, and thermo-dynamic formulation.

Reactive Hard Spheres

Covers the concepts of differential cross section and deflection function in reactive hard spheres.

Reactive Hard Spheres: Kinetics and Scattering

Explores reactive hard spheres' dynamics, kinetics, and classical scattering of particles.

Dynamics & Kinetics: Center of Mass and Reactive Hard Spheres

Covers the center of mass concept and reactive hard spheres analysis.

Polymerization Kinetics

Explores polymerization kinetics, focusing on initiation, propagation, and termination steps in polymerization reactions.

Enzyme Inhibition: Mechanisms and Kinetics

Explores enzyme inhibition mechanisms, including competitive, uncompetitive, and mixed inhibition, as well as autocatalysis and their impact on enzyme kinetics.

Lennard-Jones Potential: Trajectories and Deflection Function

Covers the Lennard-Jones potential, trajectories, deflection functions, and differential cross section.

Reactive Hard Spheres Model

Discusses the reactive hard spheres model, collision cross sections, reaction cross sections, and two-body classical scattering.

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