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Lecture
Vibrational Degrees of Freedom in Ozone Decomposition
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Heterogeneous Catalysis: Basics and Kinetics
Covers the basics of heterogeneous catalysis and the importance of transition state theory in predicting reaction rates.
Arrhenius Equation: Kinetics and Equilibrium
Covers the Arrhenius equation and its application to chemical equilibrium, as well as the transition state theory and chemical kinetics principles.
Chain Polymerisation: Mechanism and Kinetics
Explores the mechanism and kinetics of chain polymerisation, focusing on inhibitors and competitive inhibition in enzyme reactions.
Chemical Kinetics: Exercise 1
Covers exercises on dynamics, kinetics, reaction extent, rate constant, and integrated rate law derivation.
Transition-State Theory: Rate Constant Estimation
Discusses transition-state theory for rate constant estimation in chemical reactions, focusing on barrier heights and molecular vibrations.
Dynamics and Kinetics: Transition-State Theory Exercises
Covers exercises on transition-state theory, rate constants, partition functions, and gas-phase reactions.
Chemical Reactions: Affinity and Osmosis
Explores chemical potential, affinity, and osmosis in chemical reactions, emphasizing reaction progress over time.
Chemical Kinetics: Reaction Rates
Explores chemical kinetics, including reaction rates, transition state, and catalysts, emphasizing the impact of concentration and temperature on reaction rates.
Rate Theory: Transition States and Dynamics
Explores rate theory in chemical reactions, covering transition states, tunneling effects, and molecular dynamics.
Enzymes: Basic Concepts and Kinetics
Delves into enzymes' basic concepts, kinetics, and catalytic strategies for reaction acceleration.
