Lecture

Chemical Sensors: Operation & Applications

Related lectures (32)

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.

Chemical Reactions: Affinity and Osmosis

Explores chemical potential, affinity, and osmosis in chemical reactions, emphasizing reaction progress over time.

Solutions: Concentration and Enthalpy

Explores solutions, concentration units, enthalpy of dissolution, reaction kinetics, and factors affecting reaction rates.

Chemical Kinetics: Reaction Rates

Explores chemical kinetics, including reaction rates, transition state, and catalysts, emphasizing the impact of concentration and temperature on reaction rates.

Chemical Kinetics: Reaction Rates and Mechanisms

Explores chemical kinetics, covering reaction rates, mechanisms, and factors influencing reaction speeds.

Chemical Kinetics: Fundamentals and Applications

Explores the fundamentals of chemical kinetics, reaction orders, half-lives, and contaminant concentration prediction in environmental engineering applications.

Enzymes: Catalysts and Classification

Explores enzymes' catalytic power, specificity, and classification based on reaction type, as well as the relationship between equilibrium constants and free energy changes.

Chemical Kinetics: Reaction Mechanisms

Explores reaction mechanisms, rate laws, and reaction kinetics in chemical reactions.

Chemical Kinetics: Reaction Rates

Explores chemical kinetics, reaction rates, speed laws, and activation energy in various reactions.

Enzymes: Basic Concepts and Kinetics

Delves into enzymes' basic concepts, kinetics, and catalytic strategies for reaction acceleration.

Chemical Kinetics: Elementary Reactions and Reaction Rates

Explores chemical kinetics, reaction rates, reaction orders, rate constants, and enzymatic catalysis.

Vibrational Degrees of Freedom in Ozone Decomposition

Explores the probability of different quanta levels in ozone's vibrational degrees of freedom and the estimation of rate constants in chemical reactions.

Chemical Kinetics: Reaction Rates and Mechanisms

Explores chemical kinetics, covering reaction rates, mechanisms, rate laws, reaction orders, temperature influence, and catalysis.

Rate Theory: Transition States and Dynamics

Explores rate theory in chemical reactions, covering transition states, tunneling effects, and molecular dynamics.

Chemical Equilibrium: Principles and Applications

Explores chemical equilibrium principles, including Le Châtelier's Principle and equilibrium constants, and discusses the influence of temperature, pressure, and concentration on equilibrium shifts.

Chemical Reaction Engineering

Covers problem-solving algorithms in chemical reaction engineering, including mole balance equations, rate laws, stoichiometry, and reactor design equations.

Chemical Kinetics: Basics

Introduces reaction orders, rate laws, and temperature influence in chemical kinetics.

Mixing and Chemical Reactions

Explores the impact of scale on process efficiency, the coupling of characteristic times, and the effect of segregation on reaction rates.

Electronic Effects in Hydrolysis

Explores electronic effects in hydrolysis reactions and the influence of substituents on compound reactivity.