Professor Dave Explains
Practice Problem: E2 on Cyclic Systems and Cyclohexane Chairs
For this one we will want to recall some of the rules about doing E2 on a cyclohexane ring, as well as the relative stabilities of cyclohexane chairs. Combining concepts! Predicting kinetics!
Catalyst University
Isobaric Expansion Coefficient and Isothermal Compressibility
Isobaric Expansion Coefficient and Isothermal Compressibility
Professor Dave Explains
Practice Problem: Energy Diagrams
For this one we need to understand what the different parameters on an energy diagram correspond to. Check out my tutorial on this subject in the general chemistry playlist if it seems fuzzy!
Professor Dave Explains
Practice Problem: Calculating Equilibrium Concentrations
We know how to write equilibrium constant expressions for any equilibrium, and we know that they relate the equilibrium constant to the equilibrium concentrations for all of the substances in the system. Let's see if we can calculate a...
Professor Dave Explains
Practice Problem: Initial Rates and Rate Laws
To figure out the rate law for a reaction, we have to gather kinetic data. We can't know just by looking at the balanced equation. Let's practice using initial rates data to determine the rate law for a reaction!
Catalyst University
Catalytic Hydrogenation: Theory, Mechanism, and Examples
Catalytic Hydrogenation: Theory, Mechanism, and Examples
Catalyst University
Irreversible Inhibition: A Mechanistic Approach
Irreversible Inhibition: A Mechanistic Approach
Catalyst University
Lineweaver-Burke Plot Example with y=mx+b
Lineweaver-Burke Plot Example with y=mx+b
Catalyst University
Proteins and Enzymes for Anatomy and Physiology
Proteins and Enzymes for Anatomy and Physiology
Catalyst University
Partial Derivatives: Total Differentials
Partial Derivatives: Total Differentials
Professor Dave Explains
Kinetics: Initial Rates and Integrated Rate Laws
Who likes math! Oh, you don't? Maybe skip this one. Unless you have to answer this stuff for class. Then yeah, watch this.
Crash Course
Kinetics: Chemistry's Demolition Derby
Make kinetics interesting with a video that compares kinetics to a demolition derby. The presentation information about collisions, activation energy, writing rate laws, equilibrium expressions, reaction mechanisms, and...
Khan Academy
Introduction to Kinetics, Energy and Enzymes, Biology
The focus of this chemistry video is kinetics, which is the study of precisely what happens to compounds when they react together. Specifically, kinetics is the study of the rate of chemical reactions and the forces that affect that...
Domain of Science
The Map of Chemistry
Many people study for years to understand even a subsection of chemistry, yet an informative video attempts to cover all of chemistry in 12 minutes. It starts with atoms and elements and moves through bonding, reactions, energy, and...
Crash Course
Kinetic Theory and Phase Changes: Crash Course Physics #21
Things get heated in a physics video on Kinetic Theory! The 21st lesson in a Crash Course playlist explains Kinetic Theory in relation to phase change. As the heat in a system changes, the motion of the particles also changes. The...
Khan Academy
Khan Academy: Second Order Reaction (With Calculus)
Understand the process of deriving the integrated rate law for second order reactions using calculus. Know how to graph second order rate data to see a linear relationship. [7:09]
Khan Academy
Khan Academy: Half Life of a Second Order Reaction
Recognize how to derive half-life equation of a second-order reaction starting from the integrated rate law. [7:04]
Khan Academy
Khan Academy: Second Order Reaction Example
Review this example of using integrated rate law to solve for concentration, and calculating the half-life for a second-order reaction. [8:03]
Khan Academy
Khan Academy: Collision Theory
An introduction to collision theory and activation energy is presented. [8:42]
Khan Academy
Khan Academy: Introduction to Kinetics
Kinetics, activation energy, activated complex and catalysts are all presented in this video. [15:22]
Bozeman Science
Bozeman Science: Kinetic Reaction Control
In this video Paul Andersen explains how a spontaneous process may take either the thermodynamically controlled or the kinetic controlled pathway. If the activation energy determines the path taken then the process is under kinetic...