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Bozeman Science
Kinetic Theory and Temperature
In this video Paul Andersen explains how the macroscopic measure of temperature can be related to the average kinetic energy of molecules in motion. The Boltzmann constant and distribution can be used to calculate the root mean square...
Curated Video
How a Computer Paradox Was Finally Solved: Maxwell's Demon
In this video, we’re exploring the link between information and entropy, by examining a famous thought experiments by James Clerk Maxwell, called Maxwell's demon, which seems to show that entropy can be reversed. In...
Curated Video
How Fundamental Constants Define the Limits of Physics: The Planck Scale
How the Planck scale is derived from the most important fundamental constants in physics. This is where our physics ends. If you wanted to simulate the universe in a computer, you would need to enter...
Curated Video
Unlocking Chemical Kinetics Arrhenius Equation : Exponential Factors
Calculation of Exponential factor using Arrhenius Equation.<b<br/>r/>
Arrhenius Equation - Activation Energy & Temperature part 6
Arrhenius Equation - Activation Energy & Temperature part 6
Professor Dave Explains
The Second Law of Thermodynamics: Heat Flow, Entropy, and Microstates
What the heck is entropy?! You've heard a dozen different explanations. Disorder, microstates, Carnot engines... so many different wordings and interpretations! Really, they are all related, so let's go through a few different...
Bozeman Science
Bozeman Science: Kinetic Theory & Temperature
In the following video Paul Andersen explains how the macroscopic measure of temperature can be related to the average kinetic energy of molecules in motion. The Boltzmann constant and distribution can be used to calculate the root mean...
Khan Academy
Khan Academy: Heat Capacity at Constant Volume and Pressure
Explains the internal energy of a monatomic ideal gas that is under constant volume and pressure, how the internal energy can be changed in lab conditions, and how this affects the work being done. [12:15]