Virtually Passed
Conservation of Energy Part 5: Mechanical Energy and Conservative and non Conservative forces
Here I pool the results of all the previous videos together to get a fascinating result - the conservation of Mechanical Energy
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!
Professor Dave Explains
Practice Problem: Pendulum Velocity
Now you're really getting advanced with your building skills. Check out this pendulum. It's a good thing we know about potential energy and kinetic energy, because that will allow us to calculate the velocity of the pendulum at any...
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: Hydrogenation, Isomerism, and Cyclohexane Chairs
For this one we need to understand the stereospecificity of hydrogenation over platinum metal, stereochemical relationships, and the relative stability of cyclohexane chair conformations.
Professor Dave Explains
Practice Problem: Kinetic and Potential Energy of a Ball on a Ramp
Look at this nifty ramp you made! Let's roll some stuff off of it, shall we? Good thing we know all about potential energy and kinetic energy, because that will allow us to calculate all kinds of things, like the velocity of the ball at...
Professor Dave Explains
Practice Problem: Launching Things With Springs
You're a mischievous little physicist, aren't you? Well I guess there's no harm in projecting a toy into the air, especially if it's part of your scientific research. Given a spring constant and some other information, how high will this...
Professor Dave Explains
Practice Problem: Newman Projections of Conformational Isomers
Spin that sigma bond and what do you get? Draw the Newman projections and find out! Watch out for pesky gauche interactions.
Catalyst University
Particle in a Finite Potential Well: Quantum Tunneling
Particle in a Finite Potential Well: Quantum Tunneling
Wonderscape
Science Kids: Physics of Roller Coasters
In this video, the teacher explains the physics behind roller coasters and how engineers design and build them. Topics covered include gravitational potential energy, kinetic energy, conservation of energy, friction, acceleration, and...
Zach Star
Curves we (mostly) don't learn in high school (and applications)
Curves we (mostly) don't learn in high school (and applications)
Curated Video
Energy Transfers and Transformations in Different Systems
This video discusses energy transfers within different systems. It provides five examples, including the energy transfer when a ball is projected vertically upwards, when a moving object hits an obstacle, when brakes are applied to slow...
Mazz Media
Introduction to Thermochemistry
This video begins with real world examples of heat transfer involving energy changes from chemical potential energy. The program shows exothermic reactions which occur such as a gasoline engine, wood on a campfire and athletes running....
Professor Dave Explains
Conformational Analysis of Ethane and Butane - Newman Projections
Looking at the conformations of ethane and butane and their relative energies, as well as how to draw Newman projections.
Flipping Physics
Deriving the Binding Energy of a Planet
Binding energy of a planet is defined and derived.
Flipping Physics
Conservative and Nonconservative Forces
Conservative and Nonconservative forces are defined and many demonstrations are analyzed to determine which forces are conservative and which are nonconservative. Want Lecture Notes? http://www.flippingphysics.com/force-... This is an...
Professor Dave Explains
The Quantum Harmonic Oscillator Part 1: The Classical Harmonic Oscillator
For our third quantum problem we will visit harmonic oscillators. In a classical setting, this is like the ball on a spring we examined when learning about Hooke's law in the classical physics series. But this has quantum application as...
Flipping Physics
Simple Harmonic Motion - Graphs of Mechanical Energies
Kinetic energy and elastic potential energy as functions of time graphs for a horizontal mass-spring system in simple harmonic motion are demonstrated. Conservation of energy is shown.
Virtually Passed
Derivation of Pendulum equations method 1
Derivation of Pendulum equations method 1
Neuro Transmissions
What Is Energy?
Energy is vital to powering our brains, our bodies, and our entire universe. Find out a little more about the different kinds of energy and how they impact your on a daily basis.
DoodleScience
Heat and Thermodynamics _ A-Level Physics
A Level Physics - Doodle Science teaches you GCSE and A Level physics in a less boring way in almost no time!
Flipping Physics
Electric Potential - Review for AP Physics C: Electricity and Magnetism
AP Physics C: Electricity and Magnetism review of Electric Potential including: derivation of electric potential energy, derivation of electric potential and electric potential difference, a discussion of the electronvolt, electric...