Flipping Physics
Simple Pendulum - Simple Harmonic Motion Derivation using Calculus
Calculus is used to derive the simple harmonic motion equations for a simple pendulum. Equations derived are position, velocity, and acceleration as a function of time, angular frequency, and period. This is an AP Physics C: Mechanics...
Virtually Passed
Relative Motion with rotating axes example 1
The relative velocity equation for a object with rotating reference axes is: Va = Vb + Vrel + Vp/b This problem can be solved graphically by calculating lengths of the triangle that forms these vectors, or analytically by deconstructing...
Australian Broadcasting Corporation
Back To The Moon: The Falcon 9 launch
After a quiet half a century since the last Apollo mission landed on the moon, Associate Professor Alan Duffy takes us inside the new space race. The second space race has begun! Watch as Elon Musks Space X launches the Falcon 9 into...
Curated Video
Orbits and Satellites: Understanding How Objects Move in Space
This video explains how objects orbit other objects in space, with a focus on natural and artificial satellites. The video starts by discussing Earth's orbit around the sun and how the gravitational force of the sun causes the Earth to...
Curated Video
Introduction to Kinetic Energy and How to Calculate It
The video is a lecture on the topic of kinetic energy, discussing what it is and how to calculate it. The lecturer uses examples, such as a car and a football, to explain the equation for calculating the kinetic energy of an object. The...
Catalyst University
Physical Differentials (1 of 2): Newtonian Transformations
Physical Differentials (1 of 2): Newtonian Transformations
Flipping Physics
System of Particles Translational Motion
For a system of particles in translational motion, we determine the position, velocity, acceleration, linear momentum, and net force. Content Times: 0:00 x, y, and z position 1:32 r position 5:50 velocity 6:44 linear momentum 7:26...
Flipping Physics
Angular Momentum of Particles Introduction
The equation for the #AngularMomentum of a #PointParticle is built and visualized. Proof a point particle can have angular momentum is shown. The right-hand rule for angular momentum direction is shown.
Science360
Science of the Winter Olympics - Slapshot (Hockey)
One of the most popular team sports in the Winter Olympics is hockey. More than just a physical game, for scientists, it's a showcase for physics on ice--especially when it comes to the slapshot. Three-time Olympian Julie Chu, Thomas...
Flipping Physics
Graphing the Drop of a Ball from 2.0 Meters - An Introductory Free-Fall Acceleration Problem
This video continues a problem we already solved involving dropping a ball from 2.0 meters. Now we determine how to draw the position, velocity and acceleration as functions of time graphs.
Brian McLogan
What is the velocity of the particle at a given time from graph
motion problems are usually modeled using functions. Now, when the function modeling the position of the particle is given with respect to the time, we find the speed function of the particle by differentiating the function representing...
Brian McLogan
Explaining position velocity and acceration definitions
π Learn how to solve particle motion problems. Particle motion problems are usually modeled using functions. Now, when the function modeling the position of the particle is given with respect to the time, we find the speed function of...
Brian McLogan
Find the average acceleration of a ball falling
π Learn how to solve particle motion problems. Particle motion problems are usually modeled using functions. Now, when the function modeling the position of the particle is given with respect to the time, we find the speed function of...
Flipping Physics
Introduction to Projectile Motion
My strategy for solving any projectile motion problem. You need to split the variables in to the x and y directions and solve for time. Sounds simple and it really is, usually.
Brian McLogan
Explaining position velocity and accelration definitions
π Learn how to solve particle motion problems. Particle motion problems are usually modeled using functions. Now, when the function modeling the position of the particle is given with respect to the time, we find the speed function of...
Brian McLogan
How to find the height of a ball and time it takes using velocity
π Learn how to solve particle motion problems. Particle motion problems are usually modeled using functions. Now, when the function modeling the position of the particle is given with respect to the time, we find the speed function of...
Curated Video
GCSE Secondary Maths Age 13-17 - Graphs: Speed/Time Graph - Explained
SchoolOnline's Secondary Maths videos are brilliant, bite-size tutorial videos delivered by examiners. Ideal for ages 13-17, they cover every key topic and sub topic covered in GCSE Maths in clear and easy to follow steps. This video...
Let's Tute
Introduction to Kinetic and Potential Energy
In this video, the teacher explains the concepts of kinetic and potential energy, specifically focusing on gravitational potential energy. They use examples and a simulator to demonstrate how potential energy is converted into kinetic...
TMW Media
Momentum And Impulse: Impulse
What is an impulse? Why should force be averaged when applied in an equation? Momentum And Impulse, Part 2
Flipping Physics
The Humility Soapbox β Uniformly vs. Uniformally
This is much more personal than my average video. I talk about my spelling inadequacies. (yes, i just spelled inadiquacies incorrectly, spell check fixed it, arg.) I use it as a tool to talk about admitting you don't understand as an...
FuseSchool
Circular Orbits
CREDITS Animation & Design: Joshua Thomas jtmotion101@gmail.com Narration: Dale Bennett Script: Bethan Parry In this video weβre going to look at circular orbits of planets, velocity, speed and orbit radius. As well as the difference...
Brian McLogan
Determine when a particle is moving down from a position graph
π Learn how to solve particle motion problems. Particle motion problems are usually modeled using functions. Now, when the function modeling the position of the particle is given with respect to the time, we find the speed function of...