TMW Media
Equations Of Motion In One Dimension: Solving a problem
Given certain parameters, how would solve this given problem? Equations Of Motion In One Dimension, Part 2
ACDC Leadership
Quantity Theory of Money - Macro 2.5
Join the hundreds of thousands of students that have used Mr. Clifford's videos and resources to ace your macroeconomics course.
Schooling Online
Physics Kinematics: Motion in a Straight Line - Relative Velocity in 2D
Princess Lotus and Markio battle for 1st place – until the game is interrupted by an unexpected visitor. This lesson will show you how to solve 3 common types of 2D relative velocity questions.
Definitions included: frame of reference,...
Virtually Passed
Polar Coordinates Example 1
Here we solve for the speed of a plane using polar coordinate formulas.
Virtually Passed
Velocity Vector Summary
Velocity is a vector that describes the speed of a particle and the direction it's moving. The velocity of the particle will always be tangential to the path the particle is traveling and is described by speeds in the x, y and z...
Flipping Physics
Introductory Perfectly Inelastic Collision Problem Demonstration
A perfectly inelastic collision is demonstrated and analyzed.
Science360
Kinematics - Science of NFL Football
In this segment, NBC's Lester Holt and former NFL running back Deuce McAllister explore kinematics on the playing field. NSF-funded scientists Tony Schmitz from the University of Florida and John Ziegert of Clemson University explain how...
TMW Media
Scalers and Vectors: Adding and subtracting vectors
Explain how to add and subtract vectors. What is a newton? Scalers and Vectors, Part 2
FuseSchool
Acceleration
"DESCRIPTION In this video, we’re going to look at different types of acceleration and compare acceleration in different experiences. You will learn that acceleration is the rate at which an object changes its speed. 2 factors affect it...
Curated Video
Introduction to Quantities and Equations in Motion
The video discusses the various quantities associated with motion, including distance, displacement, speed, velocity, and acceleration. It explains the differences between scalar and vector quantities and provides examples to demonstrate...
Flipping Physics
Introductory Elastic Collision Problem Demonstration
An elastic collision is demonstrated and analyzed.
KnowMo
Understanding Velocity Time Graphs: Calculating Acceleration and Distance Traveled
This video is a lecture presentation on velocity time graphs. The presenter shows a graph with velocity on the Y-axis and time on the X-axis and explains the key characteristics of the graph, including constant acceleration and...
Zach Star
An unexpected application of the harmonic series
An unexpected application of the harmonic series
Flipping Physics
Angular Velocity Introduction
The equation for average angular velocity is presented in relation to the equation for average linear velocity. Radians per second and revolutions per minute are discusses as the units for angular velocity. Objects which have angular...
Mazz Media
Reviewing Centrapetal Force and Circular Motion
What are the force and acceleration vectors that are involved in centripetal acceleration? Using live action real world events and animated diagrams, this program explores this and other questions related to centripetal force and...
FuseSchool
Balanced & Unbalanced Forces
Balanced & Unbalanced Forces | Forces & Motion | Physics | FuseSchool How do we find out whether the forces acting on an object are balanced or unbalanced? Learn in this video from the "Forces and Motion" chapter of the FuseSchool GCSE /...
DoodleScience
Circular Motion _ GCSE Physics
Circular motion is quite self-explanatory really; it’s simply the physics behind things moving in circles. When something moves in a circle it’s velocity is constantly changing, even if its speed is constant. This is because velocity is...
Flipping Physics
Introduction to Conservation of Momentum with Demonstrations
Demonstrations of and Introduction to Conservation of Momentum
Flipping Physics
Introduction to Power
Mr.P introduces power which equals work divided by change in time and it also equals force times velocity times cosine theta.
Flipping Physics
Wave Speed Equation Derivation and Demonstration
The equation for the speed of a wave is derived. The fact that amplitude, frequency, and wavelength do not affect wave speed is demonstrated. Two different solutions for wave speed are demonstrated.
Professor Dave Explains
Understanding Differentiation Part 2: Rates of Change
Conceptualizing differentiation using the rates of change.
TMW Media
Velocity and Acceleration In One Dimension: Average acceleration
What is acceleration? Learn how to calculate the average acceleration of an object.
Velocity and Acceleration In One Dimension, Part 4