Virtually Passed
Relative acceleration (with rotating axes) Proof
If the relative axes xy aren't rotating (w=0) then the acceleration equation becomes Aa = Ab + Aa/b However, in general, relative reference axes can rotate and the following relative acceleration equation becomes Aa = Ab + Arel + Ap/b +...
Flipping Physics
Understanding the Range Equation of Projectile Motion
The Horizontal Range of a Projectile is defined as the horizontal displacement of a projectile when the displacement of the projectile in the y-direction is zero. This video explains how to use the equation, why a launch angle of 45°...
Schooling Online
Physics Kinematics: Motion in a Straight Line - Vector Multiplication and Division
After his latest defeat, Vector Man is overdue for some rest and relaxation. He hangs his cape, kicks up his feet and plays Tunnelcraft. This lesson will explain the principles behind graphically and algebraically multiplying and...
Flipping Physics
Do You Feel Your Weight?
No. You do not feel your weight. You feel the force normal acting on you. This video shows why and demonstrates what you feel on an elevator.
Flipping Physics
The Drop and Upward Throw of a Ball are Very Similar
Previously we determined the motion graphs for dropping a ball from 2.0 meters and throwing a ball up to 2.0 meters and catching it again. In this video I show that the reverse of the drop coupled with the drop itself is the same thing...
Flipping Physics
Introductory Rotational Equilibrium Problem
A uniform 0.093 kg meterstick is supported at the 15 cm and 92 cm marks. When a 0.250 kg object is placed at the 6.0 cm mark, what are the magnitudes of the forces supporting the meterstick?
Curated Video
Using the Equation for Velocity, Acceleration, and Distance Without Time
The video demonstrates how to use an equation for finding the initial and final velocities of an object, its acceleration, and the distance traveled during that acceleration without any reference to time. The equation is explained, and...
Flipping Physics
Angular Acceleration Introduction
Angular acceleration is introduced by way of linear acceleration. The units of radians per second squared are discussed. Examples of objects which angular acceleration are shown.
DoodleScience
Circular Motion _ A-Level Physics
A Level Physics - Doodle Science teaches you high school and College physics in a less boring way in almost no time!
KnowMo
Understanding Contextual Graphs: Distance, Velocity, and Financial Graphs
This video is a tutorial on contextual graphs. The speaker explains the different types of graphs and their uses, including distance-time graphs, velocity-time graphs, and financial graphs. They explain how each type of graph can be used...
Programming Electronics Academy
Ep. 9: A Talk with William Osman, mechanical engineer and YouTuber
This week Michael sits down with Mechanical Engineer and Youtube sensation William Osman to talk about a few of the projects he's developed using Arduino. William talks about how his desire to build a Motion Control System got him...
Brian McLogan
Learn how to find the position function given the velocity and acceleration, parti
👉 Learn how to approximate the integral of a function using the Reimann sum approximation. Reimann sum is an approximation of the area under a curve or between two curves by dividing it into multiple simple shapes like rectangles and...
TMW Media
Physics Power: Solving a problem, Part 1
Given certain parameters, how would you solve the first part of this problem? Physics Power, Part 2
Schooling Online
Physics Kinematics: Motion in a Straight Line - Measuring Gravity Part 1
Black Friday is normally celebrated with sales and shopping sprees, but this year, someone is tinkering underground. Will Mark, Georgie and Lotus discover Lexi Luthor’s lair? This lesson will introduce a simple experiment to measure the...
Flipping Physics
Throwing a Ball up to 2.0 Meters & Proving the Velocity at the Top is Zero - An Introductory Free-Fall Acceleration Problem
In the previous lesson we dropped a ball from 2.0 meters above the ground and now we throw one up to a height of 2.0 meters. We do this in order to understand the similarities between the two events. Oh, and of course we draw some...
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...
Physics Girl
How tall is this building?
What happens when you keep building a skyscraper higher and higher? You may run into some problems with the laws physics. The higher you build, the faster the top of the building moves around the earth, and you end up with strong...
Schooling Online
Physics Kinematics: Motion in a Straight Line - Misunderstanding Acceleration
As the city gets devoured by the sinkhole, Vector Man investigates its suspicious origin. Does he have enough time to salvage the evidence? This lesson will debunk the most commonly held misconceptions about acceleration. Definitions...
TMW Media
Newton's Laws Of Motion With Friction: Solving another problem
Given certain parameters, how would you solve this problem?
Newton's Laws Of Motion With Friction, Part 4
Flipping Physics
AP Physics 1: Review of Universal Gravitation
Review of the Universal Gravitation topics covered in the AP Physics 1 curriculum.
Catalyst University
Physical Differentials (2 of 2): Coulombic Transformations
Physical Differentials (2 of 2): Coulombic Transformations
Flipping Physics
Placing the Fulcrum on a Seesaw
A 200.0 g mass is placed at the 20.0 cm mark on a uniform 93 g meterstick. A 100.0 g mass is placed at the 90.0 cm mark. Where on the meterstick should the fulcrum be placed to balance the system?
Tarver Academy
How to Solve for a Variable
In This Episode, Tyler Teaches Us About How to Solve for a Variable
Curated Video
Inertia: Understanding and Calculating Inertial Mass
This video explains the concept of inertia and how it is quantified in terms of an object's mass and acceleration. The video uses examples of cars and lorries to demonstrate how larger masses require greater forces to be accelerated at...