In this video Paul Andersen explains how the center of mass of an object represents the average position of matter in an object. The center of mass of a system is a combination of all the objects within the system. As long as no...

Explore the relationship between force, mass, and acceleration in this quick physics demonstration. See how changes in force and mass affect the acceleration of an object.

This video explains Newton's Second Law of Motion, which states that the amount of force applied to an object affects its speed. Using relatable examples such as Tony pushing a car and a bicycle, as well as pushing empty and full...

This content explains how to determine the net force acting on a particle when its position is given as a time-dependent function. Learn to use differentiation to find velocity and acceleration, then apply Newton's Second Law to...

Net force and acceleration_newton's second law.mp4

This content presents a solved physics problem that calculates the frictional force and acceleration of a 3.5 kg block pushed along a horizontal floor by a 15 N force at a 40° angle to the horizontal. It demonstrates the application of...

This content explains how to calculate the normal force on a box inside an accelerating elevator system using Newton's Laws of Motion. It details how to first determine the system's acceleration from the forces on one cab, then apply...

This content analyzes the normal force on a driver in a car moving at a constant speed over a circular hill and into a valley. By first using the condition of zero normal force at the top of the hill to determine the centripetal force,...

This content provides a step-by-step solution for a physics problem involving a crate pushed at a constant speed up a frictionless inclined plane by a horizontal force. It demonstrates how to apply Newton's Second Law by resolving forces...

This content explores the dynamics of a connected elevator system to calculate the normal force exerted on a box inside one of the accelerating cabs. It demonstrates the application of Newton's Second Law by first determining the...

This content analyzes the motion of a bowling ball as it transitions from sliding to smooth rolling on a lane. It explains the role of kinetic friction in simultaneously causing linear deceleration and angular acceleration. The video...

The kinetic energy of an object is based on the mass of the object and it's velocity. The more mass an object has, the more kinetic energy it has and the faster the object is moving, the more kinetic energy an object has. The formula...

This video explores Isaac Newton's Principia, one of the most significant works in scientific history. Learn how Newton's theories on gravity and his three laws of motion revolutionized our understanding of the universe. Discover how...

Welcome to our AP Physics 1 review session where we tackle three exciting Newton's Second Law multiple-choice problems! Join us as we dive into the world of forces, acceleration, and equilibrium to help you prepare for the upcoming exam....

Learn about Issac Newton 3 laws of motion and physics with Newton's Laws. Brought to you by KLT.

This video is a lesson on free body diagrams. It explains what free body diagrams are, the steps involved in making them, and how to use them to analyze both static and dynamic situations. The lesson also covers how to apply Newton's...

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...

One of the best things about Newton was the way that he showed how natural phenomena abide by rigid mathematical principles. So much so that we can use mathematical equations to calculate how objects will actually behave. This equation,...