Practice solving for the impulse and force applied during a dodgeball collision using the impulse-momentum theorem.

This equivalence is known as the impulse-momentum theorem. Because of the impulse-momentum theorem, we can make a direct connection between how a force acts on an object over time and the …

Momentum is symbolized as P, where P = MA, or momentum equals mass times acceleration. If the mass, and acceleration are non-zero, then that object has momentum.

Relate a system's change in momentum to the product of the net force exerted on it and the time interval during which the force acts. Explore how the impulse-momentum theorem relates to Newton's …

Overview of key terms and equations related to impulse, including how impulse can be calculated from a force vs. time graph.

Review how both rotating objects and objects with linear momentum can have angular momentum. Recap how torque applied to and object over a time interval can change the angular momentum of …

The total momentum before the collision will still be equal to the total momentum after the collision. This is the conservation of momentum, assuming no energy loss from friction with surface, heat from the …

Impulse is a change in an object's momentum. The impulse experienced by an object is equal to the net force acting on the object multiplied by the length of time the force acts (Δp = ΣFΔt).

Overview of key terms and equations related to impulse, including how impulse can be calculated from a force vs. time graph.

Introducing angular momentum conceptually starting from linear momentum. Also covers some real-life examples.