Question

How does bouncing affect impulse?

Answer 1

Hint : Impulse is that the integral of a force, F, over the interval , t, that it acts. Since force may be a vector quantity, impulse is additionally a vector quantity. Impulse applied to an object produces the same vector change in its linear momentum, also within the resultant direction.

Complete Step By Step Answer:
Collisions during which objects rebound with an equivalent speed (and thus, an equivalent momentum and kinetic energy) as that they had before the collision are referred to as elastic collisions. generally , elastic collisions are characterized by an outsized velocity change, an outsized momentum change, an outsized impulse, and an outsized force.
Observe that every of the collisions above involve the rebound of a ball off a wall. Observe that the greater the rebound effect, the greater the acceleration, momentum change, and impulse. A rebound may be a special sort of collision involving a direction change additionally to a speed change.
The results of the direction change may be a large velocity change. On occasions during a rebound collision, an object will maintain an equivalent or nearly an equivalent speed because it had before the collision.
And since the 2 balls have an equivalent mass, the rebounding collision also will have the greater momentum change. In any collision, the momentum change is adequate to the impulse. So if the rebounding collision has the greater momentum change, it'll even have the greater impulse.

Note :
The impulse experienced by the thing equals the change in momentum of the thing . In equation form, F • t = m • Δ v. during a collision, objects experience an impulse; the impulse causes and is adequate to the change in momentum.