Home
Class 11
PHYSICS
Comprehension # 2 When two bodies coll...

Comprehension # 2
When two bodies collide normally they exert equal and opposite impulses on each other. Impulse `=` change in linear momentum. Coefficient of restitution between two bodies is given by :-
`e = |"Relative velocity of separation"|/|"Relative velocity of approach"| = 1`, for elastic collision

Two bodies collide as shown in figure. During collision they exert impulse of magnitude J on each other.
For what value of J (in `N-s` ) the `2 kg` block will change its direction of velocity :-

Promotional Banner

Similar Questions

Explore conceptually related problems

Comprehension # 2 When two bodies collide normally they exert equal and opposite impulses on each other. Impulse = change in linear momentum. Coefficient of restitution between two bodies is given by :- e = |"Relative velocity of separation"|/|"Relative velocity of approach"| = 1 , for elastic collision Two bodies collide as shown in figure. During collision they exert impulse of magnitude J on each other. If the collision is elastic, the value of J is ............. N-s :-

Comprehension # 2 When two bodies collide normally they exert equal and opposite impulses on each other. Impulse = change in linear momentum. Coefficient of restitution between two bodies is given by :- e = |"Relative velocity of separation"|/|"Relative velocity of approach"| = 1 , for elastic collision. Two bodies collide as shown in figure. During collision they exert impulse of magnitude J on each other. If the collision is elastic, the value of J is ............. Ns .

Comprehension # 2 When two bodies collide normally they exert equal and opposite impulses on each other. Impulse = change in linear momentum. Coefficient of restitution between two bodies is given by :- e = |"Relative velocity of separation"|/|"Relative velocity of approach"| = 1 , for elastic collision Two bodies collide as shown in figure. During collision they exert impulse of magnitude J on each other. If the collision is elastic, the value of J is ............. N-s :-

Two bodies collide as shown in the diagram. During the collision , they exert impulse of magnitude J on each other For what values of J(in N s) the 2 kg block will change its direction of velocity ?

If the coefficient of restitution is zero for collision between two bodies then

STATEMENT-1 : In an elastic collision between two bodies, the relative velocity of separation equals relative velocity of approach. and STATEMENT-2 : In a elastic collision , the coefficient of restitution is 1 .

STATEMENT-1 : In an elastic collision between two bodies, the relative velocity of separation equals relative velocity of approach. and STATEMENT-2 : In a elastic collision , the coefficient of restitution is 1 .

The ratio of relative velocity of separation after collision to the relative velocity of approach before collision between two colliding bodies is ____________.

The ratio of relative velocity of separation after collision to the relative velocity of approach before collision between two colliding bodies is ____________.

Show that in a perfectly elastic collision , the relative velocity of seperation after collision is equal to relative velocity of approach before collision .