138.The blocks shown in figure have equal masses. The surface of A is smooth but that of B has a friction coefficient of 0.1 with the floor. Block A is moving at

138.The blocks shown in figure have equal masses. The surface of A is smooth but that of B has a friction coefficient of 0.1 with the floor. Block A is moving at a speed of 10m/s towards B which is kept at rest. Find the distance travelled by B if(a)the collision is perfectly elastic and(b) the collision is perfectly inelastic
138-The blocks shown in figure have equal masses- The surface of A is smooth but that of B has a friction coefficient of 0-1 with the floor- Block A is moving at a speed of 10m-s towards B which is kept at rest- Find the distance travelled by B if-a-the collision is perfectly elastic and-b- the collision is perfectly inelastic

U N 58. The bloch Teached the floor. The blocks shown in figure (9-E19) have equal masses, the surface of A is smooth but that of B has a friction coefficient of

There block A B ,and C of equal mass `m` are placed one over the

The blocks shown in figure (9-E19) have equal masses. The surface

Force & Laws of-motion

The blocks shown in figure (9-E19) hane equal masses - Sarthaks

Sheet - 01 - Laws of Motion, PDF, Friction

Problem F13-6 Dynamics Hibbeler 13th (Chapter 13)

Solved Blocks A and B each have a mass m.(Figure 1) Part A

Three blocks A, B and C are lying on a smooth horizontal surface

A force of 100 N is applied on a mass of 3 kg as shown in the

For the shown situation, collision between blocks A and B is perfectly elastic, then the main stored in the spring in Joules. B 2m/s stromo o hi M smooth

Two blocks shown in figure have equal masses. The surface of A is

WO se d Turm a heap on lule the force exerted by it on the floor When a length x has reached the floor. 58. The blocks shown in figure (9-E19) have

The blocks shown in figure have equal masses. The surface of A is