A block of mass m and `alpha` pan of equal mass are connected by a string going over a smooth light pulley as shown in figure. Initially the system is at rest when a particle of mass m falls on the pan and sticks to it. If the particle strikes the pan with a speed v find the speed with which the system moves just after the collision.

A block of mass m and a pan of equal mass are connected by a string going over a smooth light pulley as shown in figure. Initially the system is at rest when a particle of mass m falls on the pan and sticks to it. If the particle strikes the pan with a speed v find the speed with which the system moves just after the collision.

A block of mass m and a pan of equal mass are connected by a string going over a smooth light pulley as shown in figure. Initially the system is at rest when a particle of mass m falls on the pan and sticks to it. If the particle strikes the pan with a speed v find the speed with which the system moves just after the collision.

A block of mass m and alpha pan of equla mass are connected by a string going over a smooth light pulley as shwon in figure. Initially the systemis at rest when a particle of mass m falls on the pan and sticks to it. If the particle strikes thepan witha speed v find the speed with which the system moves just after the collision.

Two masses m and M(gt m) are joined by a light string passing over a smooth light pulley. The centre of mass of the system moves with an acceleration

Two masses m and M(gt m) are joined by a light string passing over a smooth light pulley. The centre of mass of the system moves with an acceleration

Two blocks of mass M and 2M are connected to the two ends of a light, inextensible string passing over an ideal pulley as shown in figure. The system is released from rest. (a) One second after the system is released, a particle of mass M hits the block of mass M and sticks to it. The particle hits the block with a speed of 10 m/s while travelling downward. Find the total distance travelled by block of mass 2M after it is released. (b) One second after the system is released, a particle of mass 2M hits the block of mass M and sticks to it. The particle hits the block with a speed of 10 m/s while travelling in upward direction. Find distance travelled by the block of mass 2M after it is released to the time it comes to rest for the first time (g = 10 m//s)^(2)

A pan of mass m = 1.5 kg and a block of mass M = 3 kg are connected to each other by a light inextensible string, passing over a light pulley as shown in Fig. Initially, the block is resting on a horizontal floor. A ball of mass m_0 = 0.5 kg collides with the pan at a speed v_0= 20 m//s . Consider this instant of collision as t = 0 . Assume collision to be perfectly inelastic. Now, Fig. answer the following questions based on the above information. Find the velocity of pan + ball system at t = 2.6 s . Assume that the block comes to rest instantaneously after striking the floor.

A pan of mass m = 1.5 kg and a block of mass M = 3 kg are connected to each other by a light inextensible string, passing over a light pulley as shown in Fig. Initially, the block is resting on a horizontal floor. A ball of mass m_0 = 0.5 kg collides with the pan at a speed v_0= 20 m//s . Consider this instant of collision as t = 0 . Assume collision to be perfectly inelastic. Now, Fig. answer the following questions based on the above information. Find the velocity of pan + ball system at t = 2.6 s . Assume that the block comes to rest instantaneously after striking the floor.

A pan of mass m = 1.5 kg and a block of mass M = 3 kg are connected to each other by a light inextensible string, passing over a light pulley as shown in Fig. Initially, the block is resting on a horizontal floor. A ball of mass m_0 = 0.5 kg collides with the pan at a speed v_0= 20 m//s . Consider this instant of collision as t = 0 . Assume collision to be perfectly inelastic. Now, Fig. answer the following questions based on the above information. Find the time t at which the block strikes the floor for the first time