An ice block is melting at a constant rate `|(dm)/(dt)|=mu`. Its initial mass is `m_(0)` and it is moving with velocity on a frictionless horizontal surface. The distance travelled by it till it melts completely is :

A block of mass m moving with velocity v_(0) on a smooth horizontal surface hits the spring of constant k as shown. Two maximum compression in spring is

A block of mass m is gently placed over a massive plank moving horizontal over a smooth surface with velocity 10 ms^(-1) . The coefficient of friction between the block and the plank is 0.2. The distance travelled by the block till it slides on the plank is [g = 10 ms^(-2)]

The block shown is moving with constant velocity. Find mu_(k) between the block and the surface.

An inclined plane is moving with Constant velocity v = 4 m//s on a horizoontal surface as shown in figure. If a block of mass 2 kg is kept at top of the incline and their is no friction between the block and the incline, then the distance travelled by the incline till the block reaches bottom of the inclined is (g = 10 m//s^(2))

Two blocks of masses m_(1) =1kg and m_(2) = 2kg are connected by a spring of spring constant k = 24 N/m and placed on a frictionless horizontal surface. The block m_(1) is imparted an initial velocity v_(0) = 12cm/s to the right. The amplitude of osciallation is

A uniform cube of mass m and edge a moves on a horizontal surface along the positive x-axis, with initial velocity v_(0) . Then

A block of mass m starts at rest at height on a frictionless inclined plane. The block slides down the plane, travels across a rough horizontal surface with coefficient of kinetic friction mu and compresses a spring with force constant k a distance x before momentarilly coming to rest. Then the spring extends and the block travels back across the rough surface, sliding up the plane. The block travels a total distance d on rough horizontal surface. The correct experssion for the maximum height h' that the block reaches on its return is :

In the figure shown a cart moves on a smooth horizontal surface due to an external constant force of magnitude F . The initial mass of the cart is M_(0) and velocity is zero. Sand falls on to the cart with negligible velocity at constant rate mu kg//s and sticks to the cart. The velocity of the cart at time t is :

Two blocks m_(1) and m_(2) are connected by a spring of force constant K and are placed on a frictionless horizontal surface. Initially the spring is given extension x_(0) when the sysetem is released from rest, find the distance moved by two blocks before they again comes to rest.