With what minimum velocity should be projected from left end A toward end B such that it reaches the other end B of conveyer belt moving with constant velocity v The friction coefficient between block and belt is `mu`

A conveyed belt of length lis moving with velocity v.a block of mass is pushed against the motion of conveyed belt with velocity v_(0) form end B Co- efficient of friction between block and belt is u the value of v_(0) so that the amount of heat liberated as a result of retardation of the block by conveyed belt is maximum is

In the arrangement shown, end A of light intextensible string is pulled with constant velocity v. the velocity of block B is

Block B moves to the right with a constant velocity v_(0) . The velocity of body A relative to B is :

A block lying on a long horizontal conveyer belt moving at a constant velocity receives a velocity v_(0) = 5m//s relative to the ground in the direction opposite to the direction of motion of the conveyer. After t = 4s , the velocity of the block becomes equal to the velocity of the belt. The coefficient of friction between the block and the belt is mu = 0.2 . Determine the velocity v of the conveyer belt.

Figure. shows a rough horizontal plane which ends in a vertical wall, to which a spring is connected, having a force constant k. Initially spring is in its relaxed state. A block of mass m starts with an initial velocity u towards the spring from a distance l_(0) from the end of spring shown. When block strikes at the end ofthe spring, it compresses the spring and comes to rest. Find the maximum compression in the spring. The friction coefficient between the block and the floor is mu ..

A long conveyer belt moves with a constant velocity of 8 ms^(-1) .Two blockA and B each of mass 2kg are placed gently on the belt with B on A, initail velocity of block is zero Coefficient of friction between A and belt is 0.1 There is no friction between A and B length of A is 4m If the coefficient of friction between the block B and belt is 0.4 Find the separation between the two block when B come to rest w.r.t. belt

Find the minimum value of F and the tension in the string so that the blocks move with constant velocity. The coefficient of friction at all surfaces is mu . (a) (b) ( c ) (d)

A semicircular ring of radius R is fixed on a smooth horizontal table. A small block is projected with speed u so as to enter the ring at end A. Initial velocity of the block is along tangent to the ring at A and it moves on the table remaining in contact with the inner wall of the ring. The coefficient of friction between the block and the ring is mu . (a) Find the time after which the block will exit the ring at B. (b) With what speed will the block leave the ring at B.