A meter stick `AB` of length 1 meter rests on a frictionless floor in horizontal position with end `A` attached to the string as shown. Assume that string connecting meter stick with pulley always remains vertical.

Minimum magnitude of relative velocity of `A` with respect to `B` during the motino specified in question 5 is `:`

A meter stick AB of length 1 meter rests on a frictionless floor in horizontal position with end A attached to the string as shown. Assume that string connecting meter stick with pulley always remains vertical. Time taken to cover the distance in above part is :

A meter stick AB of length 1 meter rests on a frictionless floor in horizontal position with end A attached to the string as shown. Assume that string connecting meter stick with pulley always remains vertical. If block 1 and 2 are given constant speeds as shown then the distance moved by end B over the floor in the period for which speed of B is less than A .

A transerse sinusodial wave of amplitude 2 mm is setup in a long uniform string. Snapshot of string from x =0 to x = pi meter is taken at t = 0 , which is shown. Velocity of point P is in -y direrction. Magnitude of relative velocity of P with respect to Q is 2 cm//s . Choose the correct options : wave equation is

Two block A and B of masses 1kg and 2kg respectively are connected by a string, passing over a light frictionless pulley B as shown. Another string connect the center of pulley. Both the blocks are resting on a horizontal floor and the pulley is help such that string remains just taut. At moment t = 0 , a force F = 20 t starts acting on the pully along vertically upwards direction as shown in figure.Calculate (a) velicity of A when B loses contact with the floor. (b) height raised by the pulley upto that instant. (Take = g =10 m//s^(2))

A rod length AB is moving with ends remaining in contact with frictionless wall and floor . If at the instant shown , the velocity of the and B is 3 m s^(-1) towards the negative x-direction , then the magnitude of the velocity of the end A wll be

A stick AB of mass M is tied at one end to a light string OA. A horizontal force F = Mg is applied at end B of the stick and its remains in equilibrium in position shown. Calculate angles alpha and beta .

A stick of length a cm rests against a vertical wall and the horizontal floor.If the foot of thes tick slides with a constant velocity of b cm/s,then the magnitude of the velocity of the middle point of the stick when it is equally inclined with the floor and the wall,is