A cylinder rolls on the planks `A` and `B` without relative sliding. If the planks move with velocities `-2vhati, vhati` respectively and the plank `A` has acceleration `veca(=ahati)`, find the: (a) `v_(C)` and `v_(Q)` and (b) `a_(C)` and `a_(Q)`.

A uniform disc of radius R rolls perfectly over two horizontal plank A and B moving with velocities v and 2v , spectively. Find the a. velocity of CM of the disc. b. angular velocity of the disc.

Two particles of equal mass m are moving with velocities vhati and v((hati+hatj)/(2)) respectively. If the particles collide completely inelastically, then the energy lost in the process is

Two objects A and B are moving in opposite directions with velocities v_(A) and v_(B) respectively, the magnitude of relative velocity of A w.r.t. B is

A cylinder is rolling without sliding over two horizontal planks (surfaces) 1 and 2 . If the velocities of the surfaces A and B are -vhati and 2vhati respectively, find the: a. Position of instantaneous axis of rotation. b. Angular velocity of the cylinder.

Two particles of same mass 'm' moving with velocities vecv_1= vhati, and vecv_2 = (v/2)hati + (v/2)hatj collide in-elastically. Find the loss in kinetic energy

Two particles of same mass 'm' moving with velocities vecv_1= vhati, and vecv_2 = (v/2)hati + (v/2)hatj collide in-elastically. Find the loss in kinetic energy

A block of mass m is kept on a rough plank which moves with a horizontal acceleration a. If the plank was at rest at t=0 , and the block does not slide relative to the plank, find the work done by friction on the (a) block, (b) plane, (c) system, (block+plank) during time t .

Two paricles A and B start simultaneously from the same point and move in a horizontal plane. A has an initial velocity u_(1) due east and acceleration a_(1) due north. B has an intial velocity u_(2) due north and acceleration a_(2) due east.

In a magnetic field as shown, in Fig. two horizontal wires of same mass and length l_(1) and l_(2) are free to slide on different vertical rails with velocities v_(1) and v_(2) respectively. If the resistance of two circuits are same and a_(1) and a_(2) are acceleration of two horizontal wires respectively, the condition for a_(1)gta_(2) is

Consider a cylinder of mass M and radius R lying on a rough horizontal plane. It has a plank lying on its top as shown in the figure. A force F is applied on the plank such that the plank moves and causes the cylinder to roll. The plank always remains horizontal. There is no slipping at any point to contact. (a) what are the directions of the fricition forces acting at A and B on the plank and the cylinder ? (b) Calculate the acceleration of the cylinder. (c ) Find the value of frictional force at A & B .