In fig. shown, the speed of the truck is v to the right. Find the speed with which the block is moving up at `theta=60^(@)`.

Consider the situation of block pulley arrangement shown in figure-1.63. A plank is connected to three strings and an electric motor M is fitted on to it and a string is wound on it according to the arrangement shown in figure. Given that the string is winding on shaft of motor at a speed v. Find the speed with which the plank would be going up.

Two small rings each of mass ‘m’ are connected to a block of same mass ‘m’ through inextensible light strings. Rings are constrained to move along a smooth horizontal rod. Initially system is held at rest (as shown in figure) with the strings just taut. Length of each string is ‘l’. The system is released from the position shown. Find the speed of the block (v) and speed of the rings (u) when the strings make an angle of theta=60^(@) with vertical. (Take g = 10 m//s^2 )

Two particles of a mass 2m and m are tied with an inextensible string the particle of mass m is given a speed V as shown in the figure. Find the speed with which the particle of mass 2m starts moving.

In the fig. shown, the pulley and string are mass less and the incline is frictionless. The segment AP of the string is parallel to the incline and the segment PB is perpendicular to the incline. End of the string is pulled with a constant force F. (a) If the block is moving up the incline with acceleration while being in contact with the incline , then angle theta must be less than theta_(0) . Find theta_(0) If theta = (theta_(0))/(2) find the maximum acceleration with which the block can move up the plane without losing contact with the incline.

A boy is standing on a truck moving with a constant velocity of 15 m//s on the horizontal road. The boy throws a ball in such a way that it returns to the truck after the truck has moved 60 m . Find the speed and the angle of projection (a) as seen by the truck and (b) as seen from the road.

truck is moving with a speed of 15 m/s. A car chasing this truck with a speed of 10 m/s fires a bullet at truck with muzzle velocity 90 km/h. The speed with which the bullet hit the truck is

Find out the distance travelled by the block as shown in figure. If the initial speed of the block is v and mu is the friction coefficient between the surface of block and ground.

Three blocks A, B and C each of mass m are placed on a surface as shown in the figure. Blocks B and C are initialyy at rest. Block A is moving to the right with speed v. It collides with block B and stricks to it. The A-B combination collides elastically with block C. Which of the following statement is (are) true about the velocity, of block B and C.

A truck has to move to a dimetrically opposite point on a circular track which surrounds a field. The speed of the truck along the track is 2v_(0) . While that in the field is v_(0) . The driver plans to move along an arc of a circle and then along a straight line as shown.