A 0.6 m radius drum carrying the load A is rigidly attached to a 0.9m radius pulley carrying the load B as shown. At the time t = 0, the load B moves with a velocity of 2m/s (downward) and a constant acceleration of 3m/s2 (downward). Over the time interval `0 le t le 2s` , determine
The number of revolution executed by the pulley and the displacement of the load A.

A particle starts with a velocity of 2m//s and moves in a straight line with a retardation of 0.1m//s^(2) . The time that it takes to describe 15m is

At time t=0 s a car passes a point with velocity of 16 m//s and thereafter slows down with acceleration a=-0.5t m//s^(2) ,where t is in seconds. It stops at the instant t=

In the figure shown, a_(3) = 6 m//s^(2) (downwards) and a_(3) = 6 m//s^(2) (upwards) .Find acceleration of 1

Velocity of a particle at time t=0 is 2 m//s. A constant acceleration of 2 m/s^2 acts on the particle for 2 s at an angle of 60^@ with its initial velocity. Find the magnitude of velocity and displacement of particle at the end of t=2s.

For the pulley system shown in fig. each of the cables at A and B is given a velocity of 2ms^(-1) in the direction of the arrow. Determine the upward velocity v of the load m.

If acceleration of block B is 4 m//s^(2) upward & that of C is 6 m//s^(2) downward. Find acceleration of A :-

Suppose that a particle mvoes on a straight line so that is velocity at time t is v(t)=(t^(2)-2t)m//s . (a). Find the displacement of the particle during the time interval 0 le t le 3 (b). Find the distance traveled by the particle during the time interval 0 le t le 3 .

A pulley fixed to the ceiling of an elevator car carries a thread whose ends are attached to the masses m_(1) and m_(2) . The car starts going up with an acceleration a_(0) . Assuming the masses of the pulley and the thread as well as the friction to be negligible, find: (a) the acceleration of the load m_(1) relative to the elevator shaft and relative to the car (b) the force exerted by the pulley on the ceiling of the car. Given m_(1) gt m_(2) .

Velocity and acceleration of a particle at time t=0 are u=(2 hati+3 hatj) m//s and a=(4 hati+3 hatj) m//s^2 respectively. Find the velocity and displacement if particle at t=2s.

A body moves with uniform velocity of u = 7 m/s from t = 0 to t = 1.5 sec. For t gt 1.5 s, it starts moving with an acceleration of 10 m/s2. The distance travelled between t = 0 to t = 3 sec will be -