A block of mass `1 kg` is at rest relative to a smooth wedge moving leftwards with constant acceleration `a = 5 m//s^(-2)` .Let `N` be the normal reaction between the block and the wedge . Then `(g = 10 m//s^(-2))`

A block of mass 1 kg is at rest relative to a smooth wedge moving leftwards with constant acceleration a = 5 m//s^(-2) .Let N be the normal reation between the block and the wedge . Then (g = 10 m//s^(-2))

A block of mass 1 kg is at rest relative to a smooth wedge moving leftwards with constant acceleration a=5m//s^(2) Let N be the normal reaction between block and the wedge .Then (g=10m//s^(2) )

A block of mass 2kg released from the top of a smooth fixed wedge inside the elevator which is moving downward with an acceleration a = 5 m/s^2 as shown in the figure.The value of acceleration of the block w.r.t wedge will be (g = 10 m/s^2)

A smooth block of mass m is held stationary on a smooth wedge of mass M and inclination theta as shown in figure .If the system is released from rest , then the normal reaction between the block and the wedge is

A block of mass 'm' is kept on a smooth moving wedge. If the acceleration of the wedge is 'a'

As shown in the figure a block of mass 'm' is placed on a smooth wedge moving with constant acceleration such that block does not move with respect to the wedge. Find work done by the net force on the block in time t. (Initial speed is 0)

In the given figure the co- efficient of friction between the block and the incline plane is '1'. The acceleration with which the system should be accelerated so that the friction between the block and the wedge becomes zero ( g = 10 m//s^(2) ) is

A block of mass 10 kg is released on a fixed wedge inside a cart which is moving with constant velocity 10 ms^(1) towards right. There is no relative motion between block and cart. Then work done by mormal reaction on block in two seconds from ground frame will be (g=10 ms^(1))

By what acceleration the boy must go up so that 100kg block remains stationary on the wedge. The wedge is fixed and is smooth (g =10m//s^(2)) .

A small block of mass m=2kg is at rest point P of the stationary wedge having frictionless hemispherical track of radius R=4m . The minimum constant acceleration 'a_(0)' ( in m//s^(2) ) is to be given to the wedge in horizontal direction, so that the small block just reaches the point Q as shown in figure. Assume all the contacts are frictionless and g=10m//s^(2) . If a_(0)=2xm//s^(2) . Find the value of x