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

A block of mass 1 kg is at rest relative to a smooth wedge 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 m is at rest over the rough surface of the fixed wedge.

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 placed on a smooth wedge of inclination theta & mass M. The whole system is slip on the wedge. Then the normal reaction on the wedge acting from the ground :

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)

A block of mass m is placed at rest on a smooth wedge of mass M placed at rest on a smooth horizontal surface. As the system is released

A block of mass m=5kg is resting on a rough horizontal surface for which the coefficient of friction is 0.2 . When a force F=40N is applied, the acceleration of the block will be (g=10m//s^(2)) .

The block of mass m_(1) is placed on a wedge of an angle theta , as shown. The block is moving over the inclined surface of the wedge. Friction coefficient between the block and the wedge is mu_(1) , whereas it is mu_(2) between the wedge and the horizontal surface. if mu_(1)=1/2, theta=45^(@), m_(1)=4 kg, m_(2)=5 kg and g=10 m//s^(2) , find minimum value of mu_(2) so that the wedge remains stationary on the surface. express your answer in multiple of 10^(-3)