3 Animated Videos | 30 Structured Questions.

Pseudo force on block wrt an observer sitting on the wedge?

With what acc. should the wedge move on a horizontal surface towards right, so that block does not slide on the surface of inclined plane?

Max F that can be applied on the wedge, so that the block does not slip over the wedge?

Acceleration of blocks in terms of m, M and _?

With what min acc. should the wedge be pulled, so that the block falls freely?

Min value of M1 so that the block of mass m falls freely with acceleration g?

What should be min value of M1 so that the block of mass m falls freely with acceleration g?

Find the acceleration of smaller block w.r.t prism.

In the reference frame of wedge, acceleration of block parallel to the surface of incline?

Ratio of distance travelled by the block in the frame of wedge to the distance travelled in the frame of ground?

Time taken by the block to reach from C to A?

Normal reaction between the block and wedge?

Acceleration of the bead relative to the rod?

Time taken by block to reach the bottom?

Choose the correct options.

Time taken by the block to reach the top of wedge?

Find the acceleration of the system.

Find the acceleration of blocks wrt the wedge.

Find the acceleration of m1 block for the given arrangement.

Acceleration of m1 wrt ground?

Find the acceleration of block M.

Find the acceleration of the pulley.

Acceleration of block M will be?

Acceleration of block M for the given fig?

Find the acceleration of block M?

Find the acceleration of pulley.

Calculate the force to be applied horizontally to cart so that blocks remain stationary.

Acceleration of block M to the right so that m1 and m2 remain stationary relative to it?

Acceleration of block B when the system is released from rest.

Just after the system is released, acceleration of M?