Two isotropic blocks `A` and `B` are placed as a shown in the figure and are in equilibrium. Now if block `'B'` falls in to the liquid, the level of liquid may:

Two wooden blocks A and B float in a liquid of density rho_(L) as shown. The distance L and H are shown. After some time, block B falls into the liquid, so that L decreases and H increases. If density of block B is rho_(B) , find the correct option.

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.

In an arrangement shown in the figure, the acceleration of block A and B are given-

Three blocked A,B and C are placed one over the other as shown in figure. Draw free body diagram of all the three blocks.

Two block A and B are arrenged as shown in figure (m_(A) = 5 kg and m_(B) = 10 kg) Find the acceleration of blocks if F = 40 N

The block shown in the figure in is equilibrium. Find acceleration of the block just after the string burns.

Asseration : A wooden block is floating in a liquid as shown in figure, in vertical direction equilibrium of block stable. . Reason : When depressed in downward direction is starts oscillating.

Three blocks A,B and C are suspended as shown in the figure. Mass of each block A and C is m. if the system is in equilibrium and mass of B is M, then

Two blocks A and B are lying on the table as shown in the figure. The coefficient of friciton between block A and block B is mu . The coefficient of friction between block B and ground also mu . An external force F is applied in the direction shown. The maximum value of the force F that can be applied without moving the blocks.