A block of volume V and of density `sigam_(b)` is placed in liquid of density `sigam_(l)`, then block is moved upward upto a height `h` and it is still in liquid. The increase in gravitational protential energy of the system is

A block of volume V and density sigma_(b) is placed in liquid of density sigma_(1)(sigma_(1) gt sigma_(b)) , then block is moved upward upto a height h and it is still in liquid. The increase in gravitational energy of the block is :

A ball of volume V and density rho_(1) is moved downwards by a distance 'd' in liquid of density rho_(2) . Find total change in potential energy of the system.

A body of volume V and density P_S , floats with volume v inside a liquid of density P_L . Show that v/V=P_S/P_L

A body of volume V and desnity rho is initially submerged in a non-viscous liquid of density sigma (gt rho) . If it is rises by itself through a height h in the liquid. Its kinetic energy will

A liquid of density rho and surface tension sigma rises in a capillary tube of diameter d . Angle of contact between the tube and liquid is zero. In the above problem, the increase in gravitational potential energy of the liquid due to rise in the capillary is :

Two solids A and B of density 2.5 g cm^(-3) and 0.80g cm^(-3) are placed in a liquid L of density 1.2 g cm^(-3) Which solid is likely to float and why?

A block of volume V and density rho is floating in a liquid of density 2 rho filled in a vessel. Now the vesset starts falling freely with acceleration g . Then the volume of block inside the liquid in the falling condition is

A wooden cube of length l and density a floats in a liquid of density p (gt a) . If the liquid moves with an acceleration in steady state, find the a. net hydrostatic force acting on the cube b. angle of inclination of the cub with horizontal.

A body of volume V and density rho is kept completely immersed in a liquid of density rho_(L) . If g is the acceleration due to gravity, write expressions for the following (i) the weight of the body. (ii) the upthrust on the body. (iii) the apparent weight of the body in liquid, (iv) the loss in weight of the body.

A beaker is filled with a liquid of density rho upto a height h If the beaker is at rest, the mean pressure at the walls is: