A beaker containing a liquid of density moves up with an acceleration a. The pressure due to the liquid at a depth h below the free surface of the liquid is

A beaker containing a liquid of density rho moves up with an acceleration a . The pressure due to the liquid at a depth h below the free surface of the liquid is.

A hemispherical portion of a radius R is removed from the bottom of a cylinder of radius R. The volume of the remaining cylinder is V and its mass is M. It is suspended by a string in a liquid of density rho where it stays vertical . The upper surface of the cylinder is at a depth of h below the liquid surface. THe force on the bottom of the cylinder by the liquid is

A liquid of density rho is filled in a vessel up to height H and a hole of cross section area A is made at a depth h below the free surface of liquid. The speed of liquid coming out of the hole is independent of

A conical portion of radius R and height H is removed from the bottom of a cylinder of radius R. The volume of the remaining cylinder is V and its mass is M. It is suspended by a string in a liquid of density rho where it stays vertical . The upper surface of the cylinder is at depth h below the liquid surface . The force on the bottom of the cylinder by the liquid is

A sealed tank containing a liquid of density rho moves with a horizontal acceleration a, as shown in the figure. The difference in pressure between the points A and B is

The pressure inside a liquid of density rho at a depth h is :

A sealed tank containing a liquid of density rho moves with horizontal acceleration a as shown in the figure. The difference in pressure between two points A and B will be

A container containing a liquid is moving down an incline plane with constant acceleration 'a' . The angle made by the water surface in equilibrium with the inclined plane is

The pressure at depth h below the surface of a liquid of density rho open to the atmosphere is

There is an air bubble of radius 1.0mm in a liquid of surface tension 0.075Nm−1 and density 103kgm−3. The bubble is at a depth of 10.0cm below the free surface of a liquid. By what amount is the pressure inside the bubble greater than the atmospheric pressure?