Density of a liquid varies with depth as `rho=alpha`h. A small ball of density `rho_(0)` is released from the free surface of the liquid. Then

The density rho of a liquid varies with depth h from the free surface as rho=kh . A small body of density rho_(1) is released from the surface of liquid. The body will

A ball of density rho is released from deep inside of a liquid of density 2 rho . It will move up

A triangular lamina of area A and height h is immersed in a liquid of density rho in a vertical plane with its base on the surface of the liquid. The thrust on the lamina 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). Discuss two situations in daily life where we apply the concept of pressure. (b). A body of density rho is dropped gently on the surface of a liquid of density rho' (rho' being less than rho ). Show That it will reach the bottom of the liquid after a time sqrt((2drho)/(g(rho-rho'))) , where g is acceleration due to gravity and d is the depth of the liquid.

A uniform solid sphere of radius R is in equilibrium inside a liquid whose density varies with depth from free surface as rho=rho_(0)(1+h/(h_(0))) where h is depth from free surface. Density of sphere sigma will be :

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 liquid of density rho is in a bucket that spins with angular velocity 'omega' as shown in figure. Prove that the free surface of the liquid has a parabolic shape. Find equation of this. .

A small ball of density 4rho_(0) is released from rest just below the surface of a liquid. The density of liquid increases with depth as rho=rho_(0)(1+ay) where a=2m^(-1) is a constant. Find the time period of its oscillation. (Neglect the viscosity effects).

A drop of liquid of density rho is floating half-immersed in a liquid of density d . If rho is the surface tension the diameter of the drop of the liquid is