A vessel is filled with two different liquids of densities `rho and 2 rho` respectively as shown in the figure. The velocity of flow of liquid through a hole at height `(h)/(2)` from bottom is

If two liquids of same mass but densities rho_1 and rho_2 respectively are mixed, then the density of the mixture is:

If two liquids of same mass but densities rho_1 and rho_2 respectively are mixed, then the density of the mixture is:

A container filled with a liquid of density 4p as shown in the figure. The velocity efflux through orifice is ( rho is density of water and g = 10 ms^(-2) )

A cylinder stands vertical in two immiscible liquids of densities rho and 2rho as shown. Find the difference in pressure at point A and B:

The force F needed to support the liquid of density rho and the vessel on it, in figure, is

Equal volumes of two immiscible liquids of densities rho and 2 rho are filled in a vessel as shown in figure. Two small holes are punched at depth h/2 and 3h/2 from the surface of lighter liquid. If v_(1) and v_(2) are the velocities of efflux at these two holes then ((v_(2))/(v_(1)))^(2) is

Equal volumes of two immiscible liquids of densities rho and 2 rho are filled in a vessel as shown in figure. Two small holes are punched at depth h/2 and 3h/2 from the surface of lighter liquid. If v_(1) and v_(2) are the velocities of efflux at these two holes then ((v_(2))/(v_(1)))^(2) is

Equal volume of two immiscible liquids of densities rho and 2rho are filled in a vessel as shown in the figure. Two small holes are punched at depths h//2 and 3h//2 from the surface of lighter liquid. If v_(1) and v_(2) are the velocities of efflux at these two holes, then v_(1)//v_(2) is

Equal volume of two immiscible liquids of densities rho and 2rho are filled in a vessel as shown in the figure. Two small holes are punched at depths h//2 and 3h//2 from the surface of lighter liquid. If v_(1) and v_(2) are the velocities of efflux at these two holes, then v_(1)//v_(2) is

Equal volume of two immiscible liquids of densities rho and 2rho are filled in a vessel as shown in the figure. Two small holes are punched at depths h//2 and 3h//2 from the surface of lighter liquid. If v_(1) and v_(2) are the velocities of efflux at these two holes, then v_(1)//v_(2) is