Equal mass of three liquids are kept in three identical cuylindrical vessels A, B and C. the densities are `rho_A, rho_B, rho_C` with `rho_Altrho_Bltrho_C`. The force on the base will be

Equal mass of three liquids are kept in three identical cuylindricasl vessels A, B and C. the densities are rho_A, rho_B, rho_C with rho_Altrho_Bltrho_C . The force on the base will be

Three liquids of equal masses are taken in three identical cubical vessels A,B and C. Their densities are rho_(A),rho_(B) and rho_(C) respectively but rho_(A)ltrho_(B)ltrho_(C) . The force exerted by the liquid on the base of the cubical vessel is

Three liquids of equal masses are taken in three identical cubical vessels A, B and C. Their densities are rho_(A), rho_(B) " and " rho_(C ) respectively but rho_(A) lt rho_(B) lt rho_(C ) . The force exerted by the liquid on the base of the cubical vessel is

Three identical vessels are filled with equal masses of three different liquids A,B and C(rho_(A) gt rho_(B) gt rho_(C)) . The pressure at the base will be

Three identical vessels are filled to the same height with three different liquids A, B and C(rho_(A) gt rho_(B) gt rho_(C)) . The pressure at the base will be

Three different liquids are filled in a U-tube as shown in figure. Their densities are rho_(1), rho_(2) and rho_(3) respectively. From the figure we may conclude that

The difference in pressures in bulbs A and C having fluids of densities rho_(1) and rho_(2) when tube B is horizontal will be

Two circular discs A and B have equal masses and uniform thickness but have densities rho_(1) and rho_(2) such that rho_(1)gt rho_(2) . Their moments of inertia is

A thin triangular glass tube containing immiscible liquids A, B, C of densities rho, 2rho, 3rho is at rest in vertical plane. Find x.