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A jar filled with two non-mixing liquid 1 and 2 having densities rho_(1) and rho_(2) respectively. A solid ball, made of a material of density rho_(3) is dropped in the jar. It come to equilibrium in the position shown in the figure. Which of the following is true for rho_(1),rho_(2) and rho_(3) ?

A jar filled with two non-mixing liquid 1 and 2 having densities rho_(1) and rho_(2) respectively. A solid ball, made of a material of density rho_(3) is dropped in the jar. It come to equilibrium in the position shown in the figure. Which of the following is true for rho_(1),rho_(2) and rho_(3) ?

A planet is made of two materials of density rho_(1) and rho_(2) as shown in figure. The acceleration due to gravity at surface of planet is same as a depth 'R' . The ratio of (rho_(1))/(rho_(2)) is x/3 . Find the value of x .

A planet is made of two materials of density rho_(1) and rho_(2) as shown in figure. The acceleration due to gravity at surface of planet is same as a depth 'R' . The ratio of (rho_(1))/(rho_(2)) is x/3 . Find the value of x .

Half of the recrtangular plate shown in figure is made of a material of density rho_1 and the other half of density rho_2 . The length of the plate is L. Locate the centre of mass of the plate.

Half of the recrtangular plate shown in figure is made of a material of density rho_1 and the other half of density rho_2 . The length of the plate is L. Locate the centre of mass of the plate.

Half of the recrtangular plate shown in figure is made of a material of density rho_1 and the other half of density rho_2 . The length of the plate is L. Locate the centre of mass of the plate.

A jar is filled with two non-mixing liquids 1 and 2 haivng densities rho_1 and rho_2 respectively. A solid ball, made of a material of density rho_3 , is dropped in the jar. It comes to equilibrium in the position shown in the figure. Which of the following is true for rho_1 , rho_1 and rho_3 ?