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.

The density of a rod of length L varies as rho=A+Bx where x is the distance from the left end. Locate the centre of mass.

A square plate of edge d and a circular disc of diameter d are placed toucing ech other at the midpoint of san edge of th plate as shown in figure. Locate the centre of mass of the combination assuming same mass per unit area for the two plates.

The figure represents a U-tube of uniform cross-section filled with two immiscible liquids. One is water with density rho_(w) and the other liquid is of density rho . The liquid interface lies 2 cm above the base. The relation between rho and rho_(w) is .

A circular plate of diameter d is kept in contact with a square plate of edge d as shown in figure. The densit of the material and the thickness are same . Everywhere. The centre of mass of the composite system will be

A circular plate of diameter d is kept in contact with a square plate of edge d as shown in figure. The densit of the material and the thickness are same . Everywhere. The centre of mass of the composite system will be

A composite plate comprises a triangular area (1) and rectangular area (2) as shown in the figure. The triangular plate experiences forces due to the liquids of densities rho_(1) and the rectangular plate experiences the force due to liquid of density rho_(2) . Find the hydrostatic forces on (a) area 1 , (b) area 2 , (c) total composite area of the plate. Assume rho_(1)=rho and rho_(2)=2rho .

The inductance L of a solenoid of length l , whose windings are made of material of density D and resistivity rho , is (the winding resistance is R )

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

Assertion: Two identical spherical spheres are half filled with two liquids of densities rho_(1) and rho_(2) (gt rho_(1)) . The center of mass of both the spheres lie at same level. Reason: The center of mass will lie at center of the sphere.

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