A cubical block of wood `10 cm` on a side, floats at the interface of oil and water as shown in figure. The density of oil is `0.6 g cm^(-3)` and density of water is `1 g cm^(-3)`. The mass of the block is

A cubical block of wood 10cm on a side floats at the interface between oil and water, as in fig. with its lower face 2 cm below the interface. The intensity of the oli is 0.6 g cm^(-3) . The mass of the block is

A cubical block of side 10cm floats at the interface of an oil and water as shown in the figure. The density of oil is 0.6g cm^(-3) and the lower face of ice cube is 2cm below the interface. The pressure above that of the atomosphere at the lower face of the block is

A cubical block of wood 10 cm on a side floats at the interface between oil and water with its lower surface horizontal and 4 cm below the interface. The density of oil is 0.6 gcm^(-3) . The mass of block is

The density of wood is 0.65 g//cm^(3) . The density in SI system is

A cubical block of wood 10 cm along each side floats at the interface between an oil and water with its lowest surface 2cm below the interface. If the height of oil and water columns are 10 cm each and rho_("oil")=0.8g/"cc", find a the mass of the block, b. the liquid pressure at the lower surface of the block.

A 'U' tube contains oil, carbon tetrachloride and water as shown in the figure. The density of oil is 0.8 "g cm"^(-3) and that of carbon tetrachloride is 1.6"g cm"^(-3) . If oil and water surfaces are at the same level, find the height of the water column.

A cubical block of side 10 cm floats at the interface of an oil and water. The pressure above that of atmosphere at the lower face of the block is

A body weight 20 N in water and 30 N in air. Find the density of the body. Take the density of water as 1.0 g cm^(-3) .