A cubical block of copper of side `10cm` is floating in a vessel containing mercury. Water is poured into the vessel so that the copper block just gets submerged. The height of water column is
(`rho_(Hg) = 13.6 g//c c , rho_(Cu) = 7.3 g//c c , rho_(water) = 1gm//c c)`

A cubical block of iron of side 13.6 cm is floating in mercury in a vessel .Water is poured in the vessel until it just covers the iron block. What is the height of water column? ( rho_Hg=13.6gm/cm^3 , rho_Fe=7.2 gm/cm^3 , rho_H_2O=1 gm/cm^3 )

(i) A cubical metal block of side 10cm is floating in a vessel contatining mercury. The vesel has a square cross section of side length 15cm. Water is poured into the vessel so that the metal block just gets submerged. Calculate the mass of water that was poured into the vessel. It is given that relative density of the metal and mercury are 7.3 and 13.6 respectively. (ii) In the last question, in place of water if we poured another liquid of relative density 'r' it was found that when the metal block ws just completely submerged it was no longer touching mercury. what is value of r?

A cubical block of iron 5 cm on each side is floating on mercury in a vessel. (i) what is the height of the block above mercury level ? (ii) Water is poured in the vessel unitl it just covers the iron block. What is the height of water column . density of mercur 13.6 gm//cm^(3) . Density of iron 7.2 gm//cm^(3)

A cubical block of iron of side 5 cm is floating in mercury taken in a vessel. What is the height of the block above mercuery level. (rho_(Hg)=13.6g//cm^(3),rho_(Fe)=7.2g//cm^(3))

Consider the situation shown in diagram. Determine h rho_omega = 1 g// c c. rho_m = 13.6 g//c c rho_c = 1.6 g// c c . .

A cubical metal block of edge 12 cm floats in mercry with one fifth of the height inside the mercury. Water poured till the surface of the block is just immersed in it. Find the height of the water column to be poured. Specific gravity of mercury =13.6.

A cubical metal block of edge 12 cm floats in mercry with one fifth of the height inside the mercury. Water poured till the surface of the block is just immersed in it. Find the height of the water column to be poured. Specific gravity of mercury =13.6.

One third height of a cubical block of edge 6cm is floating in kerosene oil of specific gravity 0.8. To make the block to be just immersed some water is poured. What is the height of the water column?