At `4^(@)C, 0.98` of the volume of a body is immersed in water. The temperature at which the entire body gets immersed in water is (neglect the expansion of the body ) (`gamma_(w) = 3.3 xx10 ^(-4)K^(-1)`):-

A boat is floating in water at 0^(0)C such that 97% of the volume of the boat is submerged in water. The temperature at which the boat will just completely sink in water is (gamma_(R) = 3 xx 10^(4) // ^(0)C) (nearly)

A body, at 4^(@)C, floats with 0.98 part of its volume immersed in water. At what temperature the body will just immerse in water? Coefficient of real expansion of water =3.3 times 10^(-4@)C^(-1). Neglect expansion of the solid body.

A block flats in water at 4^(0)C so that 0.984 of its height is under water. At what temperature of water will the block just sink in water? Negleact expansion of block. (gamma_(R ) "for water"=2.1xx10^(-4)//^(0)C)

A body when fully immersed in a liquid of specific gravity 1.2 weighs 44 gwt. The same body when fully immersed in water weighs 50 gwt. The mass of the body is

A body of volume 50 cm^3 is immersed completely in water then the mass of water displaced by the body will be

A body of 50cm^3 is completely immersed in water. Find the force of buoyancy on it.

A non-conducting body floats in a liquid at 20^@C with 2/3 of its volume immersed in the liquid. when liquid temperature increased to 100^@c , 3/4 of body's volume 3. 4 is immersed in the liquid. Then the coefficient of real expansion of the liquid is (neglecting the expansion of container of the liquid)

A non-conducting body floats in a liquid at 20^(@)C . with 2//3 of its volume immersed in the liquid When liquid temperature is increased to 100^(@)C, 3//4 of body volume is immersed in the liquid. Then the coefficient of real expansion of the liquid is... (neglecting the expansion of container of the liquid)