A solid whose volume does not change with temperature floats in a liquid. For two different temperatures `t_1` and `t_2` of the liqiud, fraction `f_1` and `f_2` of the volume of the solid remain submerged in the liquid. The coefficient of volume expansion of the liquid is equal to

In a vertical U -tube containing a luquid, the two arms are maintained at different temperatures, t_(1) and t_(2) . The liquid coplumns in the two arms have heights l_(1) and l_(2) respectively. The coefficient of volume expansion of the liquid is equal to

More is the density of a liquid than a solid, more the volume of solid will submerge in it.

A solid of density D is floating in a liquid of density d. If upsilon is the volume of solid submerged in the liquid and V is the total volume of the solid, then upsilon//V equal to

A solid floats in a liquid at 20^@ C with 75 % of it immersed. When the liquid is heated to 100^@ C, the same solid floats with 80% of it immersed in the liquid. Calculate the coefficient of expansion of the liquid. Assume the volume of the solid to be constant.

A sinker of weight w_0 has an apparent weight w_1 when weighed in a liquid at a temperature t_1 and w_2 when weight in the same liquid at temperature t_2 . The coefficient of cubical expansion of the material of sinker is beta . What is the coefficient of volume expansion of the liquid.

A solid body floats in a liquid at a temperature t = 50^@ C being completely submerged in it. What percentage of the volume of the body is submerged in the liquid after it is cooled to t_0 = 0^@ C , if the coefficient of cubic expansion for the solid is gamma_s = 0.3 xx 10^-5 .^@ C^-1 and of the liquid gamma_l = 8 xx 10^-5 .^@ C^-1 .

A non-conductiong body floats in a liquid at 25^(@)C with 1//3 of its volume immersed in the liquid. When liquid temperature is increased to 105^(@)C, 1//2 of body's volume is immersed is the liquid. Then, find the coefficient of real expansion of the liqquid (neglecting the expansion of container of the liquid) .

A vessel is partly filled with liquid. When the vessel is cooled to a lower temperature, the space in the vessel unoccupied by the liquid remains constant. Then the volume of the liquid (V_L) volume of the vessel (V_V) the coefficient of cubical expansion of the material of the vessel (gamma_v) and of the solid (gamma_L) are related as

A vessel is partly filled with liquid. When the vessel is cooled to a lower temperature, the space in the vessel unoccupied by the liquid remains constant. Then the volume of the liquid (V_L) volume of the vessel (V_V) the coefficient of cubical expansion of the material of the vessel (gamma_v) and of the liquid (gamma_L) are related as

A metallic bob weights 50 g in air. If it is immersed in a liquid at a temperature of 25^@ C , it weights 45 g . When the temperature of the liquid is raised to 100^@ C , it weights 45.1 g . Calculate the coefficient of cubical expansion of the liquid. Given that coefficient of cubical expansion of the metal is 12 xx 10^(-6) .^@ C^-1 .