A sphere of mass `180g` and diameter `6 cm` floats on the surface of a liquid. When the liquid is heated to `35^(0)C`, the sphere sinks in the liquids. If the density of liquid at `0^(0)C` is `2 gcm^(-5)`. The coefficient of real expansion of liquid is

A sphere of mass 266.5 g and of diameter 7 cm floats on a liquid. When the liquid is heated to 35^(@)C the sphere starts sinking in the liquid. If the density of the liquid at 0^(@)C " is " 1.527g*cm^(-3) , find its coefficient of volume expansion. Neglect the expansion of the sphere.

Densities of a liquid at 30^(@)Cand80^(@)C are 0.6gm/c.c and 0.54 gm/c.c. The coefficient of real expansion of liquid is

Densities of a liquid at 30^(@)C and 80^(@)C are 0.6(gm)/(c c) and 0.54(gm)/(c c) . The coefficient of real expansion of liquid is

The density of a liquid at 100^(@)C is 8.0g//cm^(3) and at 0^(@)C is 8.4g//cm^(3) , the coefficient of cubical expansion of the liquid is

A sphere of diameter 7.0 cm and mass 266.5 g float in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of 35^0 C . If the density of liquid is 1.527 g cm^(-3) at 0^o C , find the coefficient of cubical expansion of the liquid. Neglect the expansion of the sphere.

A sphere of diameter 7.0 cm and mass 266.5 g float in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of 35^0 C . If the density of liquid is 1.527 g cm^(-3) at 0^o C , find the coefficient of cubical expansion of the liquid. Neglect the expansion of the sphere.