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 radius 3.5 cm and mass 250 gm floats in a liquid at 20^(@)C . As the temperature is raised, the sphere just being to sink at a temperature of 35^(@)C . If the density of liquid at 0^(@)C is 1.527gm//cm^(3) find the coefficient of cubical expansion of the liquid. Neglect expansion of the sphere.

A sphere of diameter 8cm and mass 275g floats in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of 40^(0)C . If the density of the liquid is 1.5g//cm^(3) at 0^(0)C , find the coefficient of cubical expansion of the liquid. Neglect the expansion of the sphere

The density of lead at 0^(@)C is 11.34g//cm^(3) . The density of lead at 100^(@)C , (if the coefficient of linear expansion of lead = 28xx10^(-6)//""^(@)C ) 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.

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^@ C . If the density of liquid is 1.527 g cm^(-3) at 0^@C , find the coefficient of cubical expansion of the liquid. Neglect the expansion of the sphere.

The density of water at 0^@C is 0.998 g cm^(-3) at 4^@C is 1.00 g cm^(-3) . Calculate the average coefficient of volume expansion of water in the temperature range 0^@C to 4^@C .

The density of water at 0^@C is 0.998 g cm^(-3) at 4^@C is 1.00 g cm^(-3) . Calculate the average coefficient of volume expansion of water in the temperature range 0^@C to 4^@C .

The density of wathr at 0^@C is 0.998 g cm^(-3) at 4^@C is 1.00 g cm^(-3) . Calculate the average coefficient of volume expansion of water in the temperature range 0 to 4^C .