1 g water has a volume of 1 `cm^(3)` at `4^(@)C`. Its volume at `60^(@)C` is `1.0169cm^(3)`. Calculate the average coefficient of real expansion of water between these two temperatures.

Masses of 10cm^(3) of water at 0^(@)C and 4^(@)C are 9.998 g and 10 g respectively. Calculate the coefficient of real expansion of water in this range of temperature.

Densities of glass at 10^(@)C and 60^(@)C are 2.6g*cm^(-3) " and " 2.596 g*cm^(-3) respectively. What is the average coefficients of linear expansion of glass in between these two temperatures?

A lead bullet has a volume of 2.5 cm^(3) " at " 0^(@)C . Its volume increases by 0.021cm^(3) when heated to 98^(@)C . Find the coefficient of linear expansion of lead.

The volume of a liquid at 15^(@)C is 830 m^(3) and at 90^(@)C it is 855 m^(3) . The coefficient of volume expansion of the liquid is

Density of mercury at 0^(@)C is 13.5955g*cm^(-3) . If the coefficient of linear expansion of mercury is 0.000061^(@)C^(-1) , find its density at 60^(@)C.

A brass rod has a length of 150 cm at 40^(@)C . What will be its length at 100^(@)C ? The coefficient of linear expansion of brass is 18 times 10^(-6@)C^(-1) .