The volume of a liquid at `10^(@)C` is 50 c.c. Find its volume at `100^(@)C`?
(`gamma_(R)` of liquid is `7xx10^(-4)//""^(@)C`).

The volume of a given mass of a gas at 27^(@)C , 1 atm is 100cc. What will be its volume at 327^(@)C ?

The volume of a gas at 20^(@)C is 100 cm 3 at normal pressure. If it is heated to 100^(@)C , its volume becomes 125 cm 3 at the same pressure, then volume coefficient of the gas at normal pressure is

A flask of volume 10^3 cc is completely filled with mercury at 0^@C The coefficient of cubical expansion of mercury is 180xx10^(-6)//^(@)C and heat of glass is 40xx10^(-6)//^(@)C . If the flask in now placed in boiling water at 100^@C how much mercury will overflow?

When water is heated from 0^(@)C to 10^(@)C , its volume

When water is heated from 0^(@)C to 10^(@)C , its volume

The volume of a gas at 0^(@)C and 760 mm pressure is 22.4 c c. The no . Of molecules present in this volume is

The exponent of 7 in 100C_50 is

(a) The brass scale of a barometer gives correct reading at 0^(@)C . Coefficient of linear expansion of brass is 2.0xx10^(-5)//^(@)C . The barometer reads 75cm at 27^(@)C . What is the atmospheric pressure at 27^(@)C ? (b) A barometer reads 75.0cm on a steel scale. The room temperature is 30^(@)C . The scale is correctly graduated for 0^(@)C . The coefficient of linear expansion of steel is alpha=1.2xx10^(-5)//^(@)C and the coefficient of volume expansion of mercury is gamma=1.8xx10^(-4)//^(@)C . Find the correct atmospheric pressure.

A glass flask of volume 200cm^(3) is just filled with mercury at 20^(@)C . The amount of mercury that will overflow when the temperature of the system is raised to 100^(@)C is (gamma_(glass)=1.2xx10^(-5)//C^(@),gamma_(mercury)=1.8xx10^(-4)//C^(@))

When 100 g of a liuqid A at 100^(@)C is added to 50 g of a liquid B at temperature 75^(@)C , the temperature of the mixture becomes 90 C, if 100g of liquid A at 100^(@)C is added to 50 g of liquid B at 50^(@)C will be.