`5g` of a gas is contained in a rigid container and is heated from `15^@C to 25^@C` . Specific heat capacity of the gas at constant volume is `0.172 cal g ^(-1)^@C^(-1)` and the mechanical equivalent of heat is 4.2 J cal . Calculate the change in the internal energy of the gas.

The specific heat capacity of water is ____ cal//g^(@)C

Find the increase in mass when 1 kg of water is heated from 0^@C to 100^@C . Specific heat capacity of water = 4200 J kg^(-1) K^(-1) .

A gas is taken along the path AB as shown in fig, if 70 cal of heat is extracted from the gas in the process, calculate the change in the internal energy of the system.

Calculate the heat energy required to raise the temperature of 2 kg of water from 10^@C to 50^@C . Specific heat capacity of water is 4200 JKg^(-1) K^(-1)

True or False: The specific heat capacity of water is 1.0 cal//g^(@)C

0.32 g of oxygen is kept in a rigid container and is heated. Find the amount of heat needed to raise the temperature from 25^0 C to 35^0 C . The molar heat capacity of oxygen at constant volume is 20 J K^(-1) mol^(-1) .

The molar heat capacity of a gas at constant volume is found to be 5 cal mol^(-1) K^(-1) . Find the ratio gamma = C_p/C_v for the gas. The gas constant R=2 cal mol^(-1) K^(-1).

The ratio of C_p / C_v = gamma for a gas. It's molecular weight is M. It's specific heat capacity at constant volume is

Calculate the change in internal energy of a block of copper of mass 200 g when it is heated from 25^@ C to 75^@ C. Specific heat of copper = 0.1 cal /g/ ""^(@) C and assume change in volume is negligible.

In Joly's differential steam calorimeter, 3g of an ideal gas is ccontained in a rigid closed sphere at 20^@C . The sphere is heated by steam at 100^@C and it is found that an extra 0.095 g of steam has condensed into water as the temperature of the gas becomes constant. Calculate the specific heat capacity of the gas in (Jg^(-1) K^(-1). The latent heat of vaporization of water = 540 cal g ^(-1) .