1 gm of water (`=1 cm^(3))` when boiled at 1 atmosphere pressure, requires 169 J of energy to get converted into steam. Which of the following gives the volume of the converted steam if latent heat of vaporization of water is 540 cal/gm?

The volume of 1 g of water (1 cm^3) becomes 1671 cm^(3) on being converted to steam at standard atmosphere pressure. Find out the work done and rise in internal energy. Given, latent heat of vaporisation of water = 540 cal cdot g^(-1) , the standard atmosphere pressure = 1.013 xx 10^(5) N cdot m^(-2) .

How much water at 1^@C can be converted to steam by 1 Cal heat ?

Calculate the free energy change and entropy change per mole when liquid water boils at 1 atmosphere latent heat of vaporization of water= 2.0723KJ mol^(-1)

A sample of 0.1 g of water at 100^(@)C and normal pressure (1.013 xx 10^(5) N cdot m^(-2)) requires 54 cal of heat energy to convert to steam at 100^(@)C . If the volume of the steam produced is 167.1 cc, the change in internal energy of the sample is

Calculate the entropy increase in the evaporation of 1 mole of a liquid when it boils at 100^@C having heat of vaporisation at 100^@C as 540 cals\gm.

169 J energy is required to transform 1g (1cm^(3)) of water into steam at 1 atm pressure. If the latent heat of vaporisation of water is 540 cal cdot g^(-1) , the volume of that steam will be

Determine the change in enthalpy and internal energy when 1 mole of water completely vaporises at 100^(@)C and 1 atm pressure. [Latent heat of vaporisation of water=536 cal*g^(-1) ]