At `100^(@)C` the volume of `1 kg` of water is `10^(-3) m^(3)` and volume of `1 kg` of steam at normal pressure is `1.671 m^(3)`. The latent heat of steam is `2.3 xx 10^(6) J//kg` and the normal pressure is `10^(5) N//m^(2)`. If `5 kg` of water at `100^(@)C` is converted into steam, the increase in the internal energy of water in this process will be

At 100^(@)C the volume of 1 kg of water is 10^(-3) m^(3) and volume of 1 kg of steam at normal pressure is 1.671 m^(3) . The latent heat of steam is 2.3 xx 10^(6) J//kg and the normal pressure is 5xx10^(5) N//m^(2) . If 5 kg of water at 100^(@)C is converted into steam, the increase in the internal energy of water in this process will be

1 "cm"^3 of water at 1 atm pressure is converted into steam, volume of steam becomes 1671 "cm"^3 hence increase in internal energy will be ____

A sample of 0.1 g of water of 100^(@)C and normal pressure (1.013 xx 10^(5) N 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

A sample of 0.1 g of water of 100^(@)C and normal pressure (1.013 xx 10^(5) N 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

At a pressure of 10^(5)N//m^(2) , the volumetric strain of water is 5xx10^(-5) . Calculate the speed of sound in water. Density of water is 10^(3)kg//m^(3).

1.0 m^(3) of water is converted into 1671 m^(3) of steam at atmospheric pressure and 100^(@)C temperature. The latent heat of vaporisation of water is 2.3xx10^(6) J kg^(-1) . If 2.0 kg of water be converted into steam at atmospheric pressure and 100^(@)C temperature, then how much will be the increases in its internal energy? Density of water 1.0xx10^(3) kg m^(-3) , atmospheric pressure = 1.01xx10^(5) Nm^(-2) .

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

A sample of 0.1 g of water at 100 and normal pressure (1.013 xx10^(5)Nm^(-2)) requires 54 cal of heat energy to convert to steam at 100^@C . If the volume of the steam produced is 167.1 c c the charge in internal energy of the sample is

Specific latent heat of vaporization of water is 2.26 xx 10^6 J//kg . Calculate the energy needed to change 5.0 g of water into steam at 100^@C