1 g of water at `100^(@)C` is completely converted into steam at `100^(@)C`. 1g of steam occupies a volume of 1650cc. (Neglect the volume of 1g of water at `100^(@)C`). At the pressure of `10^5N//m^2`, latent heat of steam is 540 cal/g (1 Calorie=4.2 joules). The increase in the internal energy in joules is

When 1 g of water at 100^@ C gets converted into steam at the same temperature, the change in volume is approximately

1 gm of ice at 0^@C is converted to steam at 100^@C the amount of heat required will be (L_("steam") = 536 cal//g) .

Find the amount of heat required to convert 10g of water at 100^(@)C into steam. (Spefic latent heat of vaporization of water = 540 cal //g )

1g of ice at 0^@ C is mixed 1 g of steam at 100^@ C . The mass of water formed is

Heat required to convert 1 g of ice at 0^(@)C into steam at 100 ^(@)C is

2g ice at 0^(@)C is mixed with 1 g steam at 100^(@)C . Find the final temperature of the mixture.

1gm water at 100^(@)C is heated to convert into steam at 100^(@)C at 1atm . Find out chage in internal energy of water. It is given that volume of 1gm water at 100^(@)C = 1c c , volume of 1gm steam at 100^(@)C = 167 1 c c . Latent heat of vaporization = 540 cal//g . (Mechanical equivalent of heat J = 4.2J//cal)

One mole of water at 100^@ C is converted into steam at 100^@ C at a constant pressure of 1 atm. The change in entropy is ____________. (heat of vaporization of water at 100^@ C=540 cal/g)