The density of steam at `100^(@)C` and `10^(5) Pa` pressure is `0.6 Kgm^(-3)`. Calculate the compresibility factor of steam.

The density of steam at 100^(@)C and 10^(5) Pa pressure is 0.6 Kgm^(-3) . Calculate the compressibility factor of steam.

The density of steam at 100.0^@C and 1x10^5 Pa is 0.6 kgm^(-3) Calculate the compressibility factor (z) from these data.

The density of steam at 100^(@)C and 1 xx10^(5) Pa is 0.6 kgm^(-3) The compressibility factor for steam is .

The density of steam at 27^@C and 8.314xx10^4 pascal is 0.8 kg m^(-3) .The compressibility factor would be

The density of steam at 27^@C and 8.314xx10^4 pascal is 0.8 kg m^(-3) .The compressibility factor would be

calculate the increase in internal energy of 1 kg of water at 100(0)C when it is converted into steam at the same temperature and at 1atm (100 kPa). The density of water and steam are 1000 kg m^(-3) and 0.6 kg m^(-3) respectively. The latent heat of vaporization of water =2.25xx10^(6) J kg^(1) .

A steam engin intakes 100g of steam at 100^(o)C per minute and cools it down to 20^(o)C . Calculate the heat rejected by the steam engine per minute. Latent heat of vaporization of steam =540 cal g^(-1) .

At 100°C and 1 atm, if the density of liquid water is 1.0 g cm^(-3) and that of water vapour is 0.0006 gcm-3 , then the volume occupied by water molecules in 1 litre of steam at that temperature is: