When 1g of water at `0^@C` and `1xx10^5(N)/(m^2)` pressure is converted into ice of volume `1.091cm^3`. The external work done will e

When 1g of water at 0^(@)C and 1 xx 10^(4)Nm^(-2) pressure is converted into ice of volume 1.091 cm^(3) , find the work done by water? (rho_(w) = 1 gm//cm^(3))

How much work is done agaist uniform pressure when 1g of water at 100^(@)C is converted into steam? Express your result in calories (J=4.2 joules per calorie volume of 1kg of steam at 100^(@)C=1650xx10^(-3)m^(3) and 1 atmospheric pressure =10^(5)Nm^(-2) )

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

5.00 kg of liquid water is heated to 100. 0^@ C in a closed system At this temperature , the density of liquid water is 958 kg/ m^3 . The pressure is maintained at atmospheric pressure of 1.01 xx 10^5 Pa. A moveable piston of negligible weight rests on the surface of the water. The water is then converted to steam by adding an additional amount of heat to the system. When all of the water is converted, the final volume of the steam is 8.50 m^3 . The latent heat of vaporization of water is 2.26 xx 10^6 J/kg. How much work is done by this closed system during this isothermal process?

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

1 g of water (volume 1 cm^(3) becomes 1671 cm^(3) of steam when boiled at a pressure of 1atm. The latent heat of vaporisation is 540 cal/g, then the external work done is (1 atm = 1.013 xx 10^(5) N/ m^(2))

When water is boiled at 2 atm pressure the latent heat of vapourization is 2.2xx10^(6) J//kg and the boiling point is 120^(@)C At 2 atm pressure 1 kg of water has a volume of 10^(-3)m^(-3) and 1 kg of steam has volume of 0.824m^(3) . The increase in internal energy of 1 kg of water when it is converted into steam at 2 atm pressure and 120^(@)C is [ 1 atm pressure =1.013xx10^(5)N//m^(2) ]

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

1g of water at 100^(@)C is converted into steam at the same temperature. If the volume of steam is 1671 cm^(3) , find the change in the internal energy of the system. Latent of steam =2256 Jg^(-1) . Given 1 atmospheric pressure = 1.013xx10^(5) Nm^(-2)

A refrigerator takes heat from water at 0^(@)C and transfer it to room at 27^(@)C . If 100 kg of water is converted in ice at 0^(@)C then calculate the work done. (Latent heat of ice 3.4xx10^(5) J//kg )