A Carnot refrigerator extracts heat from water at `0^@C` and rejects it to room at `24.4^@C`. The work required by the refrigerator for every 1 kg of water converted into ice is
(Latent heat of ice=`336 kJ kg^(-1)`)

A cannot engine extracts heat from water at 0^(@)C and rejects it to room at 24.4^(@)C . The work required by the refrigerator for every 1 kg of water converted into ice (latent heat of ice=336 kj/kg) is

A carnot refrigerator absorbs heat from water at 0^(@)C and gives it to a room at 27^(@)C. Find the work done by the refrigerator and the coefficient of performance of the machine when it changes 2 kg of water at 0^(@)C to ice at 0^(@)C. Specific latent heat of ice =333 xx 10^(3) Jkg ^(-1)?

A Carnot refrigerator absorbs heat from water at 0^(@)C and gives it to room at 27^(@)C , when it converts 2 kg of water at 0^(@)C into ice at 0^(@)C , the work done is (latent heat of fusions of ice= (333xx10^(3) Jkg^(-1))

A Carnot refrigerator absorbs heat from water at O °C and gives it to a room at 27 °C. When it converts 2 kg of water at 0°C into ice. at 0°C, the work.done is (Latent heat of fusion of ice= 333 x 10^3Jkg^(-1) )

A Carnot refrigerator absorbs heat from water at O °C and gives it to a room at 27 °C. When it converts 2 kg of water at 0°C into ice. at 0°C, the work.done is (Latent heat of fusion of ice= 333 x 10^3Jkg^(-1) )

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 )

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 )

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 )

How much heat energy is required to melt 5 kg of ice ? Specific latent heat of ice = 336 J g^(-1)