A refrigerator absorbs 2000 cal of heat from ice trays. If the coefficient of performance is 4, then work done by the motor 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)?

An ideal refrigerator has a freezer at a temperature of -13^(@)C . The coefficient of performance of the engine is 5 . The temperature of the air (to which heat is rejected) will be

A Camot refrigerator has freezer at temperature -8°C. The coefficient of performance of refrigerator is 5. The temperature of surrounding in which heat is rejected, will BE

If the efficiency of a carnot engine is eta ,then the coefficient of performance of a heat pump working between the same temperatures will be

For a refrigerator , heat absorbed from source is 800 J and heat supplied to sink is 500 J then find coefficient of performance is :-

A refrigerator whose coefficient of performance is 6, extract heat from cooling compartment at the rate of 300 J/cycle. How much heat per cycle is rejected in the room?

A system absorbs 300cal of heat , its volume doubles and temperature rises from 273 to 298 k , the work done on the surrounding is 200 cal . Delta E for the above reaction is :

A Carnot engine, used as refrigerator absorbs 380 J energy in one cycle from low temperature reservoir. If efficiency of this Carnot engine is 5% then amount of work done on refrigerator per cycle is

A carnot engine takes 6000 cal of heat from a reservoir at 627^(@)C and gives it to a sink at 27^(@)C . The work done by the engine is

A Carnot engine takes 9000 cal of heat from a reservoir at 627^@ C and gives it to a sink at 27^@C . The work done by the angine is