A Carnot’s engine works as a refrigerator between 250 K and 300 K. It receive 500 cal heat from the reservoir at the lower temperature. The amount of work done in each cycle to operate the refrigerator is:

A Carnot's engine works as refrigerator between 250 K and 300K. It receives 500 cal heat from the reservoir at the lower temperature. The amount of work done in each cycle to operate the refrigerator is :

A carnot engine works as a refrigrator between 250K and 350K.If it receives 750 cal of heat from the reserviour at lower temperature .Calculate the amount of heat rejected at higher tempertaure.

A Carnot engine works as a refrigerator in between 250K and 300K . If it acquires 750 calories form heat source at low temperature, then what is the heat generated at higher temperature (in calories)?

A Carnot engine works between 600K and 300K. The efficiency of the engine is

A heat engine is operating between 500 K to 300 K and it absorbs 10 kcal of heat from 500 K reservoir reversibly per cycle. Calculate the work done (in kcal) per cycle.

A carnot engine operates between temperature 600 K and 300 K . It absorbs 100 J from the source. Calculate the heat transferred to the sink.

A Carnot engine work as refrigerator in between 0^(@)C and 27^(@)C . How much energy is needed to freeze 10 kg ice at 0^(@)C /

A carnot engine is operated between two reserviors at temperatures of 500 K and 400 K. The engine receives 840 Joules of heat from the source in each cycle. Calculate (a) the amount of heat rejected to sink in each cycle (b) the efficiency of the engine, and (c) the work done in each cycle.

A Carnot refrigerator works between two temperatures of 300 K & 600 K. Find the COP of the refrigerator if heat removed from lower temperature in 300 J.

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