A refrigerator takes 500 calorie heat at the temperature 260 K. At 300 K, the heat rejected will be

Heat and temperature are

One mole of an ideal gas requires 135 J of heat to raise its temperature by 15 ^@ K when heated at constant pressure. If the same gas is heated at constant volume to raise the temperature by the same, then the heat required will be (R = 8.3J /mole ^@K)

200cal of heat is given to a heat engine so that it rejects 150 cal of heat, if source temperature is 400 K then the sink temperature is

One mole of an ideal gas requires 207 J heat to raise the temperature by 10 K, when heated at constant pressure. If the same gas is heated at constant volume to raise the temperature by 10 K, then heat required is [given gas constant. R = 8.31/(mol -K)]

The temperature inside a refrigerator is t_2 °C and the room temperature is t_1 °C. The amount of heat delivered to the room for each joule of electrical energy consumed ideally will be

The cofficient of performance of a refrigerator is 5. If the temperature inside freezer is -20^(@)C , the temperature of the surroundings to which it rejects heat is :

In a refrigerator one removes heat from a lower temperature and deposites to the surroundings at a higher temperature. In the process, mechanical work has to be done , which is provided by an electric motor. If the motor is of 1kW power , and heat is transferred from -3 ^@C to 27^@C , find the heat taken out of the refrigerator per second assuming its efficiency is 50% of a perfect engine.

Two Carnot engines A and B are operated in series. A receives heat at 900 K and rejects it to the reservoir at TK. B receives the rejected heat from Aand rejectsit to itsreservoir at 400 K. If the work outputs of A and B are equal, then T is

The ratio of the wavelength of emission corresponding to the maximum emission in the spectrum of a black body heated to temperatures 1000 K and 2000 K respectively is