The temperature inside and outside of refrigator are `260 K` and `315 K` respectively . Assuming that the refrigerator cycle is reversible, calculate the heat delivered to surroundings for every joule of work done .

The temperature inside and outside a refrigerator are 273 K and 300 K respectively. Assuming that the refrigerator cycle is reversible. For every joule of work done heat delivered to the surrounding will be nearly :-

Carnot engine working as a refrigerator between 260K and 300K receives 500cal of heat from the freezing chamber. Calculate the heat rejected by it to the higher temperature reservior and also the work done per cycle to operate the refrigerator.

The temperature inside a refrigerator is t_(2)^(@)C . The amount of heat delivered to the room for each joule of electrical energy consumed ideally will be

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

In a refrigerator, heat from inside at 277 K is transferred to a room at 300K . What is the cofficient of performance of the refrigerator. How many joule of heat will be deliverd to the room for each joule of electric energy consumed ideally?