Carnot's cycle is said to have `25%` efficiency when it operates between `T` (source) and `300K` (sink). Temperature `T` is

Efficiency of carnot heat engine,if source temperature is T1K and sink temperature is T2K

The efficiency of Carnot engine when source temperature is T 1 and sink temperature is T 2 will be

A Carnot engine, whose efficiency is 40% , takes in heat from a source maintained at a temperature of 500K. It is desired to have an engine of efficiency 60% . Then, the intake temperature for the same exhaust (sink) temperature must be:

A Carnot engine has efficiency 25%. It operates between reservoirs of constant temperatuers with temperature difference of 80^@C . What is the temperature of the low -temperature reservoir ?

A carnot engine has the same efficiency (i) between 100K and 500K and (ii) between TK and 900K . Caculate the temperature T of the sink.

An ideal heat engine working between temperature T_(1) and T_(2) has an efficiency eta , the new efficiency if both the source and sink temperature are doubled, will be

The efficiency of a Carnot engine which operates between the two temperatures T_1=500K and T_2=300K is

The efficiency of a carnot heat engine is 0.6 when the absolute temperatures of the source and sink are T_(1) and T_(2) respectively. The efficiency of another carnot engine is also 0.6 but the source and sink temperatures are different. What are the temperatures of the source and the sink of the other engine ?

A carnot engine has an efficiency of 40% when the sink temperature is 27^(@)C. The source temperature will be

The efficiency of a Carnot cycle is 1//6 . If on reducing the temperature of the sink by 65^@C , the efficiency becomes 1//3 , find the source and sink temperatures between which the cycle is working.