A heat engine works between source and sink temperatures `150°C` and `30°C` respectively.The efficiency of heat engine may be

A heat engine works between a source and a sink maintaned at constant temperatures T_(1) and T_(2) . For the efficiency to be greatest

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 heat engine works between temperatures 300K and 600K .The efficiency of the engine can be ?

If the temperature of a source increases, then the efficiency of a heat engine

For a carnot engine the source and the sink temperatures are 527^(@)C and 47^(@)C respectively and the engine extracts 800 J of heat in each cycle. What is the area enclosed by the P-V diagram in terms of energy units ?

A heat enegine works on a carnot cycle with a heat sink at a temperature of 2700K . The efficiency of the engine 10% . Determine the temperature of heat source.

A carnot's engine works between a source at a temperature of 27^(@)C and a sink at -123 ^(@)C . Its efficiency is

A heat engine has an efficiency eta .Temperatures of source and sink are each decreased by 100 K. The efficiency of the engine

A Carnot engine used first ideal monoatomic gas and then an ideal diatomic gas , if the source and sink temperatures are 411^(@)C and 69^(@)C ,respectively and the engine extracts 1000 J of heat from the source in each cycle , then