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. If final temperature of the sink is N times 65K then .N. is equal to

The efficiency of a heat engine if the temperature of the source is 100^@C and sink is 27^@C is nearly

A reversible Carnot heat engine converts (1)/(4) th of its input heat into work. When the temperature of the sink is reduced by 50 K its efficiency becomes 33 (1)/(3)% . The initial temperatures of the source and the sink respectively are

The efficiency of a heat engine if the temperature of source 227^(@)C and that of sink is 27^(@)C nearly

The temperature of sink of Carnot engine is 27^(@) C. Efficiency of engine is 25%. Then temperature of source is

Consider a reversible engine of efficiency 1/6 when the temperature of the sink is reduced by 62 ^@C , its efficiency gets doubled . The temperature of the source and sink respectively are

(A): Efficiency of carnot engine increase on reducing the temperature of sink. (R ): The efficiency of a Carnot engine is defined as ratio of net mechanical work done per cycle by the gas to the amount of heat energy absorbed per cycle from the source.

A reversible engine converts one - sixth of the heat suplied into work . When the temperature of the sink is reduced by 62^@C , the efficiency of the engine is doubled . The temperatures of the source and sink are