In a heat engine, the temperature of the source and sink are 500 K and 375 K. If the engine consumes `25xx10^5J` per cycle, find(a) the efficiency of the engine, (b) work done per cycle, and (c) heat rejected to the sink per cycle.

In a heat engine , the temperature of the source and sink are 500 K and 375 K . If the engine consumes 25 xx 10^5 J per cycle, find the efficiency of the engine.

In a heat engine , the temperature of the source and sink are 500 K and 375 K . If the engine consumes 25 xx 10^5 J per cycle, find work done per cycle

In a heat engine , the temperature of the source and sink are 500 K and 375 K . If the engine consumes 25 xx 10^5 J per cycle, find heat rejected to the sink per cycle.

In a Carnot engine the temperature of the source and sink are 500 K and 375 K respectively. If the engine consumes 600xx10^3 cal/cycle, find (i) efficiency of the engine

In a Carnot engine, the temperature of the source and sink are 500K and 375K respectively. If the engine consumes 600xx10^(3) cals./cycle, find (i) the efficiency of engine (ii) work done/cycle (iii) heat rejected per cycle.

Ina Carnot engine the temperature of the source and sink are 500 K and 375 K respectively. If the engine consumes 600xx10^3 cal/cycle, find (iii) heat rejected per cycle.

Ina Carnot engine the temperature of the source and sink are 500 K and 375 K respectively. If the engine consumes 600xx10^3 cal/cycle, find (ii) Work done per cycle and

In a carnot engine, temperature of the source is 500 K and that of the sink is 375 K. If the engine absorbs 600 k cal heat from the source per cycle, find (i) its efficiency (ii) work done per cycle, (iii) heat released in the sink. (J = 4.2 J/cal)

In a Carnot engine temperature of the source and sink is 500 K and 375 K. The engine can absorb 600 kcal heat in one cycle. Calculate the efficiency and work done in a cycle.