A perfect carnot engine utilizes an ideal gas the source temperature is 500 K and sink temperature is 375 K. If the engine takes 600 k cal per cycle from the source, calculate
Work done per cycle

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

A perfect Carnot engine utilises an ideal gas as the working substance. The source temperature is 227^circC and the sink temperature is 127^circC . Find the efficiency of the engine, and find the heat received from the source and the heat released to the sink when 10,000 J of external work is done.

A Carnot engine operates with a source at 500 K and sink at 375 K. Engine consumes 600 kcal of heat per cycle. The heat rejected to sink per cycle is

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 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.

Consider a carnot cycle operating between source tempeature 750 K and sink temperature 350 K producing 1.25 J KJ of mechanical work per cycle, the heat transferred to the engine by the reservers

An engine has been designed to work between sources and sink temperature of 177^circC and 27^circC respectively. If the energy input per cycle is 3600 J, then find work done by the engine per cycle.