A Carnot engine working between 200 Kand 500 K has done work equal to 800 joules. Amount of heat energy supplied to the engine from the source is

A Carnot engine working between 300 Kand 400 K has 800 J of useful work. The amount of heat energy supplied to the engine from the source is

Consider a Carnot 's cycle operating between T_1 = 500 K and T_2 = 300 K producing 1 kJ of mechanical work per cycle. Find the heat transferred to the enginer by the reservoirs.

A Carnot engine has the same efficiency between 800 K to 500K to 600K . The value of x is

A Carnot engine receives 2.0 kj of heat from a reservoir at 500 K, does some work, and rejects some heat to a reservoir at 351 K. How much heat is rejected.

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 the same efficiency between 100 k and 500 k .Calculate the temperature T K & 900 K of the sink.

A diatomic ideal gas is used in a Carnot engine as the working substance. If during the adiabatic expansion part of the cycle the volume of the gas increase from V to 32V, the efficiency of the engine is

Refrigerator A works between (-10)^@C and 27^@C while refrigerator B works between -20^@C and 17^@C , both removing heat equal to 2000 J from the freezer. Which of the two is the better refrigerator?

A Carnot engine, having an efficiency of eta= 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J, the amount of energy absorbed from the reservoir at lower temperature is

A Carnot engine receives 2.0 kj of heat from a reservoir at 500 K, does some work, and rejects some heat to a reservoir at 352 K. What is its efficiency?