Cascaded Carnot engine is an arrangement in which heat sink of one engine is source for other. If high temperature for one engine is `T_1`, low temperature for other engine is `T_2` (Assume work done by both engine is same) Calculate lower temperature of first engine

The temperature of sink of Carnot engine is 27°C. Efficiency of engine is 25%. Then find the temperature of source.

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

The temperature of sink of Carnot engine is 127^@C . Efficiency of engine is 50% . Then, temperature of source is

Source temperature of a carnot engine is 127 celsius if efficiency of carnot engine is 60% then find sink temperature

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

Two ideal Carnot engines operate in cascade (all heat given up by one engine is used by the other engine to produce work) between temperatures, T_(1) and T_(2) . The temperature of the hot reservoir of the first engine is T_(1) and the temperature of the cold reservoir of the second engine is T_(2) . T is temperature of the sink of first engine which is also the source for the second engine. How is T related to T_(1) and T_(2) , if both the engines perform equal amount of work?

Two ideal Carnot engines operate in cascade (all heat given up by one engine is used by the other engine to produce work) between temperatures, T_(1) and T_(2) . The temperature of the hot reservoir of the first engine is T_(1) and the temperature of the cold reservoir of the second engine is T_(2) . T is temperature of the sink of first engine which is also the source for the second engine. How is T related to T_(1) and T_(2) , if both the engines perform equal amount of work?