The temperature of source and sink of a carnot engine are 400K and 300k respectively its efficiecy is

Find the efficiency of a carnot's engine working between 500K and 300K

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.

Describe the various operation of a carnot's reversible engine and obtain and expression its efficiency .

Two spheres of same material have radii 1 m and 4m and temperature 4000K and 2000K respectively. The energy radiated per second by the first sphere is

Find the efficiency of a carnot's engine that works between the temperature 427 degree C and 27 degree C of the source and the sink respectively . If the 140 calories of heat are absorbed from the source by the engine in one cycle calculate the heat rejected into the sink .

The triple points of neon and carbon dioxide are 24.57 K and 216.55 K respectively. Express these temperature's on the Celsius and Fahrenheit scales.

The rate constants of a reaction at 500K and 700K are 0.02s^-1 and 0.07s^-1 respectively. Calculate value of activation energy for the reaction. (Given R = 8.314 JK^-1 mol^-1)

The vapour pressures fo pure liquids A and B are 450 mm Hg and 700 mm Hg respectively at 350K. If the total vapour pressure of the mixture of the two liquids at 350K is 600mm Hg, Calculate the more fractions of the two components in the solution. Also, calcuate the partial pressures of the two components in the vapour phase.

Calculate the efficiency of a Canot engine operating between 450 K and 300K.