Two moles of an ideal monoatomic gas undergo a cyclic process which is indicated on a `P -U` diagram, where `U` is the internal energy of the gas. The work done by the gas in the cycle is `k xx 10^(2) ln2`. Find `k`.

One mole of an ideal monoatomic gas undergoes a cyclic process as shown in figure . Temperature at point 1 = 300K and process 2-3 is isothermal . . Net work done by gas in complete cycle is

An ideal gas undergoes a cyclic process whose indicator diagram is as shown in the figure. Find the work done by the gas in 1 complete cycle.

An ideal monoatomic gas undergoes a process in which its internal energy U and density rho vary as Urho = constant. The ratio of change in internal energy and the work done by the gas is

One mole of an ideal monoatomic gas undergoes a cyclic process as shown in figure. Then the change in the energy in expanding the gas from a to c along the path abc is:

100 mole of an ideal monoatomic gas undergoes a thermodynamic process as shown in the figure. The heat transfer along the process AB is 9 xx 10^(4) J. The neet work done by the gas during the cycle is (Take R = 8 J. K^(-1) "mole"^(-1) )

An ideal monoatomic gas undergoes a cyclic process ABCA as shown in the figure. The ratio of heat absorbed during AB to the work done on the gas during BC id

Two moles of a monatomic ideal gas undergo a cyclic process ABCDA as shown in figure. BCD is a semicircle. Find the efficiency of the cycle.