Six moles of an ideal gas performs a cycle shown in figure, the temperature are `T_A=600K,T_B=800K`,`T_C=2200K` and `T_D=1200K`, the work done per cycle is

Six moles of an ideal gas performs a cycle shown in figure. If the temperature are T_(A) = 600 K , T_(B) = 800 K , T_(C) = 2200 K and T_(D) = 1200 K , the work done per cycle is

3 moles of an ideal mono atomic gas performs a cycle as shown in fig. If gas temperature T_(A)=400 K T_(B)=800K,T_(C)=2400K , and T_(D)=1200K . Then total work done by gas is

The moles of an ideal monoatomic gas perform a cycle shown in figure. The gas temperatures in different states are T_(1) = 400 K, T_(2) = 800 K, T_(3) = 2400 K , and T_(4) = 1200 K . The work done by the gas during the cycle is :

Three moles of an ideal monoatomic gas perform a cyclic process as shown in figure. The gas temperature in different states are T_(1) = 400 K, T_(2) = 800 K, T_(3) = 2400 K and T_(4) = 1200 K . Find the work done during the cycle.

Three moles of an ideal monoatomic gas per form a cyclic as shown in the figure. The gas temperature in different states are: T_(1) = 400 K, T_(2) = 800 K, T_(3) = 2400 K and T_(4) = 1200 K . The work done by the gas during the cyclic is

Three moles of an ideal monoatomic gas per form a cyclic as shown in the Fig. the gas temperature in different states are T_(1) = 400 K, T_(2) = 800 K, T_(3) = 2400 K and T_(4) = 1200 K . The work done by the gas during the cyclic is

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

Mean kinetic energy of a perfect gas per gram at the temperature T K is

One mole of a diatomic ideal gas undergoes a cyclic process ABC as shown in figure. The process BC is adiabatic. The temperature at A,B and C are 400K, 800K and 600K respectively. Choose the correct statement: