One mole of an ideal gas is taken from state A to state B as shown `(P_(A)=2P_(0), V_(A)=V_(0)" and "P_(B)=P_(0), V_(B)=2V_(0))`. Find the maximum temperature attained during this process ?

The two gases are seperated by a fixed diathermic wall, with initial states as (P_(A), V_(A)) and (P_(b), V_(B))

A one mole of ideal gas goes through a process in which pressure p varies with volume V as p =3-g((V)/(V_(0)))^(2) , where, V_(0) is a constant. The maximum attainable temperature by the ideal gas during this process is (all quantities are is SI units and Ris gas constant)

A P-V diagram is obtained by changing the temperature of the gas as shown. During this process the gas is

A gaseous system changes from state A(P_(1), V_(1), T_(1)) " to " B(P_(2), V_(2), T_(2)), B " to " C(P_(3), V_(3), T_(3)) and finally from C to A. The whole process may be called

Figure shows the graph of pressure versus volume of an ideal gas, taken from state A to C via three different paths, i.e., ABC, AC and ADC. The internal energies of the gas corresponding to the states A and C are (P_0 V_0) and (5P_0 V_0) respectively. Determine The change in internal energy of the gas during the process AC.