A sample of an ideal non linear triatomic gas has a pressure `P_(0)` and temperature `T_(0)` taken through the cycle as shown starting from A . Pressure for process `C rarrD` is `3` times `P_(0)`. Calculate heat absorbed in the cycle and work done.

A sample of an ideal monoatomic gas is taken round the cycle ABCA as shown in the figure the work done during the cycle is

A sample of an ideal gas has pressure p_(0) , volume V_(0) and tempreture T_(0) . It is isothermally expanded to twice its oringinal volume.it is then compressed at constant pressure to have the original volume V_(0) . Finally, the gas is heated at constant volume to get the original tempreture.(a) show the process in a V-T diagram (b) calculate the heat absorbed in the process.

An ideal mono atomic gas is at temperature T_(0) . The pressure and volume are quasi-statically doubled such that the process traces a straight line on the PV diagram. (a) Calculate the heat absorbed by the gas in the process if number of moles of the gas in the sample is n. (b) Calculate the average molar specific heat capacity of the gas for the process.

Two moles a monatomic gas in state A having critical pressure P_(0) and temperature 3 T_(0) is taken to a state B having pressure 3 P_(0) and temperature T_(0)//3 by the process of equation P^(2) T = constant. Then state B is taken to state C keeping the volume constant and it comes back to initial state A keeping temperature constant. a. Plot a P and T graph. (P on the y-axis and T on the x-axis). Find the net work done and heat supplied to the gas during the complete cycle.

Two moles of an ideal monatomic gas is taken through a cycle ABCA as shown in the P-T diagram. During the process AB , pressure and temperature of the gas very such that PT=Constant . It T_1=300K , calculate (a) the work done on the gas in the process AB and (b) the heat absorbed or released by the gas in each of hte processes. Give answer in terms of the gas constant R.

One mole of an ideal gas at pressure P_(0) and temperature T_(0) is expanded isothermally to twice ist volume and then compressed at constant pressure to (V_(0) // 2) and the gas is brought bac to original state by a process in which P alpha V (pressure is direclty proportional to volume). The correct temperature of the process is

An ideal gas is taken around the cycle ABCA as shown below: Work done in the cyclic process is

A diatomic ideal gas is expanded at constant pressure. If work done by the system is 10 J then calculated heat absorbed.

One mole of an ideal gas is taken through a cyclic process. The minimum temperature during the cycle is 300K. Then, net exchange of heat for complete cycle is