Figure shows volume - temperature (V-T) graph for same mass of an ideal gas at two different pressures `P_1`and `P_2`. Hence

The given figure shows the pressure-temperature (P-T) diagram for a fixed mass of an ideal gas undergoing cyclic process ABCA. The corresponding pressure-volume (P-V) graph for the given cyclic process will be

The volume V versus temperature T graphs for a certain amount of a perfect gas at two pressure p_1 and p_2 are as shown in Fig. Show that p_1 is less than p_2.

Volume versus temperature graphs for a given mass of an ideal gas are shown in figure. At two different values of constant pressure. What can be inferred about relation between P_(1) and P_(2) ?

Volume versus temperature graphs for a given mass of an ideal gas are shown in figure. At two different values of constant pressure. What can be inferred about relation between P_(1) and P_(2) ?

Volume versus temperature graphs for a given mass of an ideal gas are shown in figure. At two different values of constant pressure. What can be inferred about relation between P_(1) and P_(2) ?

The volume V versus temperature T graphs for a certain amount of a perfect gas at two pressure p_1 and p_2 are as shown in Fig. It follows from the graphs that p_1 is greater than p_2.

The volume-temperature graphs of a given mass of an ideal gas at constant pressure are shown below. What is the correct order of pressure ?

The density (rho) versus pressure (P) graphs of a given mass of an ideal gas is shown at two temperatures T_(1) and T_(2) . Then relation between T_(1) and T_2 may be

The pressure p and volume V of an ideal gas both increase in a process.

The pressure P and volume V of an ideal gas both decreases in a process.