For an ideal gas `V - T` curves at constant pressure `P_(1)` & `P_(2)` are shown in figure, from the figure

For V versus T curves at constant pressure P_1 and P_2 for and ideal gas shown in figure-

For V versus T curves at constant pressure P_(1) and P_(2) for an ideal gas are shown in the figure given below

V vs T curves at constant pressure P_(1) and P_(2) for an ideal gas are shown below Which is correct ?

V vs T curves at constant pressure P_1 and P_2 for an ideal gas are shown in the figure. Which of the following is correct?

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.

V vs T curves at different pressures P_(1) and P_(2) for an ideal gas are shown below: Which one of the following is correct?

1 mole of an ideal gas in a cylindrical container have the P-V diagram as shown in figure.If V_(2)=4V_(1) then the ratio of temperatures (T_(1))/(T_(2)) will be

The state of an ideal gas is changed through an isothermal process at temperature T_0 as shown in figure. The work done by the gas in going from state B to C is double the work done by gas in going from state A to B. If the pressure in the state B is (p_0)/(2) , then the pressure of the gas in state C is

The state of an ideal gas is changed through an isothermal process at temperature T_0 as shown in figure. The work done by the gas in going from state B to C is double the work done by gas in going from state A to B. If the pressure in the state B is (p_0)/(2) , then the pressure of the gas in state C is

The pressure and volume of an ideal gas are related as p alpha 1/v^2 for process A rarrB as shown in figure . The pressure and volume at A are 3p_0 and v_0 respectively and pressure B is p_0 the work done in the process ArarrB is found to be [x-sqrt(3)]p_0v_0 find