The `P-T` graph for the given mass of an ideal gas is shown in figure. Then the volume

The p-T graph for the given mass of an ideal gas is shown in figure. What inference can be drawn regarding the change in Volume (whtherit is constant, increasing or decreasing) ?

The p-T graph for the given mass of an ideal gas is shown in figure. What inference can be drawn regarding the change in Volume (whtherit is constant, increasing or decreasing) ?

The p-T graph for the given mass of an ideal gas is shown in figure. What inference can be drawn regarding the change in volume (whether it is constant, increasing or decreasing) ? How to proceed Definitely, it is not constant. Because when volume of the gas is constant p-T graph is a straight line passing through origin. The given line does not pass through origin, hence volume is not constant. . V = (nR)((T)/P) Now, to see volume of the gas we will have to see whether (T)/(P) is increasing or decreasing.

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) ?

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) ?

Pressure temperature (p-1) graph of n moles of an ideal gas is shown in the figure. Among the following four graphs, which are the corresponding pressure volume (p-V) and density pressure (p-p) graphs?

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

Pressure versus density graph of an ideal gas is shown in figure