for a given mass of an ideal gas at constant temperature draw and explain the graphs (i) `PV^(2)` vs V (ii) `P^(2)V` vs V.

For a definite mass of an ideal gas at constant temperature, V versus 1//P plot is a

For a definite mass of an ideal gas at constant pressure, V versus 1/P plot is a-

Plot density vs pressure for a fixed mass of an ideal gas at a constant temperature.

Why is the PV vs P plot for an ideal gas at a given temperature parallel to P axis?

(i) The equation of state of a real gas is P(V-b)=RT. Can the gas be liquified? Explain. (ii) Sketch log P vs log V graph for a given mass of an ideal gas at constant temperature and indicate the slope.

For a fixed mass of an ideal gas draw the following graphs: (i) P/T vs T (volume remaining constant) (ii) d (density) vs P (temperature remaining constant)

(i) Plotting V vs T for a given mass of an ideal gas at two different fixed pressures P_(1) and P_(2) gives two straight lines, one of which corresponds to P_(1) and the other corresponds to P_(2) . If P_(1) is greater than P_(2) , then which one of thes straight lines will make a larger angle with the T-axis? (ii) Plotting P vs T for a given mass of an ideal gas at two different fixed volumes V_(1) and V_(2) gives two straight lines, one of which corresponds to V_(1) and the other corresponds to V_(2) . if V_(1) is greater than V_(2) , then which one of these straight lines will make a larger angle with the T-axis?