The pressure p of a gas is plotted against its absolute temperature T for two different constant volumes `V_(1) and V_(2)` where `V_(1) gt V_(2)`. P is plotted on the y-axis and T on the x-axis

Figure shows the pressure versus temperature curves for a given mass of a gas corresponding to two different volumes V_1 and V_2 then

For a certain mass of gas Isothermal relations between 'P' and 'V' are shown by graphs at two different teperature T_(1) and T_(2) then

Two gases A and B having same pressure p, volume V and absolute temperature T are mixed. If the mixture has the volume and temperature as V and T respectively, then the pressure of the mixture is

One mole of a gas expands such that its volume 'v' changes with absolute temperature 'T' in accordance with the ralation V = HT^(2) where 'K' is a constant . If the temperature of the gas changes by 60^(@) C , then work done by the gas is (R is universal gas constant ) .

An ideal gas in a thermally insulated vessel at internal pressure = P_(4) , volume = V_(1) and absolute temperature = T_(1) expands irreversibly against zero external pressure, as shown in the diagram. The final internal pressure, volume and absolute temperature of the gas are P_(2), V_(2) and T_(2) , respectively. For this expansion.

n moles of a gas expands from volume V_(1) to V_(2) at constant temperature T. The work done by the gas is