The pressure (P) and absolute temperature (T) of an ideal gas are related to each other as `Pprop(1)/(T^(2))`. If temperature of gas is 300 K and its volume changes from V to 8 V, then find the final temperature of gas.

Temperature of an ideal gas is 300 K. The change in temperature of the gas when its volume changes from V to 2V in the process p = aV (Here, a is a positive constant) is

One mole of ideal gas goes through process P = (2V^2)/(1+V^2) . Then change in temperature of gas when volume changes from V = 1m^2 to 2m^2 is :

Temperature of an ideal gas is 300 K . The final temperature of the gas when its volume changes from V " to " 2V in the process p=alphaV (here alpha is a positive constant) is

Two moles of an ideal monoatomic gas occupy a volume 2V at temperature 300K, it expands to a volume 4V adiabatically, then the final temperature of gas is

The volume (V) of a mass of gas varies directly as its absolute temperature (T) and inversely as the pressure (P) applied to it. The gas occupies a volume of 300 ml, when the temperature is 210 K and pressure is 150 Pa. What is the temperature of gas whose volume and pressure are 200 ml and 250 Pa respectively?

At pressure P and absolute temperature T a mass M of an ideal gas fills a closed container of volume V. An additional mass 2M of the same gas is added into the container and the volume is then reduced to V/3 and the temperature to T/3 . The pressure of the gas will now be:

An ideal monatomic gas at 300 K expands adiabatically to 8 times its volume . What is the final temperature ?

The volume (V) of a mass of gas varies directly as its absulute temperature (T) and iversely as the pressure (P) applied to it. The gas occupies a volume of 400 ml when the temperature is 150 k and pressure is 240 Pa. what is the temperature of gas whose volume and pressure are 250 ml and 320 Pa respectively?