If 250ml of `N_(2)` at `30^(@)C` and a pressure of 250mm Hg are mixed with 400ml of `CH_(4)` at `30^(@)C` and pressure of 300mm Hg so that the volume of the resulting mixture is 350ml, what will be the final pressure of the mixture at `30^(@)C`? 

If 200 mL " of " N_(2) " at " 25^(@)C and a pressure of 250 mm are mixed with 350 mL " of " O_(2) " at " 25^(@)C and a pressure of 300 mm so that, the volume of resulting mixture is 300 mL , what would be the final pressure of the mixture at 25^(@)C ?

If 250 mL of N_(2) over water at 30^(@)C and a total pressure of 740 torr is mixed with 300 mL of Ne over water at 25^(@)C and a total pressure of 780 torr, what will be the total pressure if the mixture is in a 500 mL vessel over water at 35^(@)C . (Given : Vapour pressure (Aqueous tension )of H_(2)O at 25^(@)C and 35^(@)C are 23.8, 31.8 and 42.2 torr respectively. Assume volume of H_(2)O(l) is negligible in final vessel)

200 mL of hydrogen and 250 mL of nitrogen each measured at 15^(@)C and 760 mm pressure are but together in a 500 mL flask. What will be the final pressure of the mixture at 15^(@)C ?

125 mL of a gas A of pressure 500 mm is mixed with 200 mL of another gas B at a pressure of 300 mm in a vessel of 150 mL capacity. What will be the total pressure of the resulting mixture if the temperature is kept contant ?

At N.T.P. the volume of a gas is found to be 273 ml. What will be the volume of this gas at 600 mm Hg and 273^(@)C ?

The temperature at the foot of a mountain is 30^(@)C and pressure is 760 mm Hg , whereas at the top of the densities of air at the foot and top of the mountain.

250 mL of nitrogen gas maintained at 720 mm pressure and 380 mL of oxygen gas maintained at 650 mm pressure are put together in 1 L flask. If temperature is kept constant, what will be the final pressure of the mixture?