To an evacuated vessel with movable pist...

To an evacuated vessel with movable piston under external pressure of `1 atm`, `0.1 mol` of `He`, and `1.0 mol` of an unknown compound (vapour pressure `0.68 atm` at `0^(@)C`) are introduced. Considering the ideal gas behviour, calculate the total volume (in `L`) of the gases at `0^(@)C`.?

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To an evacuated vessel with movable piston under external pressure of 1 atm 0.1 mole of He and 1.0 mole of an unknown compound vapour pressure 0.68 atm at 0^(@)C are introduced Considering the ideal gas behaviour the total volume (in litre) of the gases at 0^(@)C is close to .

To an evacuated vessel with movable piston under external pressure of 1 atm, 0.1 mole of He and 1.0 mole of an unknown compound (vapour pressure 0.68 atm at 0°C) are introduced. Considering the ideal gas behaviour, the total volume (in litre) of the gases at 0°C is close to

To an evacuated vessel with movable piston under external pressure of 1 atm and 0.1mole of He and 1 mole of an unknown compound (vapour pressure 0.68 atm at 0^(@) C) are introduced. Considering the ideal behaviour, the volume (in litre) of the gases at 0^(@) C is close to:

To an evacuated vessel with movable piston under external pressure of `1 atm`, `0.1 mol` of `He`, and `1.0 mol` of an unknown compound (vapour pressure `0.68 atm` at `0^(@)C`) are introduced. Considering the ideal gas behviour, calculate the total volume (in `L`) of the gases at `0^(@)C`.?

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