A vessel contains 1.60g of oxygen and 2.80g of nitrogen. The temperature is maintained at 300K and the voume of the vessel is `0.166m^(3)`. Find the pressure of the mixture.

A vessel contains 0.5g of hydrogen and 0.8g of oxygen. The volume of vessel is (5)/(28)m^(3) while its temperature is maintanied at 300K . Find the pressure of the mixture. (Assuming no reaction takes place between hydrogen and oxygen) (M_(H_(2)) =2 , M_(O_(2)) = 32 & R = (25)/(3) J//mol-K)

A vessel contains 0.5g of hydrogen and 0.8g of oxygen. The volume of vessel is (5)/(28)m^(3) while its temperature is maintanied at 300K . Find the pressure of the mixture. (Assuming no reaction takes place between hydrogen and oxygen) (M_(H_(2)) =2 , M_(O_(2)) = 32 & R = (25)/(3) J//mol-K)

A closed vessel contains 8 g of oxygen and 7 g of nitrogen. The total pressure is 10 atm at a given temperature. If now oxygen is absorbed by introducting a suitable absorbent, the pressure of the remaining gas in atm will be

A closed vessel contains 8 g of oxygen and 7 g of nitrogen. The total pressure is 10 atm at a given temperature. If now oxygen is absorbed by introducting a suitable absorbent, the pressure of the remaining gas in atm will be

A Vessel contains 14g of hydrogen and 96g if oxygen at STP. Find the volume of the vessel.

A container of volume 0.166 m^3 contains a mixture of 1.60 g oxygen and 2.80 g nitrogen at constant temperature 300 K. Find the pressure of the mixture.

A vessel of volume 1660 cm^(3) contains 0.1 "mole" of oxygen and 0.2 "mole" of nitrogen. If the temperature of the mixture is 300 K , find its pressure.

50 g of dinotrogen (N_(2)) and 2.0 g of helium are enclosed in a vessel already containing 2.0 g of oxygen. Calculated the total pressure and the fraction of the total pressure exerted by He. The volume of the vessel is 10 cm^(3) and the temperature is 300 K

50 g of dinotrogen (N_(2)) and 2.0 g of helium are enclosed in a vessel already containing 2.0 g of oxygen. Calculated the total pressure and the fraction of the total pressure exerted by He. The volume of the vessel is 10 cm^(3) and the temperature is 300 K