A bulb 'X' of unknown volume containing ...

A bulb 'X' of unknown volume containing a gas at one atmospheric pressure is connected to an evacuated bulb of 0.5 litre capacity through a stop -cock. On opening the stop-cock, the pressure in the whole system after some time was found to have a constant value of 570 mm at the same temperature. What is the volume of the bulb X ?

Similar Questions

Explore conceptually related problems

A bulb of unknown volume 'V' Contains an ideal gas at 2 atm pressure. It was connected to another evacuated bulb of volume 0.5 litre through a stopcock. When the stopcock was opened the pressure in each bulb became 0.5 atm. Then V is

A bulb of unknown volume V contains a gas at 1 atm pressure. This bulb was connected to another evacuated bulb of volume 0.5 L through a stop cock. When the stop cock was opened, the pressure at each bulb becomes 7.58xx10^(4)"Pa mm" while the temperature remained constant. Calculate V in litres.

A bulb A containing gas at 1.5 bar pressure was connected to an evacuated vessel of 1.0 dm^(3) capacity through a stopcock. The final pressure of the system dropped to 920 mbar at the same temperature. What is the volume of the container A?

A vessel containing 5 litres of a gas at 0.8 m pressure is connected to an evacuated vessel of volume 3 litres. The resultant pressure inside with be (assuming whole system to be isolated)

5g of ethane is confined in a bulb of one litre capacity .The bulb is so weak that it will burst if the pressure exceeds 10 atm. At what temperature will the pressure of gas reach the bursting value ?

A glass bulb contains 2.24 of H_(2) and 1.12L of D_(2) at STP . It is connected a fully evacuated bulb by a stop-cock with a small opening. The stop-cock is opened for sometime and then closed. The first bulb now contains 0.10 g of H_(2) . The percentage of H_(2) in the mixture is

Similar Questions

Recommended Questions