Two flasks of equal volume connected by a narrow tube (of negligible volume) are at `27^(@)C` and contain 0.70 mole of `H_(2)` to 0.5atm One of the flask is then immersed into a bath kept at `127^(@)C` while the other remains at `27^(@)C` Calculate the final pressure and the number of mole of `H_(2)` in each flask .

Two flasks of equal volume are connected by a narrow tube ( of negligible voume ) all at 27^(@)C and contain 0.70 mole of H_(2) at 0.5 atm. One of the flask is then immersed into a bath kept at 127^(@)C , while the other remainsat 27^(@)C . The final pressure in each flask is :

Two flasks of equal volume are connected by a narrow tube (of negligible volume ) all at 27^(@)C and each contain 0.70 moles of H_(2) at 0.5 atm. One of the flask is then immersed into a bath kept at 127^(@)C ,while the other remains at 27^(@)C . The number of moles of H_(2) in flask 1 and flask 2 are :

Two flask of equal volume are connected by a narrow tube (of negligible volume) are at 27^(@)C and contain 0.7 moles of H_(2) each at 0.5 atm. One of the flask is then immersed into a bath kept at 127^(@)C , while other remains at 27^(@)C . If number of moles of H_(2) in flask 1 and flask 2 finally, are a and b respectively, then calculate value of 10 xx |a-b| .

Two flasks of equal volume is connected by a narrow tube (of negligible volume) contains a certain amount of N_(2) gas at 2 atm and 27^(@)C . The 1st flasks is then immersed into a bath kept at 47^(@)C while the 2nd flask is immeresed into a bath kept at 127^(@)C . the ratio of the number of moles of N_(2) in 1st flask to the 2nd falsk after sometime will be?

Calculate the pressure exerted by two moles of gas at 27^@C in a 1 litre flask.

Two flasks of equal volume are connected by a narrow tube of negligible volume and are filled with N_(2) gas. When both the flasks are immersed in boiling water the gas pressure inside the system is 0.5 atm. Calculate the pressure of the system when one of the flasks is immersed in ice water while the other flask in boiling water.

Two flasks of equal volumes have been joined by a narrow tube of negligible volume. Initially both flasks are at 300 K containing 0.60 mol of O_2 gas at 0.5 atm pressure. One of the flasks is then placed in a thermostat at 600 K. Calculate number of moles of _2 2 gas in each flask.

Two bulbs of equal volume are connected by a narrow tube of negligible volume and filled with a gas at STP. IF one of the bulbs is kept in melting ice and the other in the water bath at 62^@C ,what will be the new pressure of the gas?

Two flasks of equal volumes have been joined by a narrow tube of negligible volume. Initially, both the flasks are 300K containing 0.6 mole of gas is present. One of the flasks is then placed in a thermostat at 600K. How many moles of gas are present in hot bulb?