Two glass bulbs of equal volume are connected by a narrow tube and are filled with a gas at `0^@C` and a pressure of 76cm of mercury. One of the bulbs is then placed in melting ice and the other is placed in a water bath maintained at `62^@C`. What is the new value of the pressure inside the bulbs? The volume of the connecting tube is negligible.

two glass bulbs of equal volume are connected by a narrow tube and are filled with a gas at 0(@)C at a pressure of 76cm of mercury. One of the bulbs is then placed in melting ice and the other is placed in a water bath maintained at 62^(@)C .What is the new value of the pressure inside the bulbs? The volume of the connecting tube is neigligible.

two glass bulbs of equal volume are connected by a narrow tube and are filled with a gas at 0(@)C at a pressure of 76cm of mercury. One of the bulbs is then placed in melting ice and the other is placed in a water bath maintained at 62^(@)C .What is the new value of the pressure inside the bulbs? The volume of the connecting tube is neigligible.

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 glass bulbs of same volume containing a gas at NTP are connected by a very narrow tube. The pressure is 88.46cm of mercury when one bulb is kept in ice and the other in hot water. Calculate the temperature of the hot water.

Two glass bulbs of volumes 3L and 1L are connected by a narrow tube. The system is filled with air at 30^@C temperature and at 76 cmHg pressure. Now the bulb of volume 3L is immersed in water vapour at temperature 100^@C while the other bulb is kept at 30^@C . Find the air pressures in the two bulbs.Neglect the volume expansion of the 3L bulb.

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 :

A glass bulb of volume 100 cm^3 is connected by a narrow tube of negligible volume to another bulb of volume 300 cm^3 . The apparatus is filled with air at a pressure of 76 cm of mercury and a temperatureof 12^@ C, andthensealed. The smaller bulb is then immersedin melting ice whilst the larger bulb is placed in boiling water.Calculate the fraction of the total mass of air in the larger bulb, ignoring the expansion of the bulbs.