A glass bulb of volume `400 cm^(3)` is connected to another bulb of volume `200 cm^(3)` by means of a tube of negligible volume. The bulbs contain dry air and are both at a common temperature and pressure of `20^(@) C` and 1.000 atm, respectively. The larger bulb is immersed in steam at `100^(@) C` and the smallar in melting ice at `0^(@)`. Find the final common pressure.

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.

Two bulbs of 100 c.c and 200 c.c capacity, contain the same gas at same temperature and pressure are connected by a capillary tube of negligible volume. Initially both were at 0^(@)C . Now the temperature of the bigger bulb is raised to 100^(@)C and that of the smaller bulb being kept at 0^(@)C . If the initial pressure was 76 cm of mercury, what is the final pressure ?

Two bulbs of volumes 200 cm^(3) and 100 cm^(3) are connected by a short tube containing an insulating porous plug that permits equalization of pressure but not of temperature between the bulbs. The system is sealed at 77^(@)C when it contains oxygen under a pressure of 1 bar. The small bulb is immersed at 27^(@)C and the large bulb is placed at 127^(@)C . Neglecting thermal expansion of the bulbs, select the correct options.

The pressure of air in a constant volume air thermometer is 80cm and 109.3cm at 0^(@)C and 100^(@)C respectively. When the bulb is placed in some hot water, the pressure is 100cm. Calculate the temperature of the hot water.

A uniform glass tube of 100 cm length is connected to a bulb containing hydrogen at one end and and another bulb containing oxygen at the other end at the same temperature and pressure. The two gases meet for the first time at the following distance from the oxygen end

Two bulbs of 100 c.c and 200 c.c capacity, contain the same gas at same temperature and pressure are connected by a capillary tube of negligible volume. Initially both were at 0^(@)C . Now the temperature of the bigger bulb is raised to 100°C and that of the smaller bulb being kept at 0^(@) C . If the initial pressure was 76 cm of mercury, what is the final pressure in cm of Hg

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?