A closed hollow insulated cylinder is filled with gas at `0^(@)C` and also contains an insulated piston of negligible weight and negligible thickness at the middle point. The gas on one side of the piston is heated to `100^(@)C`. If the piston moves `5 cm` the length of the hollow cylinder is

An insulated cylinderical vessel filled with an insulated piston of negligible weight and negligible thickness at the mid point of the vessel . The cylinder contains a gas at 0^@C .When the gas is heated to 100^@C , the piston moves through a length of 5 cm . Length of the cylindrical vessel in cm is

A uniform tube with a piston in the middle and containing a gas at 0°C is heated to 100°C at one side. If the piston moves 5cm, find the length of the tube containing the gas at 100°C.

A uniform tube closed at both ends with a light piston in the middle contains a gas at 27^(@)C .If one part is heated to 127^(@)C the piston moves by 10cm .Then the length of the tube containing gas at higher temperature is

A vertical closed cylinder is separated into two parts by a frictionless piston of mass m and of negligible thickness. The piston is free to move along the length of the cylinder. The length of the cylinder above the piston is l_(1) , and that below the piston is l_(2) , such that l_(1)gtl_(2) . Each part of the cylinder contains n moles of an ideal gas at equal temeprature T. If the pistion is stationary, its mass, m, will be given by : (R is universal gas constant and g is the acceleration due to gravitey)

A vertical closed cylinder is separated into two parts by a frictionless piston of mass m and of negligible thickness. The piston is free to move along the length of the cylinder. The length of the cylinder above the piston is l_(1) , and that below the piston is l_(2) , such that l_(1)gtl_(2) . Each part of the cylinder contains n moles of an ideal gas at equal temeprature T. If the pistion is stationary, its mass, m, will be given by : (R is universal gas constant and g is the acceleration due to gravitey)