An adibatic cylindrical tube of cross-sectional area `1 cm^(2)` is closed at one end fitted with a piston at the other end. The tube contains `0.03 g` of an ideal gas . At 1 atm pressure and at the temperture of the surrounding, the length of the gas column. The pressure of the gas falls to `0.355 atm`. Find th speed of sound in the gas at atmospheric temperture.

An adiabatic cylindrical tube of cross-sectional area 1 cm^(2) is closed at one end fitted with a piston at the other end. The tube contains 0.03 g of an ideal gas . At 1 atm pressure and at the temperature of the surrounding, the length of the gas column is 40cm .The piston is suddenly pulled out to double the length of the column. The pressure of the gas falls to 0.355 atm . Find the speed of sound in the gas at atmospheric temperature.

A cylindrical tube of cross sectional area 20cm^(2) is filled with water to a height of 10cm. The tube carries a tight fitting piston of negligible mass. What will be the pressure exerted at the bottom of the tube when a mass of 2 kg placed on the piston? Atmospheric pressure can be ignored.

A uniform tube of volume V contains an ideal monatomic gas at a uniform pressure P the temperature of the gas varies linearly along te length of the tube ad T and 2 T are the temperature at the ends.

A uniform tube of volume V contains an ideal monatomic gas at a uniform pressure P the temperature of the gas varies linearly along te length of the tube ad T and 2 T are the temperature at the ends.

8.2 L of an ideal gas weights 9.0 g at 300 K and 1 atm pressure. The molecular mass of the gas is

A cylindrical tube of cross sectional area A and length L is filled with an ideal gas. Temperature of the gas varies linearly from T_(0) at one end to 2 T_(0) at the other end. Calculate the number of mole of the gas in the tube assuming pressure to be uniform throughout equal to P.

A cylindrical tube of cross-sectional area A has two air tight frictionless pistons at its two ends. The pistons are tied with a straight two ends. The pistons are tied with a straight piece of metallic wire. The tube contains a gas at atmospheric pressure P _(0) and temperature T _(0). If temperature of the gas is doubled then the tension inthe wire is -

8.2 L of an ideal weight 9.0 g at 300 K and 1 atm. pressure. The molecular mass of gas is

A sample of gas at 0^(@)C and 1 atm pressure occupies 3L. What change in temperature is necessary to adjust the pressure of the gas to 1.5 atm after it has been transferred to 2L container?