A gas cylinder has walls that can bear a maximum pressure of `1.0xx10^(6)`Pa. It contains a gas at `8.0xx10^(5)`Pa and 300K. The cylinder is steadily heated. Neglecting any change in the volume calculate the temperature at which the cylinder will break.

A gas cylinder has walls that can bear a maximum pressure of 1.0times10^(6)Pa .It contains a gas at 8.0times10^(5)Pa and 300K .The cylinder is steadily heated.Neglecting any change in the volume.If the temperature at which the cylinder will breaks is 75nK find n .?

An LPG cylinder contains gas at a pressure of 300 kPa at 27^(@)C . The cylinder can withstand the pressure of 1.2 xx 10^6 Pa. The room in which the cylinder is kept catches fire. The minimum temperature at which the bursting of cylinder will take place is __________ ""^(@) C. (Nearest integer)

A glass container encloses a gas a pressure of 8 xx 10^(5) pa and 300 K temperature. The container walls can bear a maximum pressure of 10^(6) Pa. If the temperature of container is gradually increased, find the temperature at which the container will break.

A vessel of volume 8.0xx10^(-3) m^(3) contains an ideal gas at 300K and 200kPa. Calulate the amount of the gas (in moles) leaked assuming that the tenperature remains constant.

A glass container encloses gas at a pressure 4 xx10^5 Pa and 300 K temperature. The container walls can bear a maximum pressure of 8 xx10^(5) Pa. If the temperature of container is gradually increased find temperature at which container will break.

A cylinder contains accetylene gas at 27^(@)C and 4.05M pa . The pressure in the cylinder after half the mass of gas is used up and temperature has fallen to 12^(@)C will be:

A gas at constant pressure of 4.5xx10^(5)Pa to a gas it is compressed from 10 m^(3) to 3.0m^3 on givinig a heat of 800 kJ. The change in internal energy is

Figure-2.47 shows a cylindrical container of radius 5cm and a piston is fitted in it to enclose a length of 20 cm in it.The cylinder contains an ideal gas at a pressure of 1 atmosphere and 300 K temperature.The cylinder is slowly heated and it is found that the piston starts displacing when the gas temperature reaches 600 K. It is given that the friction coefficient between the piston sidesand the container wall is 0.2. Find the normal force acting between piston sides and the container wall per unit length ofits circumference.

An iron cylinder contains helium at a pressure of 250 k Pa at 300 K . The cylinder can withstand a pressure of 1 xx 10^(5) Pa . The room in which the cylinder is placed catches fire. Predict whether the cylinder will blow before it melts or not (m.p of cylinder = 1800 K )

Oxygen is filled in a closed metal jar of volume 1.0xx10^(-3)m^(3) at a pressure of 1.5xx10^(5)Pa. and temperature 400K.The jar has a small leak in it. The atmospheric pressure is 1.0xx10^(5) Pa and the atmospheric temperature is 300K. Find the mass of the gas that leaks out by time the pressure and the temperature inside the jar equlise with the surrounding.