A steel tank contains 300 g of ammonia gas `(NH_(3))` at a pressure of `1.35 xx 10^(6)` Pa and a temperature of `77^(@)C` . Later the temperature is `22^(@)C` and the pressure is `8.7 xx 10^(5)` Pa .

A compressed cylinder of gas contains 1.50xx10^(3) g of N_(2) gas at a pressure of 2.0xx10^(7) Pa and a temperature of 17.1^(@)C . What volume of gas has been released into the atmosphere if the final pressure in the cylinder is 1.80xx10^(5) Pa ? Assume ideal behaviour and that the gas temperature is unchanged.

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.

A rigid vessel of volume 0.50m^(3) containing H_(2) at 20.5^(@)C and a pressure of 611 xx 10^(3) Pa is connected to a second rigid vessel of volume 0.75 m^(3) containing Ar at 31.2^(@)C at a pressure of 433xx10^(3) Pa. A valve separating the two vessels is opened and both are cooled to a temperature of 14.5^(@)C . What is the final pressure in the vessels?

A steel beam used in the construction of a bridge has a length of 30.0 m when the temperature is 15^(@)C . On a very hot day, when the temperature is 35^(@)C , what will the beam's change in length be? (The coefficient of linear expansion for structural steel is +1.2 xx10^(-5)//""^(@)C .)

A 10.0 L container is filled with a gas to a pressure of 2.00 atm at 0^(@)C . At what temperature will the pressure inside the container be 2.50 atm ?

What is the pressure in an ocean at a depth of 1000 m, if the density of water is 1.024xx 10^(3) (kg)/m^(3) . Atmospheric pressure P. = 1.01 xx 10^(5) Pa.

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 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.

What is the pressure inside a drop of mercury of radius 3.0mm at room temperature? Surface tension of mercury at that temperature (20^(@)C) is 4.65xx10^(-1)Nm^(-1) . The atmospheric pressure is 1.01xx10^(5)Pa . Also give the excess pressure inside the drop.

Vessel A contains an ideal gas at a pressure 5xx10^(5) Pa and is connected with a heat source which maintains its temperature at 300 K . Another vessel B which has four time greater inner volume contains the same gas at a pressure 10^(5) Pa and is connected to a heat source which maintains its temperature at 400 K . What will be the pressure of entire system if two vessels are connected by a narrow tube tap:-