Equal masses of air are sealed in two vessels, one if volume `V_(0)`and the other of volume `2V_(0)`.If the first vessel is maintained at a temperature 300K and the other at 600K, find the ratio of the pressures in the two vessels.

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:-

A cylindrical block of length 0.4 m and area of cross-section 0.04 m^2 is placed coaxially on a thin metal disc of mass 0.4 kg and of the same cross - section. The upper face of the cylinder is maintained at a constant temperature of 400 K and the initial temperature of the disc is 300K . if the thermal conductivity of the material of the cylinder is 10 "watt"// m.K and the specific heat of the material of the disc is 600J//kg.K , how long will it take for the temperature of the disc to increase to 350 K ? Assume for purpose of calculation the thermal conductivity of the disc to be very high and the system to be thermally insulated except for the upper face of the cylinder.

There are two layers of water in a calorimeter, the lower one colder at temperature 30^(@)C and the upper one hotter at temperature 60^(@)C . The mass of lower water is m and volume is V . The mass of upper water is 2 m and volume is 2V . The coefficient of volume expansion for water is gamma . When the temperature of the whole system becomes equal , the ratio of new volume to the old volume is .

Two vessels have the same base area but different shapes . The first vessel takes twice the volume of water that the second vessel requires to fill upto a particular common height . Is the force exerted by the two water on the base of the vessel the same in the two cases ? If so , why do the vessels filled with water to that same height give different readings on a weighing scale ?

A diatomic gas is enclosed in a vessel fitted with massless movable piston. Area of cross section of vessel is 1m^2 . Initial height of the piston is 1m (see the figure). The initial temperature of the gas is 300K. The temperature of the gas is increased to 400K, keeping pressure constant, calculate the new height of the piston. The piston is brought to its initial position with no heat exchange. Calculate the final temperature of the gas. You can leave answer in fraction.

A vessel contains 14 g ( 7 moles ) of hydrogen and 96 g ( 3 moles) of oxygen at STP . Chemical reaction is induced by passing electric spark in the vessel till one of the gases is consumed. The temperature is brought back to it's starting value 273 K .The pressure in the vessel is-

Figure shows two flasks connected to each other. The volume of the flask 1 is twice that of flask 2 . The system is filled with an ideal gas at temperature 100 K and 200 K respectively. If the mass of the gas in 1 be m then what is the mass of the gas in flask 2

Two samples of a gas initially at same temperature and pressure are compressed from a volume V to (V)/(2) . One sample is compressed isothermally and the other adiabatically . In which sample is the pressure greater?

One mole of an ideal gas at 300 K expands from V to 2V volume, then work done W in this process will be …