In fig. the walls of the container and the piston are weakly conducting. The initial pressure, volume and temperature of the gas are `200KPa, 800 cm^(3)` and `100 K resp`. Find the pressure and the temperature of the gas it it is (a) slowly compressed (b) suddenly compressed to `200 cm^(3) (gamma = 1.5)`.

A gas is enclosed in a cylindrical can fitted with a piston. The walls of the can and the piston are adiabatic. The initial pressure , volume and temperature of the gas are 100 kPa, 400cm^(3) and 300K respectively. The ratio of the specific heat capacities of the gas is (C_p / C_v = 1.5) Find the pressure and the temperature of the gas if it is (a) suddenly compressed (b) slowly compressed to 100 cm^(3) .

A quantity of air is kept in a container having walls which are slightly conducting. The initial temperature and volume are 27^0C (equal to the temperature of the surrounding) and 800cm^(3) respectively. Find the rise in the temperature if the gas is compressed to 200 cm^(3) (a) in a short time (b) in a long time . Take gamma= 1.4.

A container having slightly conducting walls contains air. The initial temperature and volume are 47^(@)C (equal to the temperature of the surrounding) and 400cm^(3) respectively. Find the rise in the temperature if the gas is compressed to 200cm^(3) (a) in a short time (b) in a short time (b) in a along time. Take gamma = 1.4. [2^(0.4) = 1.3]

The volume of a certain quantity of oxygen is 200 cm^(3) at 15^(@)C and 0.98 bar pressure of Hg. What should be the temperature so that the volume becomes 180 cm^(3) under a pressure of 1 "bar" of Hg?

One mole of gas of specific heat ratio 1.5 being initially at temperature 290 K is adiabatically compressed to increase its pressure 8 times. The temperature of the gas after compression will be

A monatomic ideal gas is contained in a rigid container of volume V with walls of total inner surface area A, thickness x and thermal conductivity K. The gas is at an initial temperature t_(0) and pressure P_(0) . Find the pressure of the gas as a function of time if the temperature of the surrounding air is T_(s) . All temperature are in absolute scale.

A fixed mass of an ideal gas is compressed in such a manner that its pressure and volume can be related as P^3V^3 = constant. During this process, temperature of the gas is.

At a constant temperature, volume of a gas was found to be 400 cm^3 at a pressure of 760 mm Hg. If the pressure of the gas is increased by 25%, find the new volume.

Air contained in a cylinder at 20.0^(@)C is compressed froma n initial pressure of 1.00 atm, and volume of 700 cm^(3) to a volume of 70.0cm^(3) . If the final pressure is 15.0 atm then what is the final temperature?

Volume of a given mass of gas at 17 ∘ C is measured as 200 cm 3 . The volume of the same mass of gas at same pressure and a temperature of 47 ∘ C will be ?