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?

An ideal gas (gamma = (5)/(3)) is adiabatically compressed from 640 cm^(3) to 80cm^(3) . If the initial pressure is P then find the final pressure?

A sample of gas (gamma = 1.5) is taken through an adiabatic process in which the volume is compressed from 1600 cm^(3) to 400 cm^(3) . If the initial pressure is 150 kPa , (a) what is the final pressure and (b) how much work is done by the gas in the process?

If 20 cm^(3) gas at 1 atm is expanded to 50 cm^(3) at constant T , then what is the final pressure

If 20 cm^(3) gas at 1 atm is expanded to 50 cm^(3) at constant T , then what is the final pressure

Air is contained in a piston-cylinder arrangement as shown in Fig. with a cross-sectional area of 4 cm^(2) and an initial volume of 20 cm^3 . The air is initially at a pressure of 1 atm and temperature of 20^(@)C . The piston is connected to a spring whose spring constant is k = 10^(4) N//m , and the spring is initially underformed. How much heat must be added to the air inside cylinder to increase the pressure to 3 atm (for air, CV = 718 J//kg.^(@)C , molecular of air 28.97)?

An ideal gas at a pressure of 1 atm and temperature of 27^(@)C is compressed adiabatically until its pressure becomes 8 times the initial pressure , then final temperature is (gamma=(3)/(2))

A cylinder contains 0.3 moles of N_(2) , 0.1 mole of O_(2) and 0.1 mole of helium. If the total pressure is one atm, what is the partial pressure of oxygen in mm Hg:-

400 c c volume of gas having gamma=5/2 is suddenly compressed to 100 c c . If the initial pressure is P , the final pressure will be

If compressibility of material is 4xx10^(-5) per atm, pressure is 100 atm and volume is 100 cm^(3) then find triangleV=?

A given sample of an ideal gas (gamma = 1.5 ) is compressed adiabatically from a volume of 150 cm ^(3) to 50 cm ^(3) . The initial pressure and the initial temperature are 150 kpa and 300K . Find (a) the number of moles of the gas in the sample, (b) the molar heat capacity at constant volume, (c) the final pressure and temperature, (d) the work done by the gas in the process and (e) the change in internal energy of the gas .