A gas at NTP is slowly compressed to one-fourth of its original volume, then the final pressure is

Calculate the final temperature when a given mass of a gas at 0^@C is suddenly compressed adiabatically to a pressure 20 times the initial pressure gamma=1.42

16kg oxygen gas expands at STP to occupy double of its original volume. The work done during the process is:

A volume of dry air at 27^@C is compressed (b) suddenly to one third of its volume.Find the resulting temperature in each., case, taking y = 1.4 for air.

A certain mass of gas is allowed to expand adiabatically to 6 times its original volume. Find the relation between the initial and final pressure. gamma=1.4 .

When an ideal gas is compressed adiabatically and reversibly, the final temperature is:

A vessel has nitrogen gas and water vapours at a total pressure of 1 atm. The partial pressure of water vapours is 0.3 atm. The contents of this vessel are transferred to another vessel havig one third of the capacity of original volume, completely at the same temperature, the total pressure of the system in the new vessel is :

An ideal gas at 27^@C and a pressure of760 mm of mercury is compressed isotiiermally until its volume is halved. It is then expanded adiabatically to twice its original volume. If the value of gamma for the gas is 1.4. Calculate the final pressure and temperature of the gas.

A container contains 1 mole of a gas at 1 atm pressure and 27^@ C and its volume is 24.6 liters. If pressure is 10 atm and temperature 327^@ C then the new volume is approximately :