Ten litres of air at `17^(@)C` and 76 cm of Hg pressure is compressed adiabatically to a volume of 0.5 litre. Calculate the final temperature and pressure attained. Given `gamma=1.41`

Ten litres of dry air at 27^@C and 76 cm pressure is compressed adiabatically to a volume of 03 liter. Assuming gamma = 1.4 for dry air, fine the resulting pressure and temperature.

A volume of gas at atmospheric pressure is compressed adiabatically to half its original volume. Calculate the resulting pressure (gamma = 1.4)

A quantity of air at 27^(@)C and atmospheric pressure is suddenly compressed to half its original volume. Find the final (i) pressure and (ii) temperature. Given gamma for air = 1.42 .

A certain gas at atmospheric pressure is compressed adiabatically so that its volume becomes half of its original volume. Calculate the resulting pressure in Nm^(-2) . Given gamma for air = 1.4.

If the volume of air at 0^(@)C and 10 atmospheric pressure is 10 litre . Its volume, in litre, at normal temperature and pressure would be

The volume of a gas measured at 27^@C and 1 atm pressure is 10 litres. To reduce the volume to 5 litres at 1 atm pressure, the temperature required is

Helium at 27^(@)C has a volume of 8 litres. It is suddenly compressed to a volume of 1 litre. The temperature of the gas will be [gamma=5//3]

Diatomic gas at pressure 'P' and volume 'V' is compressed adiabatically to 1/32 times the original volume. Then the final pressure is