Dry air at `15^@ C` and `10 atm` is suddenly released at atmospheric pressure. Find the final temperature of the air `[C_p / C_v = 1.41]`.

Dry air at 15^0 C and 10 atm is suddenly released at atmospheric pressure. Find the final temperature of the air [C_p / C_v = 1.41] .

Dry air at 10 atm pressure and 15^circ C is suddenly compressed to compressed to atmospheric pressure. Find the new temperature. Given gamma=1.41 , log 2.88= 0.4594 , log 1.474=0.1686 .

1mol of an ideal gas at 400K and 10atm is allowed to expand, adiabatically, against 2.0atm external pressure. Find the final temperature of the gas. [Use: C_(v) = (5)/(2)R]

10 itres of monoatomic gas at 0^(@) C and 10 atm pressure is suddenly released to 1 atm pressure and the gas expands adibatically against the constant pressure. The final temperature and the volume of the gas respectively are :

10 litre of a monoatomic ideal gas at 0^(@)C and 10 atm pressure is suddenly released to 1 atm pressure and the gas expands adiabatically against this constant pressure. The final volume (L) of the gas.

The tube of a motor car cotaining air at 27^(@)C and 2 atmospheric pressure bursts suddenly. Find the temperature of the air immediately after the tube bursts. (gamma=1.4)

A gas at 27°C and pressure 30 atm is allowed to expand to 1 atm pressure and volume 15 times larger. The final temperature of the gas is

10 litre of a non linear polyatomic ideal gas at 127^(@)C and 2 atm pressure is suddenly released to 1 atm pressure and the gas expanded adiabatically against constant external pressure. The final temperature and volume of the gas respectively are.

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 .