Calculate the fall in temperature of helium initially at `15^(@)C`, when it is suddenly expanded to `8 times` its original volume `(gamma=5//3)`.

The fall in temperature of helium gas initially at 20^(@) when it is suddenly expanded to 8 times its original volume is (gamma=(5)/(3))

Calculate the change in temperature when a gas ( gamma = 1.4) is suddenly allowed to expand to one hundredth of its original pressure, its original temperature being 37^@C .

When the temperature is raised through 1^(@)C the volume is increased by (1)/(273) th times of the original volume . This is

A tyre pumped to a pressure of 3 atmospheres suddenly bursts. Calculate the fall in temperature due to adiabatic expansion. The temperature of air before expansion is 27^(@)C and value of gamma = 1.4 .

Calculate the rise in temperature when a gas, for which gamma = 1.5 is compressed to 27 times its original pressure, assuming the initial temperature to be 27^(@)C .

A gas of gamma=1.4 and initial temperature 0^(@)C is suddenly compressed to 1//5th its original volume. Calculate the rise in temperature.

Find the work done by a gas when it expands isothermally at 37^(@)C to four times its initial volume.