An ideal gas of volume 1.0L is adiabatically compressed to `frac(1)15)th` of its initial volume. Its initial pressure and temperature is `1.01xx10^5` Pa and `275^@C respectively. Given Cv for ideal gas = 20.8J/mol.K and `gamma` = 1.4. How would your answers change, if the process were isothermal?

An ideal gas of volume 1.0L is adiabatically compressed to frac(1)(15)th of its initial volume. Its initial pressure and temperature is 1.01xx10^5Pa and 275^@C respectively. Given Cv for ideal gas = 20.8J/mol.K and gamma = 1.4. Calculate final pressure.

An ideal gas of volume 1.0L is adiabatically compressed to frac(1)15)th of its initial volume. Its initial pressure and temperature is 1.01xx10^5 Pa and 275^@C respectively. Given Cv for ideal gas = 20.8J/mol.K and gamma = 1.4. Calculate final temperature

An ideal gas of volume 1.0 L is adiabatically compressed to (1/15) of its initial volume. Its initial pressure and temperature is 1.01 xx 10^5 Pa and 27^@C respectively . Given CV for ideal gas = 20.8 J/mol.K and y = 1.4 . Calculate work done

A gas for which gamma=1.5 is suddenly compressed to 1//4 th of the initial volume. Then the ratio of the final to initial pressure is

5.6 liter of helium gas at STP is adiabatically compressed to 0.7 liter. Taking the initial temperature to be T_1, the work done in the process is

A gas initially at 17^@C issuddenly compressed to 1/8 of its original volume. Find the temperature after compression ? [gamma = frac(5)(3)]

The compressive ratio of a certain diesel engine is 15 . This means that air in the cylinder is compressed to 1/15 of its initial volume. If the initial pressure is 1.0 xx10^5 Pa and the initial temperature is 300 K, find the final pressure and temperature after compression. Air is mostly a mixture of oxygen and nitrogen and y = 1.4

An ideal gas expands isothermally from volume V_(1) to V_(2) and is then compressed to original volume V_(1) adiabatically. Initialy pressure is P_(1) and final pressure is P_(3) . The total work done is W . Then

1mm^3 of a gas is compressed at 1 atmospheric pressure and temperature 27^@C to 627^@C . What is the final pressure under adiabatic condition (gamma for the gas =1.5 )