A diatomic gas initially at 30°C is compressed adiabatically to one- eighth of its original volume. The temperature after compression will be

A diatomic gas initially at 18°C is compressed adiabatically to one eighth of its original volume. The temperature after compression will be

At normal temperature, one mole of diatomic gas is compressed adiabatically to half of its volume. Where, gamma = 1.41. The final temperature of the gas will be

In a petrol engine (internal combustion engine ) air at atmospheric pressure and temperature of 20^(@)C is compressed in the cylinder by the piston to 1//8 of its original volume . Calculate the termperature of the compressed air .

A gas is suddenly compressed to 1/4 th of its original volume. What is the rise in the temperature, if the original temperature of the gas being at 27°C and gamma = 1.5 ?

A gas is suddenly compressed to 1/4 th of its original volume at normal temperature. The increase in its temperature is (Take, gamma = 1.5).

A mass of ideal gas at pressure P is expanded isothermally to four times the original volume and then slowly compressed adiabatically to its original volume. Assuming gamma(=C_(P)//C_(V)) to be 1.5, find the new pressure of the gas.

1 liter of an ideal gas (gamma =1.5) at 300k is suddenly compressed to half its original volume. (a) Find the ratio of the final pressure to the initial pressure. (b) If the original pressure is 100 kpa , find the work done by the gas in the process. (c) What is the change in internal energy? (d) What is the final temperature? (e) the gas is now colled to 300k keeping its pressure constant. Calculate the work done during the process . (f) The gas is now expanded iasothermally to achive its original volume of 1 liters. Calculate the work done by the gas .(g) Calculate the total work done in the cycle.

A perfect gas at 27^(@)C is heated at constant pressure so as to double its volume. The temperature of the gas becomes.