In order to double the separation between the molecules (keeping temperature fixed), the final pressure must be made how many times the intial pressure ?

An ideal gas at pressure of 1 atmosphere and temperature of 27^(@)C is compressed adiabatically until its pressure becomes 8 times the initial pressure, then the final temperature is (gamma=3//2)

An ideal gas at a pressures of 1 atmosphere and temperature of 27°C is compressed adiabatically until its pressure becomes 8 times the initial pressure. Then, the final temperature is (Take, gamma = 3/2).

An ideal gas at a pressure of 1 atm and temperature of 27^(@)C is compressed adiabatically until its pressure becomes 8 times the initial pressure , then final temperature is (gamma=(3)/(2))

An ideal gas at a pressure of 1 atm and temperature of 27^(@)C is compressed adiabatically until its pressure becomes 8 times the initial pressure , then final temperature is (gamma=(3)/(2))

If the masses of all the molecules of a gas are doubled and their speed are havled, then the ratio of the final and initial pressures will be

A fixed mass of a gas is adiabatically made to expand to double its volume and then isochorically heated to bring the gas to the original pressure. The ratio of final to initial temperature will be

In order to increase the volume of a gas to 3 times at constant pressure at 40^(@)C , the final temperature should be

If the number of moles of a gas are doubled by keeping the temperature and pressure constant, what will happen to the volume.