The volume of an ideal gas is adiabatically reduced from 350 L to 130 L. The initial pressure and temperature are 2.00 atm and 380 K. The final pressure is 8.00 atm. (a) is the gas monatomic, diatomic, or polyatomic? (b) What is the final temperature? (c) How many moles are in the gas?

The volume of an ideal diatomic gas with gamma = 1.5 is changed adiabatically from 16 litre to 12 litre. Find the ratio of the final and initial pressures and temperatures.

The volume of an ideal gas (gamma 1.5 ) is changed adiabatically from 4.00 liters to 3.00 liters . Find the ratio of (a) the final pressure to the initial pressure and (b) the final temperature to the initial temperature.

One mole of monoatomic ideal gas at T(K) is exapanded from 1L to 2L adiabatically under constant external pressure of 1 atm . The final tempreture of gas in kelvin is

An ideal monatomic gas at 300 K expands adiabatically to 8 times its volume . What is the final temperature ?

1 mole of monoatomic ideal gas subjected to irreversible adiabatic expansion against constant external pressure of 1 atm starting from initial pressure of 5 atm and initial temperature of 300K till the final pressure is 2 atm. What is the final temperature (in K) in the process? (take R = 2 cal/mol K).

An ideal monoatomic gas is adiabatically compressed so that its final temperature is twice its initial temperature. What is ratio of its final pressure to its initial pressure.

An ideal diatomic gas, with rotation but no oscillation,undergoes an adiabatic compression. Its initial pressure and volume are 1.20 atm and 0.200 m . Its final pressure is 3.60 atm. How much work is done by the gas?