Answer:
Based on the dependence of the Maxwell-Boltzmann distribution on gas molecules. On average, inside the bottle, the heavier molecules (2 moles of gas) will move more slowly than lighter molecules (if replace). Therefore, heavier molecules will have a smaller speed distribution, while lighter molecules will have a speed distribution that is more spread out and also the average speed, which is the sum of the speeds of all of the particles divided by the number of particles will be bigger in the former than the later.
The container consisting of 2 moles of gas has molecules of gas with higher kinetic energy, and the pressure exerted by the gas at the walls has been higher than compared to other gases.
The 4 bottles of the gas have been consisted of 1 mole of oxygen, 1 mole of carbon dioxide, 1 mole of Helium, and 2 moles of carbon dioxide.
The moles of carbon dioxide have more as compared to the moles of other gases. This states that more molecule has been present in the container as compared to other gases.
The more molecules in the specified space will result in an increased number of collisions in the gas, The increased collisions result in the higher energy and kinetic energy of the 2 moles of the gas container as compared to the other gases.
Thus, the pressure exerted on the sides of the wall by 2 moles of gas has been higher. The gas sample has higher kinetic energy and increased collisions.
For more information about the particles of gas, refer to the link:
https://brainly.com/question/1882043
