Which balloon has the greatest mass of gas

Join Here! Already have an account? Log in. Consider two gases, A and B, each in a 1. The mass of gas A in the container is 0. Which gas sample has the most molecules present? Which gas sample has the largest average kinetic energy?

Which gas sample has the fastest average velocity? How can the pressure in the two containers be equal to each other since the larger gas B molecules collide with the container walls more forcefully? So for this problem, we're being asked to consider two different gases A and B each and one leader containers with both gases at the same temperature and also both gases in the same at the same pressure.

The pressure of a equals the pressure of B. I'm are being asked, um or that we also have the masses of the containers. The container, um A has a massive 0. So thinking about the equation for number one PV equals and our tea, we know that our is constant.

We know that our temperature between the two is equal. The pressure between the two is equal, and the volume between the two is equal. The only way that that is possible is that the number of moles in A is also equal to the number of moles and be so therefore, they have an equal number of, um, molecules for part B. The second question is, which gas sample has the largest average kinetic energy. Um, in this case, we're gonna be thinking about our our equation for kinetic energy is kinetic.

Energy equals three halves are times t times the number of moles. Well, again, since the temperature is the same and the number of moles is the same than the kinetic energy for a is equal to the kinetic energy of B.

The third part of the question is asking which gas sample has the fastest average velocity? Um, so both gases have an equal number of moles, but B is heavier, so B has a massive 0. Is a lower velocity than a. And then finally, Part four is asking in this situation. Um, which how can the pressure in the two containers be equal to each other since the larger guests be molecules collide with the container walls more forcefully?

Well, so in this gift, we have to think about this in terms of not just the force that they're there, that they have, but also how quickly they're moving. So guess B can exert more for exert more force, but it's moving more slowly, so it has a has a smaller velocity, so it's colliding less often. I'm sorry that was Guess B. Guess A has a higher velocity, and so is it. Actually, therefore it hits more. It's more often, um so even though it has less force, it is hitting more often, and so therefore the pressures are equal.

Chemistry is the science of matter, especially its chemical reactions, but also its composition, structure and properties. Chemistry deals with atoms and their interactions with other atoms, and particularly with the properties of chemical bonds. Chemistry also involves understanding the properties and interactions of individual atoms and molecules for use in larger-scale applications.

In chemistry and physics, matter is any substance that has mass and takes up space by having volume. All everyday objects that can be touched are ultimately composed of atoms, which are made up of interacting subatomic particles, and in everyday as well as scientific usage, "matter" generally includes atoms and anything made up of them, and any particles and objects that act as if they have both rest mass and volume.

However it does not include massless particles such as photons, or other energy phenomena or waves such as light or sound. Matter exists in various states known as phases that are defined by various physical properties, such as state of matter, phase, shape, and density. Look for the molecule that is the largest and might have some attractions to each other.

Predict which balloon will be the smallest I would look for the molecule that I thought might have the best chance of getting through the pores of the balloon walls. For A wat do i plug in if they don't give me a volume.

For B what do i do if they don't give me a volume? Assume any volume you wish. It doesn't matter as long as you use the same number for all of them. And there is no other step. Just use 1 for P, But I had envisioned you doing it simpler than that. Since the problem says the same conditions, then we know P is the same, we know V is the same, we know R is the same and we know T is the same;therefore, n the number of mols MUST be the same.

So make it easy on yourself and pick 1 mol for n to start with. That will be 44 g for CO2, 32 g for O2, 28 g for N2, etc. You get the idea? Then you just compare to see which balloon has the highest mass and which the lowest mass. But the average KE is proportional to the temperature; that is, at the same temperature, all gases have the same average KE. The masses will be different and the speeds of the small molecules will be greater than those of larger molecules but the average KE will be the same.

Each balloon was filled with an identical number of moles of gas. Which of the following best explains why balloon B is larger than balloon A? First Name. Your Response. In lab, you use a special balloon that is permeable to water but not sucrose to make an "artificial cell". A very flexible helium-filled balloon is released from the ground into the air at The initial volume of the balloon is 5.

The balloon ascends to an altitude of 20 km , where the. In the lab, you use a special balloon that is permeable to water but not sucrose to make an "artificial cell. An empty rubber balloon has a mass of 0.

The balloon is filled with helium at a density of 0. At this density the balloon is spherical with a radius of 0. If the filled balloon is fastened to a vertical. A hot air balloon is rising vertically. From a point on level ground ft. How far does the balloon rise.