What is the barrier that keeps in molecules?

In summary, the atmosphere is composed of four main parts: the troposphere, stratosphere, mesosphere, and thermosphere. The majority of air molecules are found in the troposphere and there is ozone production in the stratosphere. The molecules in the troposphere are kept in place by gravity, but their energy causes them to bounce off of each other, resulting in a decrease in air density as altitude increases. This trend stops and reverses in the stratosphere, where the temperature increases with altitude. The atmosphere continues to thin out until it reaches a point where its density is equal to that of space. The temperature changes in the different layers of the atmosphere are caused by factors such as UV radiation absorption.
  • #1
Leoragon
43
0
There is the atmosphere that is composed of 4 parts: the troposphere, the stratosphere, the mesosphere, and the thermosphere.

I know that air is a gas made up of molecules. And a gas fills up the container it is contained in, which is the atmosphere. 1Most of the mass of molecules are in the troposphere, and there is ozone production in the stratosphere. Plus, there is oxygen and nitrogen in the thermosphere. But what keeps most of the molecules in the troposphere?

1There are other elements in there right?
 
Earth sciences news on Phys.org
  • #2
Leoragon said:
[/I]But what keeps most of the molecules in the troposphere?

Gravity! The gas is pulled towards the Earth but the molecules have energy and are bouncing around and off of each other and such, so they don't just fall into a big glop. This results in a slow reduction in the density of the air as you rise in altitude. And realize that the troposphere is defined as the part of the atmosphere where the temperature falls with altitude. At a certain point, known as the Tropopause, this trend suddenly stops, and then reverses in the Stratosphere where the temperature increases at altitude increases.

http://en.wikipedia.org/wiki/Troposphere
http://en.wikipedia.org/wiki/Tropopause
http://en.wikipedia.org/wiki/Stratosphere

1There are other elements in there right?

Sure, there are trace amounts of many different elements.
 
  • #3
Drakkith said:
Gravity! The gas is pulled towards the Earth but the molecules have energy and are bouncing around and off of each other and such, so they don't just fall into a big glop. This results in a slow reduction in the density of the air as you rise in altitude. And realize that the troposphere is defined as the part of the atmosphere where the temperature falls with altitude. At a certain point, known as the Tropopause, this trend suddenly stops, and then reverses in the Stratosphere where the temperature increases at altitude increases.

http://en.wikipedia.org/wiki/Troposphere
http://en.wikipedia.org/wiki/Tropopause
http://en.wikipedia.org/wiki/Stratosphere



Sure, there are trace amounts of many different elements.

I don't get it. So gravity pulls in the molecules, but the molecules have energy that they bounce off of each other. I don't get what you mean by slow reduction.

Oh, and why doesn't the atmosphere just extend all the way if the molecules keep bouncing off of each other?
 
  • #4
Leoragon said:
I don't get it. So gravity pulls in the molecules, but the molecules have energy that they bounce off of each other. I don't get what you mean by slow reduction.

Oh, and why doesn't the atmosphere just extend all the way if the molecules keep bouncing off of each other?

The density of the air, meaning the amount of air in a given volume, drops off slowly as you go up in altitude. Perhaps I shouldn't say "slowly", just realize that air gets thinner as you get higher in altitude because it is getting less dense.

Perhaps this can help.
http://answers.yahoo.com/question/index?qid=20070124183050AAT2p7K

I can't vouch for the validity of the answer, so I wouldn't base your Exam studying off of it.
 
  • #5
Drakkith said:
The density of the air, meaning the amount of air in a given volume, drops off slowly as you go up in altitude. Perhaps I shouldn't say "slowly", just realize that air gets thinner as you get higher in altitude because it is getting less dense.

Perhaps this can help.
http://answers.yahoo.com/question/index?qid=20070124183050AAT2p7K

I can't vouch for the validity of the answer, so I wouldn't base your Exam studying off of it.

Okay, so because of the increased volume of space, the density is less. But what why is there the top of the atmosphere? Why doesn't it reach further into space?
 
  • #6
Leoragon said:
Okay, so because of the increased volume of space, the density is less. But what why is there the top of the atmosphere? Why doesn't it reach further into space?

It does! There is no sudden boundary. The atmosphere simply keeps thinning out as altitude increases until the density is so low that its pretty much equal to the average density of space in the solar system.
 
  • #7
Drakkith said:
It does! There is no sudden boundary. The atmosphere simply keeps thinning out as altitude increases until the density is so low that its pretty much equal to the average density of space in the solar system.

So, as you said, the atmosphere keeps lowering density until it becomes equal to the density of space. Now why does the temperature drop as you go up in the troposphere, then increase when you reach the stratosphere or somewhere up there?
 
  • #8
Leoragon said:
So, as you said, the atmosphere keeps lowering density until it becomes equal to the density of space. Now why does the temperature drop as you go up in the troposphere, then increase when you reach the stratosphere or somewhere up there?

Because of the absorption of UV radiation I believe. See the stratosphere article I linked.
 

1. What is meant by the term "barrier" in relation to molecules?

The term "barrier" in this context refers to any physical or chemical obstacle that prevents or restricts the movement or diffusion of molecules.

2. What are some examples of barriers that can keep in molecules?

Examples of barriers that can keep in molecules include cell membranes, semipermeable membranes, and physical barriers such as walls or containers.

3. How do barriers affect the movement of molecules?

Barriers can either completely block the movement of molecules or selectively allow certain types of molecules to pass through, depending on their size, charge, and other properties.

4. Are barriers always necessary for keeping in molecules?

No, barriers are not always necessary for keeping in molecules. Some molecules can be contained or confined by other means such as chemical bonds or intermolecular forces.

5. What happens if a barrier is breached or broken?

If a barrier is breached or broken, molecules may be able to move freely and diffuse outside of their designated area, potentially causing changes in concentration or other effects.

Similar threads

Strong negative feedback in Climate
    • Earth Sciences
Replies
2
Views
5K
I Modeling the concentration of gas constituents in a Force Field
    • Thermodynamics
Replies
6
Views
686
What determines the pressure inside this experimental setup?
    • Materials and Chemical Engineering
Replies
2
Views
270
B What is the volume occupied by a molecule?
    • Classical Physics
Replies
12
Views
3K
Turning oxygen into fluorine in our atmosphere
    • Sci-Fi Writing and World Building
Replies
5
Views
1K
What happens to non-respiratory gases in the lungs?
    • Biology and Medical
Replies
3
Views
948
The question: Can nitrogen molecules escape from Europa and into space?
    • Introductory Physics Homework Help
Replies
15
Views
2K
Advice for a Chemistry-Based DND Concept
    • Science Fiction and Fantasy Media
Replies
12
Views
3K
I Atmospheric escape parametre statistics
    • Astronomy and Astrophysics
Replies
1
Views
201
Earthward Upper Stratospheric IR Radiation Cancels Most Greenhouse Gas Effect
    • Earth Sciences
Replies
9
Views
5K

Hot Threads

Recent Insights

Back
Top