Atmosphere temperature gradients at altitudes impossible?

In summary: Atmospheric temperature gradients are possible because hot pockets of air rise and the air cools as it rises because it expands. This pressure/density gradient causes the temperature gradient.
  • #1
tonyjeffs
34
0
atmosphere temperature gradients at altitudes impossible??

Here's a link to a graph:
http://vortex.plymouth.edu/atmosphere/layers.html"

I don't understand how this is possible.
The atmosphere is
  • Warm at the surface, (due mainly to infrared heat from Earth's' surface -ok)
  • Cold at 20km altitude (impossible?? Fully encapsulated by heat sources; Nowhere for heat to go.)
  • Warm at 50km (Ozone layer heated by UV from sun -OK)
  • Cold at 90 km (impossible; fully encapsulated by heat sources)
  • Hot at 500km

I don't understand how fully enclosed colder regions can exist between heat sources.

An analogy might be a perfectly insulated pipe with a heat source at either end. No matter what different materials I put in the pipe, it is impossible for the temperature anywhere in the pipe to be lower than that of the the lowest heat source.

Can anyone explain how the atmosphere temperature gradients are possible?


Thanks
Tony
 
Last edited by a moderator:
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  • #2
You're thinking about heat as being some physical property but you have to recall that heat is actually the average kinetical energy of the individual molecules and hence the individual molecular speeds play an important role. Also gravity acts on individual molecules. So obviously, at altitudes where the atmosphere gets so thin that individual molecules travel a great distance between collision, this speed is getting important. Due to the gravity there is a balance between molecular speeds and altitude. The slower molecules are pulled down more easily, while the faster molecules stay aloft. Some even escape gravity

Now recall that "slower molecules" is identical to being cooler and the faster molecules is the same as being warmer.

But if you would be there you'd still get the impression that's freezing cold (at night), since the sparsety of molecules would not give a noticable conduction heating. And out-radiation of EM plays the main role in losing heat.
 
  • #3
But if the air molecules at an altitude of 20km had less kinetic energy than the bordering, encapsulating air molecules above and below, wouldn't they eventually reach at least the energy of the cooler of the two borders?

I can't understand how any object can be permanantly cooler, or contain less kinetic energy, than its surroundings. Surely if this occurred, there would be a flow of energy into the cooler object?
 
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  • #4
The pressure/density gradient causes the temperature gradient. In convection in the atmosphere, hot pockets of air rise and the air cools as it rises because it expands.
 
  • #5
russ_watters said:
The pressure/density gradient causes the temperature gradient. In convection in the atmosphere, hot pockets of air rise and the air cools as it rises because it expands.


I think I understand that.
Charles's law! V/T=constant
So I should be able to calculate that and prove it to myself.



:smile:


Thanks to all.

Tony
 

Related to Atmosphere temperature gradients at altitudes impossible?

1. What is an atmosphere temperature gradient?

An atmosphere temperature gradient refers to the change in temperature as altitude increases in the Earth's atmosphere. It is typically measured in degrees Celsius per kilometer or degrees Fahrenheit per mile.

2. How does temperature change with altitude in the atmosphere?

The temperature in the atmosphere generally decreases with increasing altitude. This is due to the decrease in air pressure at higher altitudes, which causes the air molecules to spread out and lose energy, resulting in cooler temperatures.

3. Are there any exceptions to the general temperature gradient in the atmosphere?

Yes, there are a few exceptions to the general trend of decreasing temperature with altitude in the atmosphere. For example, in the stratosphere, the temperature actually increases with altitude due to the absorption of solar radiation by ozone.

4. Can temperature gradients in the atmosphere be affected by human activities?

Yes, human activities such as the release of greenhouse gases can impact the temperature gradients in the atmosphere. This is because these gases trap heat in the atmosphere, causing an overall increase in temperature and potentially altering the temperature gradient.

5. Are there any practical applications for understanding atmosphere temperature gradients at different altitudes?

Yes, understanding temperature gradients in the atmosphere is important for predicting weather patterns and air movements, as well as for aviation and space travel. It also helps us better understand the Earth's climate and how it may be changing over time.

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