The Troposphere
Oh what a glorious place it is... This is the first layer of our atmosphere and it is heated via infrared radiation being radiated from the Earth, this means that as altitude increases temperature falls. Atmospheric pressure also decreases with altitude, there's a simple reason for this. The higher you go the less there is above you so the pressure decreases. Wind speeds increase with altitude in the troposphere as at higher altitudes there is less to act as a wind break.
Stratosphere
Once you get through the troposphere everything starts getting a bit warmer until temperatures reach a toasty -3 degrees Celsius. The reason the temperatures increase with altitude is because the stratosphere is heated by the absorption of UV radiation by Ozone (so from above, not below).
When ozone absorbs UV it gets split up into Diatomic Oxygen and Atomic Oxygen, in the normal process this would then bond again to form Ozone. The ozone layer should remain in dynamic equilibrium (constantly changing, but overall staying the same), however when CFCs are emitted into the atmosphere they also get broken down. The Chlorine atom then bonds with an Atomic oxygen atom to form ClO preventing the atomic oxygen bonding with diatomic oxygen to replenish the ozone layer. So in reality CFCs don't destroy the ozone layer but rather prevent it from replenishing itself.
Mesosphere
Not much really goes on here to be fair, temperature decreases with altitude for reasons I can't accurately find out but I do know that the mesopause house the coldest temperature on Earth. The only other thing interesting to know is that the mesosphere is where most meteors burn up upon entering the atmosphere.
Thermosphere
I understand even less of this stratigraphical layer, for a confusing reason the temperature increases with altitude although not for the same reason as in the stratosphere. It's something to do with there being so few particles, I don't know google it.
Exosphere
There's like nothing here, at all. The number of particles (mainly hydrogen and helium) are so few that they can travel hundreds of kilometres without colliding with each other, this also means that the atmosphere stops behaving like a liquid. "Why are you even telling us this then?" You may be wondering... Well it sort of answers a question raised in class the other day about whether atoms in Space join Earth's atmosphere. It is actually the opposite, Earth experiences a net loss of hydrogen and helium at about 3 kg and 50 g respectively a second. That's a relatively tiny amount though so don't start worrying that we're running out of atmosphere.
The human race will have likely imploded before we ever lose our atmosphere.
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