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I think that when the air heats up in the day, air the radiation from the ground contirbutescontributes way more to its heating at altitudes more than 300 meters above the ground than convection currents of air heat byfrom the ground from conduction. 

I also think radiative cooling of the air directly contributes way more to the cooling of air more than 300 meters above the ground than conduction from the ground. I don't see how the air at that height could be so fast to warm up and cool just by conduction from the ground. 

If sothese assumptions are true, diddoes the carbon dioxide we released into the air speed up the absorption of radiation from the ground by the air in the day and the radiative cooling of the air at night because Carbon dioxide absorbs infrared light better than air?

I think when the air heats up in the day, air the radiation from the ground contirbutes way more to its heating at altitudes more than 300 meters above the ground than convection currents of air heat by the ground from conduction. I also think radiative cooling of the air directly contributes way more to the cooling of air more than 300 meters above the ground than conduction from the ground. I don't see how the air at that height could be so fast to warm up and cool just by conduction from the ground. If so, did the carbon dioxide we released into the air speed up the absorption of radiation from the ground by the air in the day and the radiative cooling of the air at night because Carbon dioxide absorbs infrared light better than air?

I think that when the air heats up in the day, the radiation from the ground contributes way more to its heating at altitudes more than 300 meters above the ground than convection currents of air heat from the ground. 

I also think radiative cooling of the air directly contributes way more to the cooling of air more than 300 meters above the ground than conduction from the ground. I don't see how the air at that height could be so fast to warm up and cool just by conduction from the ground. 

If these assumptions are true, does the carbon dioxide we released into the air speed up the absorption of radiation from the ground by the air in the day and the radiative cooling of the air at night because Carbon dioxide absorbs infrared light better than air?

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Are we changing Earth's weather with global warming?

I think when the air heats up in the day, air the radiation from the ground contirbutes way more to its heating at altitudes more than 300 meters above the ground than convection currents of air heat by the ground from conduction. I also think radiative cooling of the air directly contributes way more to the cooling of air more than 300 meters above the ground than conduction from the ground. I don't see how the air at that height could be so fast to warm up and cool just by conduction from the ground. If so, did the carbon dioxide we released into the air speed up the absorption of radiation from the ground by the air in the day and the radiative cooling of the air at night because Carbon dioxide absorbs infrared light better than air?