As the sunlight interact with a molecule, it makes it vibrate. Close to the ground is the heavy molecules, like O2, which when they vibrate create energy. At about 10,000 meters, you will find lighter molecules, like H2O, which when interacting with sunlight, they also vibrates, creating energy. The O2 molecule will create more energy when it vibrates than the H2O molecule, as it is heavier. The more energy is created, we perceive as heat.
Because I talk about molecules. Water is millions of millions of H2O molecules combined together. A single H2O molecule creates less heat than a O2 molecules when it vibrates, as the individual O2 molecule is heavier than a H2O molecule.
I can use Helium as an example instead. Helium is lighter then Oxygen, so Helium will rise and find its bouncy level higher up in the air then Oxygen will. Since Helium weigh less then Oxygen does, when a Helium atom vibrates, it creates less energy then an Oxygen atom does, when the Oxygen atom vibrates. So as we rise in altitude, and you find less and less Oxygen atoms in the air, and more Helium atoms, it gets colder, as Helium creates less energy when exposed to sunlight then Oxygen does.
All molecules have energy and are in constant motion, they vibrate. This vibration is the energy of the matter and can be measured as temperature. Most matter expands when heated, and when cooled it contracts. The more energy something has, the higher its temperature and the more its molecules are vibrating.
As the sunlight interact with a molecule, it makes it vibrate. Close to the ground is the heavy molecules, like O2, which when they vibrate create energy. At about 10,000 meters, you will find lighter molecules, like H2O, which when interacting with sunlight, they also vibrates, creating energy. The O2 molecule will create more energy when it vibrates than the H2O molecule, as it is heavier. The more energy is created, we perceive as heat.
H20 is water which most definitely can be found at ground level and certainly heavier than 02.
Yes, it can be found in gas form as well high up but according to your logic, it should heat up more the higher up it is. Then why does it get colder?
The fuck am I reading? This is complete nonsense. This is a complete violation of thermodynamics.
Because I talk about molecules. Water is millions of millions of H2O molecules combined together. A single H2O molecule creates less heat than a O2 molecules when it vibrates, as the individual O2 molecule is heavier than a H2O molecule.
I can use Helium as an example instead. Helium is lighter then Oxygen, so Helium will rise and find its bouncy level higher up in the air then Oxygen will. Since Helium weigh less then Oxygen does, when a Helium atom vibrates, it creates less energy then an Oxygen atom does, when the Oxygen atom vibrates. So as we rise in altitude, and you find less and less Oxygen atoms in the air, and more Helium atoms, it gets colder, as Helium creates less energy when exposed to sunlight then Oxygen does.
Molecules don't create heat by vibrating.
That is utter nonsense.
Molecules do not create energy. That is a completely insane idea.
All molecules have energy and are in constant motion, they vibrate. This vibration is the energy of the matter and can be measured as temperature. Most matter expands when heated, and when cooled it contracts. The more energy something has, the higher its temperature and the more its molecules are vibrating.
https://www.google.com/search?client=safari&rls=en&q=molecules+energy&ie=UTF-8&oe=UTF-8