The clouds play a role similar to the ozone layer. Ultra violet radiation coming from the sun strikes the clouds and the ozone layer and is repelled back into space allowing only "safe" light waves to hit the Earth. The ground absorbs heat, and then releases it. The rising heat reaches the clouds and is reflected back down to the Earth.
When sky is clear the heat from earth will radiate to space and cool the night air faster. If cloudy the heat radiated is reflected back from clouds and it does not get so cool
When the sky is clear, heat from the Earth's surface radiates directly into space, leading to faster cooling. Clouds act as a barrier, trapping heat and reflecting it back towards Earth, which slows down the cooling process.
Greenhouse gases like carbon dioxide and water vapor trap heat near Earth by absorbing and re-radiating infrared radiation. This process leads to the greenhouse effect, where heat is trapped in the Earth's atmosphere. Clouds and ice also reflect sunlight back into space, helping to regulate the Earth's temperature.
At night, the Earth cools down by radiation as heat from the surface is emitted into the atmosphere. This radiation escapes into space, causing the temperature to drop. Clear skies with low humidity allow for more efficient cooling because there are fewer clouds and water vapor to trap the heat at the surface.
Thick clouds act as a blanket by trapping heat coming from the Earth's surface, thus preventing it from escaping into space. This warms the air underneath the clouds and helps to maintain a more stable temperature throughout the night.
Clouds can cool down the Earth by reflecting incoming sunlight back into space, which reduces the amount of solar radiation reaching the Earth's surface. They also increase the Earth's albedo, which is its ability to reflect sunlight. Additionally, clouds can trap heat radiated from the Earth's surface, but their overall cooling effect usually outweighs this warming effect.
Clouds don't really heat the Earth. Some clouds keep the Earth from losing heat. Heat is moved in different ways. One way is radiation. The Sun warms the Earth with radiated heat. But, the Earth also radiates heat. Clouds absorb some of the heat the Earth radiates and radiate it back to the Earth. If there are no clouds present all of the heat the Earth radiates go out into space and is lost.
When sky is clear the heat from earth will radiate to space and cool the night air faster. If cloudy the heat radiated is reflected back from clouds and it does not get so cool
Less light hits it
Clouds play a crucial role in Earth's climate by reflecting sunlight back into space, which helps cool the planet. They also trap heat emitted by the Earth, acting as a blanket to keep the planet warmer.
High clouds (like cirrus clouds) tend to have a cooling effect on the Earth's surface by reflecting incoming solar radiation back to space. Low clouds (like stratus clouds) can have a warming effect by trapping heat and reducing the amount of outgoing longwave radiation that escapes into space.
the clouds
For a quick answer, here ya go: Heat radiating from the sun causes the water in the oceans to evaporate. This water vapor accumulates in the atmosphere creating more clouds. The clouds form sort of a blanket that reflects heat away from the earth's surface.
When the sky is clear, heat from the Earth's surface radiates directly into space, leading to faster cooling. Clouds act as a barrier, trapping heat and reflecting it back towards Earth, which slows down the cooling process.
Clouds reflect and scatter sunlight, reducing the amount of heat that reaches the Earth's surface. They also absorb and trap heat, preventing it from escaping back into space, leading to a cooling effect during the day.
From what is listed here, the order is as follows. Gas rose into the sky. Clouds formed. Rain fell. Earth's surface began to cool. Rivers and lakes formed on Earth.
Clouds and high humidity act as a blanket to hold in heat at night. If these are absent, the heat absorbed by the earth during the day quickly radiates back into space.