100000000000by me
It would take approximately 8 minutes and 20 seconds for the Earth to freeze if the sun suddenly disappeared. This is because the Earth's surface temperature would drop rapidly without the sun's heating energy.
The sun sends radiation from the sky to the ground to make the temperature rise, but when the sun sets the moon comes out and it doesn't have enough heat and light to send down as much radiation.
Because when the sun drops, it is not directly focused on that part of the Earth, and the sun is our source of heat as well. So when the sun is focused somewhere else, so is the heat along with it
Depending on where you are on the continent, once the sun goes down, the temperature drops consistently. Without any sunrises, usually July and August are the coldest months, just before the sun begins to rise.
The coldest time of day is typically right before sunrise, known as the "minimum temperature." This occurs because the Earth's surface cools overnight as it radiates heat back into space without the sun's warmth.
It begins to get warmer from the sun's radiation.
That's an unusual question as stated. Certainly, the Sun causes the temperature to rise, which, in turn, causes increases in wind velocity and, in some cases, thunderstorms. You might also argue that the sun causes plants to rise, in a manner of speaking.
The place you are referring to is likely the Arctic Circle. In the winter months, areas within the Arctic Circle experience polar night, where the sun does not rise for an extended period. The average temperature in the Arctic Circle is around 33 degrees Fahrenheit.
Clouds act as a sort of buffer between the sun and the desert, as a result when there is no cloud cover the temperature would rise a bit. This rise in temperature would take place because the sun rays would be coming through "full blast"
The average temperature of the sun is around 5800 Kelvin.
During the day, the surface of the sun can reach temperatures of around 10,000 degrees Fahrenheit. At nighttime, the sun's temperature doesn't suddenly drop; it remains incredibly hot due to its internal nuclear reactions, with temperatures over 9,900 degrees Fahrenheit on average.
Mercury's surface temperature can vary significantly because it has no atmosphere to distribute heat. On the side facing away from the Sun, temperatures can drop to around -290 degrees Fahrenheit (-179 degrees Celsius) during the night.