The temperature of a planet generally decreases as you move farther away from the sun. This relationship is described by the inverse square law, which states that the intensity of sunlight (and thus the temperature) decreases with the square of the distance from the sun. However, other factors like atmosphere composition and greenhouse gases can also influence a planet's temperature distribution.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
In general the temperature of a planet falls with distance from the sun. However, Venus is nearly 90% further from the sun than Mercury but, instead of being cooler, Venus is 40% hotter.
In general terms, the surface temperature of a planet decreases as its distance from the sun increases. However, Venus is approx 90% further from the sun than Mercury. But, instead of the temperature being lower, it is approx 40% higher.
The temperature of Venus does not vary significantly with distance from the sun due to its thick atmosphere that traps heat. Venus experiences extreme greenhouse effect that maintains high surface temperatures regardless of distance from the sun.
The distance varies very little so the temperature change is small, probably too small to be measured at present.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The further away a planet is from the sun the colder it is, the closer a planet is the hotter the planet is.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
Roughly speaking, as you go farther away from the Sun, planets get colder.
In general the temperature of a planet falls with distance from the sun. However, Venus is nearly 90% further from the sun than Mercury but, instead of being cooler, Venus is 40% hotter.
In general terms, the surface temperature of a planet decreases as its distance from the sun increases. However, Venus is approx 90% further from the sun than Mercury. But, instead of the temperature being lower, it is approx 40% higher.
The distance varies very little so the temperature change is small, probably too small to be measured at present.
The temperature of Venus does not vary significantly with distance from the sun due to its thick atmosphere that traps heat. Venus experiences extreme greenhouse effect that maintains high surface temperatures regardless of distance from the sun.
The distance varies very little so the temperature change is small, probably too small to be measured at present.
VERY ROUGHLY, as you get farther away form the Sun, the temperatures decrease.
The main reason why a planet's temperature can vary due to its distance from the Sun is because less solar radiation will reach it. But there can be numerous factors that influence a planet's temperature regardless of its distance from the Sun. The main influence being the atmosphere. I.e. Venus is further from the Sun than Mercury, but is the hottest planet in the solar system because its atmosphere traps carbon dioxide causing a runaway green house affect. Some planets reflect the Sun's rays from their atmosphere or surface. The amount with which this occurs is called albedo. Enceladus has the highest albedo known, and is colder than Saturn, the planet it orbits.