there are different distances such as the closest planet
Mercury is 58 km away from the sun.
There is a relationship between the planets distance from the sun and the time taken for one orbit (planets year), described in Keplers third law. The square root of the time taken to orbit the sun is proportional to the cube of the average distance between the sun.
if you are asking "what is the relation of the planet's temperature to it's distance from the sun" then the answer is: Planets closer to the sun tend to be warmer than planets further from the sun.
uranus
The apogee.
because the sun is far away from Pluto the planets suface would be ice i hope that helped you.
The distance of the planets from the sun does not change because of the gravity surrounding each planet is pulling them into continuous orbit.
Neptune is the remotest of the eight planets, and its distance is 30 astronomical units, which means its distance from the Sun is 30 times the Earth's distance from the Sun.
The farther away from the sun the planet is, the more space it has to cover. Therefore, the planets distance from the sun whereas, if i am half the distance from Earth/Sun, that planet will get more energy. But if I am twice the distance from Earth/Sun, I will receive less energy.
There is a relationship between the planets distance from the sun and the time taken for one orbit (planets year), described in Keplers third law. The square root of the time taken to orbit the sun is proportional to the cube of the average distance between the sun.
As the names suggest, the inner planets are closer to the Sun than the outer planets.
if you are asking "what is the relation of the planet's temperature to it's distance from the sun" then the answer is: Planets closer to the sun tend to be warmer than planets further from the sun.
the closer you are to the sun it affects the planets speed cause of the suns gravitational pull
The sun has all the gravity to keep the planets a certain distance from the sun.
10000000023 km
uranus
The apogee.
Keplar showed that there is a relationship between the planets distance from the sun and the time taken for one orbit (planets year). This is described in Keplars third law; the square root of the time taken to orbit the sun is proportional to the cube of the average distance between the sun.