The further you go away from the sun the less heat and light you receive.
There is an inverse square relationship between the distance and the amount of solar energy that strikes a planet.
So, if a planet is twice (2 x) as far away from the Sun as the Earth is, it receives only one quarter (1/4) the amount of energy, three times (3 x) as far receives only one ninth (1/9) the energy, and so on.
That's the basic theory, but there are other factors that can affect the actual temperature on the surface of a planet.
For example, the "greenhouse effect" makes Venus much hotter than predicted.
It has depends on how much amount of gravity which depends on how far each planet is from 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.
its can be effected or affected by many things whoever wrote this is f***ing stupid. hey that's not nice and people the answer to this question is temperature
From Kepler's laws it can be shown that the orbital speeds of the planets are proportional to the inverse square root of their distances from the Sun. Thus a planets at four times the distance would travel at half the speed.
The distance a planet is from the Sun determines how much solar radiation is receives. Planets that are further receive less and thus are often colder. That is unless their atmospheres trap the energy received from the Sun. This is the case with Venus, which is the hottest planet in the solar system due to its thick atmosphere and runaway greenhouse affect.
The distance a planet is from the Sun determines how much solar radiation is receives. Planets that are further receive less and thus are often colder. That is unless their atmospheres trap the energy received from the Sun. This is the case with Venus, which is the hottest planet in the solar system due to its thick atmosphere and runaway greenhouse affect.
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.
How does a planet's distance from the sun affect its period of revolution?
Two factors that affect a planets revolution are distance from the sun and size.
the closer you are to the sun it affects the planets speed cause of the suns gravitational pull
Not at all. The planet's daily rotation is independent of its distance from the Sun.
The main factor that affect their temperature are... their proximity to the sun - and their speed of rotation.
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.
Because of the Earths atmosphere, the distance from the Sun, does not affect the temperature on the surface of the Earth. In the northern hemisphere, we are closer to the Sun in winter and the furthest away in summer.
Roughly speaking, as you go farther away from the Sun, planets get colder.
the further away you are from the sun the colder the place is.
it can affect the time bec. when the planet is near the sun it will rotates very fast than the other far planets....
its can be effected or affected by many things whoever wrote this is f***ing stupid. hey that's not nice and people the answer to this question is temperature