The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
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.
No, planets do not get bigger as they move farther away from the sun. A planet's size is determined by its mass and composition, which remain relatively constant regardless of its distance from the sun. The distance from the sun influences a planet's temperature and orbital dynamics, but not its physical size.
Check out NASA's: "Planetary Fact Sheet" Web page. That's pretty good. There are slight differences in the answers to this question, depending on the source of information that you use.
The distance of a planet from the sun can provide information about its temperature, composition, and potential for liquid water. Planets that are closer to the sun tend to be warmer and have different compositions compared to those farther away. The distance from the sun also influences the planet's orbit and potential habitability.
No, plants do not get colder the further away from the sun. The temperature of a plant is influenced by factors such as air temperature, soil moisture, and wind conditions, rather than its distance from the sun.
Roughly speaking, as you go farther away from the Sun, planets get colder.
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 temperature of a planet generally decreases as its distance from the sun increases due to the inverse square law of radiation, which states that the intensity of sunlight diminishes with distance. Closer planets, like Mercury and Venus, receive more solar energy, resulting in higher temperatures, while outer planets, such as Neptune and Uranus, are cooler due to their greater distance from the sun. However, atmospheric composition and other factors, like greenhouse gases, can also significantly influence a planet's actual temperature.
The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
The distances between the planets vary all the time since they all orbit the Sun at different rates.
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 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.
Yes, planets get colder when they are farther away from the sun because they receive less sunlight and heat. The distance from the sun determines the amount of solar energy a planet receives, which affects its average temperature.
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 of the planets from the sun does not change because of the gravity surrounding each planet is pulling them into continuous orbit.
Generally speaking, the further a planet is from the sun, the colder it is, since less of the suns energy reaches a given area of the planets surface. Other factors come into play though, such as the rotation of the planet, its composition, size and atmosphere. Venus is the hottest planet, though it is only second from the sun. this is because Mercury has no atmosphere, while Venus has a very thick, heat retaining atmosphere. Planet (in order from sun)Average temperature in 'CAverage distance from sun (km)Distance from the sun in AUMercury*6757,909,1750.387Venus462108,208,9300.723Earth14.05149,597,8901Mars-63227,936,6401.524Jupiter**-108778,412,0105.203Saturn**-1391,426,725,4009.537Uranus**-1972,870,972,20019.191Neptune**-2014,498,252,90030.069 *This is the average temperature at the equator. Unlike the other planets Mercury has a huge range in surface temperature due to lack of atmosphere. At the equator, the surface temperature on Mercury can range from 100K (-173'C) to 700K (430'C).**temperature at the 1.0 bar pressure level