The farther a planet is from the sun, the cooler it is, except that
this is not true about Mercury and Venus.
Also, the farther a planet is from other planets, the cooler it is, except that
this is not true about Mercury and Venus.
The distance that a planet is from comets, asteroids, other stars besides the Sun,
meteoroids, or Major League Baseball teams has no effect on their temperature.
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 distance of a planet from the Sun significantly influences its temperature and atmospheric pressure. Generally, planets closer to the Sun receive more solar radiation, leading to higher temperatures, while those farther away tend to be cooler. This temperature variation affects atmospheric pressure, as warmer air can hold more moisture and leads to higher pressure, while cooler air results in lower pressure. Consequently, the interplay between distance, temperature, and pressure shapes each planet's climate and atmospheric conditions.
The distance of a planet from the sun does impact the surface of a planet. Planets closer to the sun, like Mercury and Venus, tend to have hotter surfaces, while planets further away, like Mars and the outer planets, have colder surfaces. This difference in temperature can influence the types of surface features found on each planet.
The inner planets are closer together than the outer ones.
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.
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.
As a rough - not absolute - measure, yes, that is correct
The farther it is from the sun the longer its period of revolution (its "year").
Roughly speaking, as you go farther away from the Sun, planets get colder.
Temperature and orbital period.
poo pee and boogers and all mixed to create ma sista
Temperature and orbital period.
the distance from the planets is 6.5 million miles between each planet.
the color of the sun sun depends on its surface temperature
If two planets are in orbits with radii of R1 and R2, the distance between them varies from R2-R1 to R2+R1.
The distance of a planet from the Sun significantly influences its temperature and atmospheric pressure. Generally, planets closer to the Sun receive more solar radiation, leading to higher temperatures, while those farther away tend to be cooler. This temperature variation affects atmospheric pressure, as warmer air can hold more moisture and leads to higher pressure, while cooler air results in lower pressure. Consequently, the interplay between distance, temperature, and pressure shapes each planet's climate and atmospheric conditions.
The distance of a planet from the sun does impact the surface of a planet. Planets closer to the sun, like Mercury and Venus, tend to have hotter surfaces, while planets further away, like Mars and the outer planets, have colder surfaces. This difference in temperature can influence the types of surface features found on each planet.