Yes, the distance of a planet from the sun affects its period of revolution. According to Kepler's third law of planetary motion, planets that are closer to the sun have shorter revolution periods compared to planets that are farther away.
Not at all. The planet's daily rotation is independent of its distance from the Sun.
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.
If two planets are in orbits with radii of R1 and R2, the distance between them varies from R2-R1 to R2+R1.
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 distance of the planets from the sun does not change because of the gravity surrounding each planet is pulling them into continuous orbit.
Planets orbit the sun.
In order of their distance from the sun, the rocky planets are Mercury, Venus, Earth, and Mars.
The sun has all the gravity to keep the planets a certain distance from the sun.
10000000023 km
The apogee.
uranus
The outer planets revolve around the sun slower because they are farther away from the sun, which means they have a greater distance to travel in their orbits. According to Kepler's laws of planetary motion, planets that are farther from the sun have longer orbital periods.
Yes, the distance of a planet from the sun affects its period of revolution. According to Kepler's third law of planetary motion, planets that are closer to the sun have shorter revolution periods compared to planets that are farther away.
Not at all. The planet's daily rotation is independent of its distance from the Sun.
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.
Mercury venus earth mars jupiter saturn uranus neptune