There is less gravitational pull.
No, planets do not revolve around the sun at the same speed. Their orbital speeds depend on their distance from the sun - planets closer to the sun have shorter orbital periods and faster speeds, while those further away have longer orbital periods and slower speeds.
The planets revolve in elliptical orbits. The inner planets have orbits 230 million km or less from the Sun. The outer planets have orbits 775 million km or greater.
Their orbital velocity is much slower than the planets closer to the Sun. Their orbits can also be more eccentric.
The inner planets travel faster around the Sun because they are closer, while the outer planets take more time. The outer planets spin faster on their axis than the inner planets.
The reason for the slower movement of outer planets answers to the simple nature of the gravitational force, which varies with the inverse square of distance. For example, an object twice as distant would feel one quarter the gravitational pull. For a stable orbit, this would mean an outer planet would have to move more slowly. Meanwhile, the inner planets move more quickly, and Mercury, with an orbit closest to the sun, zips around it in only 88 days, compared to Naptune's 165 years.
The outer planets revolve about the same speed they just have to travel a much longer distance so it takes longer.
Planets don't revolve around the Earth.Planets revolve around the Sun in ellipses.
No, planets do not revolve around the sun at the same speed. Their orbital speeds depend on their distance from the sun - planets closer to the sun have shorter orbital periods and faster speeds, while those further away have longer orbital periods and slower speeds.
asdfghjkl;;lkjhgfdsaasdfghkjkl
it would be much much colder and revolve slower because of weaker gravity
no i do not think so
The sun is a star that is located in the MIDDLE of the solar system so that all the planets revolve around it.
The planets revolve in elliptical orbits. The inner planets have orbits 230 million km or less from the Sun. The outer planets have orbits 775 million km or greater.
Their orbital velocity is much slower than the planets closer to the Sun. Their orbits can also be more eccentric.
The inner planets rotate slower on their axis compared to the outer planets because they formed closer to the Sun where the gravitational interactions and tidal forces were stronger during the early stages of the solar system's formation. These forces acted to slow down the rotation rates of the inner planets over time. Additionally, the smaller mass and size of the inner planets also contribute to their slower rotation.
Outer planets are farther from the Sun and have larger orbits, so they travel at slower speeds to maintain their orbit. This is due to the inverse square law of gravity, which states that the gravitational force between two objects decreases with distance. As a result, outer planets require longer periods to complete their orbits compared to inner planets.
The inner planets travel faster around the Sun because they are closer, while the outer planets take more time. The outer planets spin faster on their axis than the inner planets.