Jupiter and Neptune.
Gravitational pull is less for Mercury, Venus, Mars and Uranus. And th eother planets have higher gravitational pull.
Jupiter's gravitational pull is much stronger than that of Earth.
uranus's gravitational pull is 91% or earth's.
Planets and moons remain in their orbits because of the gravitational pull other bigger planets or stars have on them, for example the Earth stays in its orbit because of the gravitational force it is subjects to created by the Sun, and the moon stays in its orbit because of the gravitational force it is subject to created by the Earth. It's all about gravity and force.
i dont now
weaker
Uranus, Venus, and Planet X.
When the pull is stronger, they move quicker.
When the pull is stronger, they move quicker.
Gravitational pull is less for Mercury, Venus, Mars and Uranus. And th eother planets have higher gravitational pull.
No, it does not.
At Neptune's surface, it is 1.13 times that of gravitational pull of Earth. Of all the planets, it has the seventh strongest pull on Earth.
Any two objects with mass will have a gravitational force. The orbit of planets around stars depends on the gravitational pull of the star. The Earth exerts a gravitational pull on its moon but the moon also exerts a pull on the Earth.
gravitational pull
Any body bigger than Earth should have a stronger gravitational pull, and vice versa. They do because of their larger size. The core of the planets would be bigger or smaller than Earth.
A Satellite is any object that orbits another object that has a stronger gravitational pull. For example, the Moon is the Earth's natural satellite. Mars has several, as do Saturn and Jupiter. All of the planets, including Earth, are satellite bodies of the Sun (Sol), since they all orbit the Sun, which has a much stronger gravitational pull.
Because the Earth's gravitational pull is stronger than the gravitational pull of the Moon. But your mass remains the same