Gravity obeys an inverse-square law. The force is inversely proportional to the distance squared. That means at 1/10 the distance the force is 100 times stronger. The pull also depends on the mass of the Sun and the mass it is attracting.
If you imagine a 1 kilogram "test " mass on Earth and an identical test mass on Saturn, then the pull on the mass on Earth will indeed be 100 times the pull on the test mass on Saturn.
Jupiter's gravitational pull is much stronger than that of Earth.
A 95 pound person would weigh 101 pounds on Saturn. Saturn's gravitational pull is very similar to the gravity on Earth.
Because even though the sun's gravity is much stronger than Earth's overall, Earth's gravity is stronger on Earth's surface and in space around Earth because Earth is 93 million miles from the sun.
Gravity, as far as we can tell, is generated simply by matter making holes and dents in space, thus, the more matter you have, the stronger the gravitational pull. Uranus is MUCH bigger than the earth. I don't know the exact measurement, but it is BIG. So if Uranus is so much bigger than earth, how strong do you think the gravitational pull would be?
Scanning the list of surface gravitational accelerations, there are four planets that aren't that much different from the number at the Earth's surface: -- Neptune . . 14.8% more -- Saturn. . . . 13.9% more -- Venus . . . . . 9.68% less and the one closest to duplicating Earth's surface gravity . . . -- Uranus . . . . 8.28% less than on earth.
Larger masses have larger gravitational forces, so the Sun's gravity is much stronger than that of 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.
Jupiter's gravitational pull is much stronger than that of Earth.
The bigger an object is, the more gravity it has! Earth is much bigger than the moon, therefore it has stronger gravity.
Mainly because we are in "free fall" around the Sun. In such situations, gravity won't be noticed. Also, Earth's gravitational force is much stronger, anyway, because Earth is much closer.
A 5 pound rock on Earth would weigh 5.3 pounds on Saturn. This is because Saturn's gravity is slightly stronger than the pull on Earth.
Saturn's mass is 568,460*1021kg Earth's mass is 5,973.6*1021kg As mass effect gravity Saturn's gravity is stronger Earth's gravity pull is 9.8ms-2 Saturn's gravity pull is 10.4ms-2 -Thunder- Something to think about: If Saturn's mass is 95 times as much as Earth's mass, why is its gravity only 6% more ? -Lightning-
Saturn's mass is 568,460*1021kg Earth's mass is 5,973.6*1021kg As mass effect gravity Saturn's gravity is stronger Earth's gravity pull is 9.8ms-2 Saturn's gravity pull is 10.4ms-2 -Thunder- Something to think about: If Saturn's mass is 95 times as much as Earth's mass, why is its gravity only 6% more ? -Lightning-
A 95 pound person would weigh 101 pounds on Saturn. Saturn's gravitational pull is very similar to the gravity on Earth.
If you mean which has the stronger gravitational pull, its the Earth since it's much larger than the moon. The moon has about 1/4 of the gravitational pull that the Earth does. But its enough to affect the water on Earth. Which is how we get our tides in the ocean.
Mainly because we are in "free fall" around the Sun. In such situations, gravity won't be noticed. Also, Earth's gravitational force is much stronger, anyway, because Earth is much closer.
Because even though the sun's gravity is much stronger than Earth's overall, Earth's gravity is stronger on Earth's surface and in space around Earth because Earth is 93 million miles from the sun.