First, this isn't a simple "statics" problem. For example, the Moon is orbiting Earth. Also the Earth-Moon distance varies (elliptical orbit).
(The distances mentioned below are, strictly speaking, distances from the centres of the Earth and Moon.)
However, a simple answer is: at about a tenth of the Earth-Moon distance from the Moon. Here's why:
The Moon's mass is about 1/81 of the Earth's mass.
Gravitational force is directly proportional to the mass of an object.
Gravitational force is inversely proportion to the square of the distance between objects.
When the ratio of the distance to Moon to the distance to the Earth is 1/9
gives the "neutral gravity point". That's because 1/9 x 1/9 = 1/81.
So, the place where the Moon's gravity takes over is one tenth of the Earth-Moon distance from Moon.
The Moon's average distance from Earth is about 238,000 miles. That means the answer is: at about 23,800 miles from the Moon.
(Remember there are other ways of looking at this problem. There is more than one "correct" answer, depending on your approach.)
Black holes are created when in a Supernova-explosion or after a collision between two neutronstars (which are mini black holes). The star collapses and the gravity becomes stronger and stronger, dragging everything towards the center. In the end, the gravity becomes so strong that not even light can escape.
Gravity.
the sun's gravity pulls the planets towards it but the other planet's gravity helps keep the planet not get sucked towards the sun. With gravity working this creates the planet to orbit the sun
The Earth's gravity pulls the Moon towards it and its center.
If the parachutist is just falling down vertically, he is falling because of the unbalance force. Gravity is pulling him down. Gravity is stronger than the air resistance that is "keeping him up". The two unbalanced forces: gravity & air resistance. Because they are imbalance, he is accelerating towards the Earth's surface at 9.8 meters per second.
Everything has it's own gravity. The bigger the mass the stronger the gravity. The Earth's gravity pulls the moon towards us, but the moon has its own gravity and, as it isn't strong enough to effect the planet as a whole, so instead it pulls the oceans towards it. As the earth rotates one side is always closest to the moon and is effected the most. This pulling of the oceans towards the moon is how tides work
Black holes are created when in a Supernova-explosion or after a collision between two neutronstars (which are mini black holes). The star collapses and the gravity becomes stronger and stronger, dragging everything towards the center. In the end, the gravity becomes so strong that not even light can escape.
The earth's gravity is far stronger than that of the moon, so it overpowers it.
Gravity pulls gas and dust by exerting a force that attracts particles towards each other. The larger the mass of an object, the stronger its gravitational pull. As a result, gas and dust particles are pulled towards regions of higher mass, causing them to clump together and form structures like stars and planets.
No, the gravity between Jupiter and its moons acts towards the centre of Jupiter.
Gravity pulls objects together and towards the center of the earth. The force of gravity depends on the mass of the objects and the distance between them. Gravity will speed up objects falling towards the earth and slow down rising objects.
The force know as gravity is one of the weaker forces. It only works between objects that are close together. To explain another way, the moon is closest to you, so its gravity effect is stronger on you than the Earth's gravity. However, the earth is pulling on the moon, which is why it stays in orbit.
The force of gravity, between Earth and the satellite.
The force that draws two galaxies towards each other is gravity. The gravitational force between the two galaxies pulls them towards each other and can cause them to collide or interact.
gravity =)
Gravity is a force between 2 bodies. Gravity goes in the direction towards the body of greater mass. For things on earth, gravity is in the "downward" direction (i.e. towards the earth), since the earth is of greater mass than other objects.
When you moves straight from the surface of the Earth toward the moon, the force of gravity attracting you to the Earth decreases, and the force of gravity attracting you to the moon increases. The Earth's gravity is the stronger one until you're about 73% of the way to the moon, and from there the moon's gravity is stronger. So, from the time you leave the Earth, the net gravitational force on you decreases, and becomes zero when you have completed about 73% of the trip. From that point until you reach the moon, the gravitational force increases again, and when you reach the moon, the force on you is about 1/6 as strong as it was on the Earth, but pulling towards the Moon.