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Because the Moon has mass, a LOT of mass. If something has mass, it will have gravitational attraction. The more mass, the greater the attraction. The moon has ~1/6th the gravity as the Earth.
The gravitational attraction from the Earth.The gravitational attraction from the Earth.The gravitational attraction from the Earth.The gravitational attraction from the Earth.
The gravitational force on Earth is six times greater than that on the moon.
The Moon has an elliptical orbit.
The orbital path of the moon and gravitational attraction between the moon and the earth keep it up there where it is supposed to be.
Because the Moon has mass, a LOT of mass. If something has mass, it will have gravitational attraction. The more mass, the greater the attraction. The moon has ~1/6th the gravity as the Earth.
The moons mass is 1/6th the mass of the Earth.
No, it is the gravitational attraction of the moon.
The gravitational attraction from the Earth.The gravitational attraction from the Earth.The gravitational attraction from the Earth.The gravitational attraction from the Earth.
Gravitational attraction
The gravitational force on Earth is six times greater than that on the moon.
Earth and the moon.
It is held in its orbit by the mutual gravitational attraction between the earth and the moon.
The gravitational fields of both the Earth and Moon extend to infinity, but they reduce as 1 / distance-squared.
The Moon has an elliptical orbit.
The moon will probably never be destroyed by the Earth's gravitational attraction because it is in a stable orbit. Its orbit is kept stable by its high velocity, therefore the only way Earth's gravitational attraction could pull the moon out of its orbit and towards the Earth is if its course is changed or it is slowed down tremendously, perhaps by a large impact such as a meteor.
earth