The moon has mass.
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The moon has gravitational energy due to its mass and its distance from the Earth. Gravity is a force that exists between two objects with mass, and the moon's gravitational energy is a result of Earth's gravitational pull on it, which keeps it in orbit around the Earth.
The moon's gravitational pull is strongest when it is closest to Earth, at the point in its orbit called perigee. This is when tides are typically higher and stronger due to the increased gravitational force.
The moon is held in place by the gravitational pull of the Earth. This gravitational force keeps the moon in orbit around the Earth, preventing it from floating off into space. The balance between the motion of the moon and the gravitational force of the Earth keeps the moon in a stable orbit.
No, the gravitational force of Earth and the Moon is not the same. Earth's gravitational force is stronger due to its larger mass. The gravitational force of the Moon is about 1/6 of the gravitational force of Earth.
The moon circles the earth due to gravitational forces. The gravitational pull between the earth and the moon causes the moon to orbit around the earth, following an elliptical path.
The gravitational force on the moon is about 1/6th of the gravitational force on Earth. This means that objects on the moon weigh about 1/6th of what they would weigh on Earth.