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The force that keeps the Earth and the Moon together in space is gravity. This gravitational attraction between the Earth and the Moon pulls them toward each other, resulting in the Moon's orbit around the Earth. The strength of this force depends on their masses and the distance between them, as described by Newton's law of universal gravitation.
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Which force keeps the space station in orbit?
The force of gravity keeps the space station in orbit as well as inertia that keeps the space station moving in a straight line.
How does Jupiter keep all its gas together?
Jupiter's strong gravitational pull is what keeps its gases from dispersing into space. The immense mass of Jupiter creates a powerful force that holds the gas together in its atmosphere, preventing it from escaping.
What is the force holding the earth and moon together in space?
The force holding the Earth and Moon together in space is gravity. This gravitational attraction arises from the mass of both the Earth and the Moon, causing them to exert a pull on each other. The Earth's larger mass results in a stronger gravitational force, which keeps the Moon in orbit around it. This interaction is essential for maintaining the stability of their orbital relationship.
What force keeps your atmosphere from floating out into space?
atnosphere gets held back by earths gravtional field
What keeps us from floating into space?
The force of gravity between the Earth and our bodies keeps us grounded, preventing us from floating into space. Gravity's continuous pull towards the Earth's center counteracts the upward force we would experience otherwise.
Which force keeps the space station in orbit?
The force of gravity keeps the space station in orbit as well as inertia that keeps the space station moving in a straight line.
What is the name of thr force that keeps us from drifting off into space?
gravity is the force that keeps us on earth.
The force that keeps objects from floating into space is what?
Gravity.
How does Jupiter keep all its gas together?
Jupiter's strong gravitational pull is what keeps its gases from dispersing into space. The immense mass of Jupiter creates a powerful force that holds the gas together in its atmosphere, preventing it from escaping.
What force keeps the moons from floating away from the planets?
The force of gravity between the moon and the planet is what keeps the moon in orbit around the planet. This gravitational force prevents the moon from floating away into space and keeps it in a stable orbit.
How does gravitational force holds the earth together?
Gravitational force is the force of attraction between all objects with mass. On Earth, this force keeps objects, including the Earth itself, held together. It is the reason why all objects are pulled towards the center of the Earth, keeping them from floating off into space.
When satellite companies send their satellites into space what force keeps them from flying away?
gravitational force
What keeps the plates from flying off into outer space?
The force of Gravity.
What keeps objects from floating into space?
The force of gravity between an object and Earth keeps objects from floating into space. Gravity acts as a force of attraction that pulls objects towards Earth's center, preventing them from drifting off into space.
What force keeps your feet on the ground and your chair on the floor and not flying into space?
Gravity
What is the source of the centripetal force that keeps the International Space Station in orbit around the earth?
The centripetal force that keeps the International Space Station in orbit around the Earth is due to the gravitational pull between the Earth and the space station. This gravitational force causes the space station to constantly fall towards Earth, but its tangential velocity keeps it moving sideways, resulting in a stable orbit.
What is the force holding the earth and moon together in space?
The force holding the Earth and Moon together in space is gravity. This gravitational attraction arises from the mass of both the Earth and the Moon, causing them to exert a pull on each other. The Earth's larger mass results in a stronger gravitational force, which keeps the Moon in orbit around it. This interaction is essential for maintaining the stability of their orbital relationship.
