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The gravitational force that the Sun exerts on Jupiter is primarily responsible for holding Jupiter in its orbit around the Sun. This force is directly proportional to the masses of both the Sun and Jupiter, and inversely proportional to the square of the distance between them, as described by Newton's law of universal gravitation.
The gravitational pull from Jupiter to the sun is stronger than the gravitational pull from Saturn to the sun. This is because Jupiter is more massive than Saturn, so it exerts a greater gravitational force over larger distances.
Sun and Jupiter because Jupiter has more mass and it is closer to the sun.
Gravitational force is what holds Jupiter in orbit around the sun. The sun's immense gravitational pull towards its center keeps Jupiter moving in its elliptical path around it. This gravitational force is what maintains the balance between the centripetal force pulling Jupiter towards the sun and its own inertia pushing it away.
Yes, the Sun exerts a gravitational force on the Moon. This gravitational force contributes to the Moon's orbit around the Earth and influences its motion, causing various phenomena such as tides on Earth.
The gravitational force that the Sun exerts on Jupiter is primarily responsible for holding Jupiter in its orbit around the Sun. This force is directly proportional to the masses of both the Sun and Jupiter, and inversely proportional to the square of the distance between them, as described by Newton's law of universal gravitation.
The gravitational pull from Jupiter to the sun is stronger than the gravitational pull from Saturn to the sun. This is because Jupiter is more massive than Saturn, so it exerts a greater gravitational force over larger distances.
Sun and Jupiter because Jupiter has more mass and it is closer to the sun.
Everything with mass exerts a gravitational force proportional to its mass.
Gravitational force is what holds Jupiter in orbit around the sun. The sun's immense gravitational pull towards its center keeps Jupiter moving in its elliptical path around it. This gravitational force is what maintains the balance between the centripetal force pulling Jupiter towards the sun and its own inertia pushing it away.
Yes, the Sun exerts a gravitational force on the Moon. This gravitational force contributes to the Moon's orbit around the Earth and influences its motion, causing various phenomena such as tides on Earth.
Though the moon is closer, it is relatively small compared to the sun. The sun is much larger and exerts a far stronger gravitational force.
The gravitational force that the Sun exerts on Mercury is not constant because the distance between the two objects changes as Mercury orbits around the Sun. According to Newton's law of universal gravitation, gravitational force decreases with distance. As Mercury moves closer or farther from the Sun in its elliptical orbit, the gravitational force it experiences changes accordingly.
Generally speaking, if an object has more mass than another, it will exert more gravitational force. Ex1: The sun has more mass than Jupiter, so it exerts more gravity, while Jupiter exerts more than Earth as you'll be crushed within it's atmosphere. Ex2: An asteroid has less mass (usually) than mars or the moon, so it will produce less gravitational force than either planetary body.
False. The Moon orbits around Earth due to Earth's gravitational pull, but the Sun also exerts a gravitational force on the Moon. The combined gravitational forces of Earth and the Sun control the Moon's orbit.
The Earth exerts the greatest gravitational force on you because it is the most massive object you are closest to. The Earth exerts a force equal to your weight. The other objects exert gravitational forces but are not very noticeable because they are either low in mass or separated from you by great distance.
The gravitational force between two objects depends on their masses and distance. Although the sun exerts the same gravitational force on both Earth and Mars due to their masses, this force is stronger on Mars because it is closer to the sun compared to Earth's distance. This makes the gravitational force between the sun and Mars greater than that between the sun and Earth.