Emg31795
Gravity is the force of attraction between all masses in the universe.
The magnitude of a gravitational force depends on
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β 13y agoWiki User
β 11y agoIf mass increases and distance stays the same, then the force of gravity between two objects increases.
If mass decreases and distance stays the same, then the force of gravity between two objects decreases.
If mass stays the same, and distance decreases, then the force of gravity between two objects increases.
If mass stays the same, and distance increases, then the force of gravity between two objects decreases.
The gravitational force between two objects increases as their masses increase. The force of gravity is directly proportional to the product of their masses, as described by Newton's law of universal gravitation. So, if the masses of both objects increase, the gravitational force between them will also increase.
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β 14y agoWiki User
β 14y agoThe gravitational force between two objects is inversely proportional to the square of the distance between them so if two objects are moving towards each other, the distance between them is decreasing thus the gravitational force between them is increasing.
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β 14y agoThe force will increase by a factor equal to the increase in mass (doubling the mass doubles the force, increasing the mass by 10% increases the force by 10%)
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β 12y agothe forces increase in proportion to their masses.
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β 14y agoDecrease in proportion to the square of the distance. So, double the distance results in quarter the gravitational force, treble the distance, force reduces to a ninth etc.
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β 11y agothe force becomes weaker and weaker
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β 15y agodecrease.
Gravitational force is a naturally occurring force related to two bodies in motion. It is the attraction between objects with mass and is responsible for keeping planets in orbit around the sun and objects on Earth's surface.
A combination of the bodies' inertia, and the Sun's gravitational attraction.
The sun holds celestial bodies in the solar system through its gravitational pull. This gravitational force keeps planets, moons, asteroids, and other objects in orbit around the sun. The balance between the sun's gravity and the forward motion of the celestial bodies keeps them moving in stable orbits.
As their mass does not change their gravitational force remains the same. For them to move closer together one of the objects must have a stronger gravitaional force than the other. If they collided and became fused together then the gravitaional force would be greater as there would now only be one object.
The force of gravitation between two bodies does not depend upon the presence of other bodies or the masses of those other bodies. It only depends on the masses of the two bodies and the distance between them.
Gravitational force is affected by the masses of the objects involved and the distance between them. The force increases as the masses of the objects increase and decreases as the distance between them increases.
yes as G =(M)(m) thus as mass increases d force of gravitational also increases b/w d bodies. (r)(r)
When gravity decreases, objects will weigh less and experience a reduction in gravitational force. This can lead to increased buoyancy in liquids, decreased friction between objects, and easier movement in low-gravity environments.
Gravity is the force of attraction between all masses in the universe.The magnitude of a gravitational force depends onthe masses of the objectsthe distance between the objectsThe gravitational force between two bodies increases as their masses increase.
The two main factors that affect gravity are the mass of the objects involved and the distance between them. The gravitational force between two objects increases with the mass of the objects and decreases with the distance between them.
The gravitational force would increase. This is because the gravitational force between two bodies is directly proportional to the product of the two masses. So if you double the mass of one of the masses, the force would double.
Gravitational force depends on the masses of both objects and the distance between them. The formula is Gravitational Force = 6.67428 * 10^-11 * Mass of First Object * Mass of Second Object / Distance^2.
The gravitational force between two objects decreases with increasing distance between them. This relationship is described by the inverse square law, which states that the force is inversely proportional to the square of the distance between the objects. In simpler terms, as the distance between two objects increases, the gravitational force pulling them together diminishes.
The magnitude of the gravitational force between two bodies depends on the mass of the bodies and the distance between them. The larger the mass of the bodies, the greater the gravitational force, and the closer the bodies are, the stronger the gravitational force.
The formula used to calculate the gravitational force between two objects is: F = G * (m1 * m2) / r^2, where F is the gravitational force, G is the gravitational constant, m1 and m2 are the masses of the objects, and r is the distance between their centers. This formula shows that as the distance r increases, the gravitational force decreases.
More massive objects will attract each other with a greater gravitational force due to their stronger gravitational pull. The force of gravity between two objects is directly proportional to the product of their masses.
If the mass of one of the bodies is doubled, the force of gravitational attraction between the two objects would also double. Therefore, the new force of gravitational attraction would be 1000 Newtons.