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Yes. At a greater distance, the gravitational attraction between two objects is less.
The larger the mass of either object, the greater the gravitational force.
Gravity has an effect on all objects, including objects of different shapes and sizes.
Mass and distance.
This is false. The answer is that mass and distance affect the gravitational attraction between objects. Air resistance has no effect on this.
The gravitational forces of the Sun and Moon, effect the earths oceans by forming tides.
If there is more mass, there will be more gravitational attraction.
Yes. At a greater distance, the gravitational attraction between two objects is less.
Gravitational forces between objects depend only on their masses and the distance between them. Velocity has no effect.
The earths gravitational pull would effect the ball so that once it reaches a certaion height it wouold fall back to earth. It prevents the ball leaving earths atmosphere.
The larger the mass of either object, the greater the gravitational force.
Gravitational pull is only noticeable for large objects, stars, planets, moons. Smaller objects just don't have enough mass to make much difference.
Gravity has an effect on all objects, including objects of different shapes and sizes.
-- the masses of both objects -- the distance between their centers
Mass and distance.
This is false. The answer is that mass and distance affect the gravitational attraction between objects. Air resistance has no effect on this.
you can see sound. the tremanariously objectified sense of gravitational propulsion can be seen through its effect on orbitally mechanophysical objects. you can see sound. the tremanariously objectified sense of gravitational propulsion can be seen through its effect on orbitally mechanophysical objects.