Nothing happens to gravity. It always works according to the same exact formula,
regardless of how far apart or close together the objects are.
According to that formula, we can see that when the objects are closer together,
the gravitational force between them becomes greater.
As two planets get closer to gether, the gravitational force between them increases. But it increases as a function of the inverse square of the distance between the two planets. Let's look at a couple of examples. If two planets are pulling on each other from some distance apart and the distance is cut in half, the gravitational force acting on them is now 4 times as great. By the same token, if two planets are some distance apart and gravity is pulling each one toward the other and the distance between them is doubled, the force of gravity acting between them is only 1/4th as much.
Discovered by the English physicist Isaac newton law of universal gravitation that extends gravity beyond earth.
"The principle that two particles attract each other with forces directly proportionalto the product of their masses divided by the square of the distance between them (inverse square law)".
Weight = (G x M x m)/R2
where G is gravitational constant, M is the mass of the Earth, m is our mass, R is the radius of the Earth.
Being closer to the Sun does not effect the gravity of a planet. But being closer can effect that planets atmosphere and temperature.
The gravitational force between them increases, the same if they grow in mass.
In that case, the gravitational force increases.
Greater.
An object have greater gravitational pull closer from earth. As we get farther from earth, the gravitational pull becomes weaker. That is why objects sufficiently away from the earth do not fall on it.
the closer you are to the sun it affects the planets speed cause of the suns gravitational pull
The inner planets are closer together than the outer planets are.
The question probably means "What keeps the planets in orbit around the Sun?" The answer to that is : The Sun's gravitational attraction provides the force needed to keep the planets in orbit. This force doesn't pull the planets any closer to the Sun, but it stops the planets moving away (at a tangent to their orbits) due to their own velocities.
mass and distance form an inverse relationship when related to gravity. The larger the mass(es) the greater the gravitational pull. The closer the distance, the greater the gravitational pull.
When ANY two objects move closer together, the gravitational forces between them become greater.
An object have greater gravitational pull closer from earth. As we get farther from earth, the gravitational pull becomes weaker. That is why objects sufficiently away from the earth do not fall on it.
the closer you are to the sun it affects the planets speed cause of the suns gravitational pull
The gravitational pull
The more massive the objects, the greater the gravitational force between them. The gravitational force is affected by mass and distance. The closer two bodies are, the greater the gravitational force also.
The inner planets are closer together than the outer planets are.
The inner planets are closer together than the outer ones.
The question probably means "What keeps the planets in orbit around the Sun?" The answer to that is : The Sun's gravitational attraction provides the force needed to keep the planets in orbit. This force doesn't pull the planets any closer to the Sun, but it stops the planets moving away (at a tangent to their orbits) due to their own velocities.
The inner planets are closer together than the outer ones.
mass and distance form an inverse relationship when related to gravity. The larger the mass(es) the greater the gravitational pull. The closer the distance, the greater the gravitational pull.
The force increases. Each time the distance decreases by half, the force becomes 4 times greater.
No, it is increased. If the separation is halved, the attraction is quadrupled.