The closer to the core of the earth an object gets, the higher the gravitational pull.
The center of the Earth.
For any object that has mass, there is no place on the surface of the Earth where the gravitational force on the object is zero.
The earth is not perfect sphere therefore the radius differs from place to place and from Newton Gravitational law force is directly proportional to radius
it would be less than what it was before
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.
Gravitational force does not change your mass. Mass is the same when you are floating in the weightlessness of space, but your mass when put into a gravitational field creates your weight. On Earth, Earth's gravity (gravitational force) pulls on your mass, creating your weight. The mass of an object determines its gravitational pull. A object with a lot of mass like the Earth has a lot of gravitational force/pull -- the force we call gravity. So, your body has a gravitational force, it's just so small, because your mass is small, it isn't noticeable.
The Earth is moving but the sun's gravitational pull keeps the earth in place.
Gravitational Force
That force is called gravity.
Gravitational force pulling the ball towards the center of the Earth, the normal force between your hands and the ball, and the force exerted on the ball to raise it against gravity; this is called gravitational potential force, which can be calculated to be the mass of the ball multiplied 9.8m/s2 and the height it is raised from it's initial place.
Gravitational force pulling the ball towards the center of the Earth, the normal force between your hands and the ball, and the force exerted on the ball to raise it against gravity; this is called gravitational potential force, which can be calculated to be the mass of the ball multiplied 9.8m/s2 and the height it is raised from it's initial place.
Gravity, inertia, and gravitational force.