No. Gravity always behaves according to the same formula, introduced by Newton.
But the gravitational forces between you and the Earth certainly change when the
distance between you and the Earth's center changes significantly.
Anything, including an apple, weighs heavier on earth due to earth's gravity. The gravity on the moon is much less, so objects are lighter.
When on Earth, you can escape if you move away from the Earth at the "escape" speed. Gravity will slow you down and you will reach zero speed at an infinite distance.
Mass stays the same while weight reduces because the gravity is weaker at distance.
As you move from a pole toward the Equator the Earth's spin will act against the force of gravity, so that the net gravity will fell less as you approach the Equator. As you move away from the equator towards a pole (as in moving south, when in southern hemisphere), the spin effect becomes less, so the feel of gravity will increase. The amount of change is slight. Also, the equator is a little farther away from the center of mass than the pole, making the gravitational pull at the equator a little less, as well.
In that case, the Moon would move in a straight line instead of moving around the Earth; it would quickly get away.
As you move away from the Earth by distance squared, the force of gravity (weight) decreases. This is because gravity follows an inverse square law, where the force of gravity weakens as the distance between two objects increases.
The acceleration due to gravity decreases as you move farther away from the center of the Earth. This is because gravity weakens with distance according to the inverse-square law.
The only way to do that is to physically take it away from the Earth. As long as the object remains on the Earth, you can apply additional forces to it, to combine in various ways with the force of gravity and make the object move as you want it to, but there's nothing you can do to change the force of gravity on it.
gravity pulls the earth into position so it doesn't move away and gravity is what holds us down onto the earth as well.
The factor of gravity responsible for causing objects to change velocity at a rate of 9.8 ms^2 as they move towards Earth is the acceleration due to gravity. This acceleration is constant near the surface of the Earth and is denoted by 'g'.
Anything, including an apple, weighs heavier on earth due to earth's gravity. The gravity on the moon is much less, so objects are lighter.
As you move further away from Earth, the strength of gravity becomes less.
Reducing the Earth's gravity is not currently possible with existing technology. Gravity is a fundamental force determined by the mass of the Earth, and altering it would require significant, currently unrealistic, changes to the planet's mass or composition.
Of course we move. We move along with Earth.
As objects move farther away from Earth, they experience weaker gravitational pull from Earth. This results in a decrease in their weight and acceleration due to gravity. They also experience less atmospheric pressure and temperature, depending on the distance.
As you move away from the center of the Earth, your weight will decrease. This is because weight is the force of gravity acting on an object, and gravity weakens with increasing distance from the center of the Earth.
The weight of an object changes with increasing elevation on Earth because the force of gravity decreases as you move further away from the Earth's center. This means that an object will weigh less at higher elevations compared to at sea level.