Any force greater than the weight of the object you're lifting will eventually take it
as far away from Earth as you want it to be. But the force of attraction between
the Earth and the object is never zero, no matter how far away it goes.
The force of gravity on Jupiter is much stronger than on Earth due to Jupiter's larger mass. Jupiter's gravity is about 2.5 times that of Earth.
The force of gravity between two objects is determined by their masses and the distance between them. The Earth has a much greater mass than a car, so the force of gravity between you and Earth is greater. Additionally, your distance from the center of the Earth is much smaller compared to your distance from a car, further contributing to the difference in gravitational force.
The force of gravity on Mars is equal to 3.7m/s2. Mars's force of gravity is therefore 37.8% that of Earth's.
The force you exert on the Earth due to gravity is equal to your mass multiplied by acceleration due to gravity. On average, this force is approximately equal to your weight.
On the moon, gravity is about 1/6th of the gravity on Earth. Therefore, if you weigh 100lbs on Earth, you would weigh approximately 16.6lbs on the moon. This is because the force of gravity pulling you toward the moon is much weaker compared to the force of gravity pulling you toward Earth.
The moon has far less mass than Earth, so the force of gravity will be much lower.
As an object on Earth's surface, you move along with the planet due to inertia. The force required to overcome Earth's gravitational pull and throw objects out into space is much greater than the force generated by the rotation of the Earth. This is why we stay grounded as the Earth rotates.
Earth has a much greater mass than Pluto does, and therefore has stronger gravity.
Gravity is the force that pulls objects towards the center of the Earth, while centrifugal force is the outward force acting on an object moving in a circular path. On the surface of the Earth, gravity is much stronger than centrifugal force, which is why objects remain grounded. At the equator, where the centrifugal force is strongest due to the Earth's rotation, it partially counteracts gravity making objects slightly lighter.
The force of gravity on 1 kilogram of mass on the Earth's surface is approximately 9.8 newtons.
-- The more mass an object has, the more gravitational force there is betweenit and the Earth.-- But the more mass an object has, the more force is required to accelerate it.-- The relationship between how much gravitational force there is and how much forceis required trades off just right, so that every mass has the same acceleration.
Gravity is a force created by and felt by mass. All massive objects have a force of gravity that is directly proportional to the amount of mass within the object. The gravitational constant is a coefficient that relates exactly how much mass = how much gravity. Given that the moon is less massive than the Earth, we would expect less gravity. Similarly, Jupiter has much more mass than the Earth and also has more gravity.