motion of a projectile
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.
Of course, the gravitational pull of the earth is the prime factor here. The apple is being pulled to the centre of the earth, but in most cases is blocked by something .Example, the ground. Gravity is pulling everything toward it, but depending on how heavy it is determines how much force that gravity has over the object. For example: Gravity has more control over a car than a helium balloon, because the heavier the object, the more gravitational pull it conducts.
A force meter measures a force being applied. It is often as simple as a spring with calibrated markings. The most common example is a spring weighing scale that measure the gravitational force on an object. Other systems use solid state sensors such as electronic weighing scales. Note that a force meter used to weigh objects is a measure of gravitational force and does not measure mass. Weight and mass are commonly confused.
Io, one of Jupiter's moons, is the most volcanically active body in the solar system. The reason for this is tidal heating which is created by the gravitational pull of Jupiter and the other three Galilean moons.
Forces act by means of exchange particles. There are four basic forces (which operate in numerous different ways) each having its own exchange particle. The force of gravity is conveyed by the graviton. The electromagnetic force is conveyed by the photon. The two nuclear forces are conveyed by mesons. A particle that is exerting a force will emit an exchange particle, and a particle which is experiencing a force will absorb that exchange particle. That is essentially how it works, on a subatomic level. There are also mathematical equations which describe the forces, for example, the electromagnetic force is described by Coulomb's Law.
If there were absolutely no gravitational force acting on the moon, it would no longer be held in orbit around the Earth and would drift off into space.
An object with a larger mass would be more affected by gravitational force, as the force of gravity is directly proportional to the mass of the object. Therefore, an object like a planet or a star with a significant mass would experience a stronger gravitational force compared to a smaller object like a pebble.
The object exerting the most gravitational force on you is the one closest to you with the most mass, which is typically Earth.
which what? The bigger the force (weight) the more gravitaional force on an object. less gravity on moon than on earth
which what? The bigger the force (weight) the more gravitaional force on an object. less gravity on moon than on earth
stability
You would weigh the most on Jupiter because it is the largest planet in our solar system and has a very strong gravitational force due to its size and mass. This strong gravitational pull would make you weigh more on Jupiter compared to any other planet in our solar system.
You would weigh the most on the surface, where the most gravitational energy is below you.As you enter the Earth, gravitational force is also exerted from the mass above, meaning that when you reach the center, the gravitational force will be equal from all directions, leaving you weightless.As you depart the surface of the Earth, you will lose weight as the gravitational force weakens with distance.
I believe that The planet which you would weigh most on would be Jupiter, as it is a much larger planet then earth its Gravitational force is much greater and it is also the largest planet in the solar system which would make it with the largest Gravitational force
The object with the most gravitational force would be the bowling ball, as it has the greatest mass compared to a sand grain, marble, and tennis ball. Gravitational force increases with mass, so the object with the highest mass will have the strongest gravitational force.
The gravitational force between two everyday objects like a pen and a book would be the most difficult to notice due to their small masses and distances. The force is extremely weak compared to larger masses like planets or stars.
The largest black hole has the strongest gravitational field. We do not know where that would be, but it is most likely in the center of a galaxy somewhere in the universe.