It is the most massive - containing about 99.8% of the mass of the Solar System.
When the distance between the two object increases the gravitational force increases because gravitational force is inversely proportional to distance and also the mass of the object increases than force also increases because this force is directly proportional to mass.
Jupiter, because of its mass. But the actual effective gravitational force falls off greatly as you go farther from the planet, so that it only affects smaller objects when they are relatively nearby, like its moons. Otherwise, it exerts the greatest force (co-attraction) on other large planets.
An example of gravitational force is the force that pulls objects toward Earth's surface, keeping us grounded. Another example is the force that keeps planets in orbit around the Sun, maintaining the stability of our solar system.
The gravitational force between the sun and the planets keeps them in orbit. This force acts as a centripetal force that continually pulls the planets towards the sun, keeping them in a stable orbit. The balance between the planet's velocity and the gravitational force determines the shape and size of their orbits.
The gravitational force exerted by the moon is the primary force responsible for creating the tides on Earth. The gravitational pull of the moon creates a bulge of water on the side of the Earth facing the moon, as well as on the opposite side, leading to high and low tides.
because of gravitational force
The sun. What has more gravitational force in your solar system?
no, because gravitational force depents on the object's weight.
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.
The gravitational force of the sun is strongest for the reason that the sun is the most massive. Gravitational force is proportional to mass; the higher the mass, the stronger the gravity. The sun has over a thousand times the mass of the next most massive object in the solar system (Jupiter).
That's because the gravitational force isn't the only force acting, in this case.
When the mass is doubled, the gravitational force between two objects also doubles. This is because gravitational force is directly proportional to the product of the masses of the objects involved.
When the distance between the two object increases the gravitational force increases because gravitational force is inversely proportional to distance and also the mass of the object increases than force also increases because this force is directly proportional to mass.
It is Jupiter.
the gravitational force of the sun
Jupiter, because of its mass. But the actual effective gravitational force falls off greatly as you go farther from the planet, so that it only affects smaller objects when they are relatively nearby, like its moons. Otherwise, it exerts the greatest force (co-attraction) on other large planets.
Primary forces refer to the fundamental forces of nature that govern interactions between particles in the universe. These include gravitational force, electromagnetic force, strong nuclear force, and weak nuclear force. Gravitational force is responsible for the attraction between masses, electromagnetic force for interactions between charged particles, strong nuclear force holds atomic nuclei together, and weak nuclear force governs certain types of radioactive decays.