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.
Jupiter, being that largest planet with the highest mass, has the largest gravitational pull of any planet in our solar system. However the planet with the largest gravitational pull known to man outside our solar system is HAT-P-2b in the Hercules constellation, it is 1.8 the size of Jupiter and 8.2 the mass of Jupiter.
The planets orbit the Sun. The Sun is at the center of our solar system and does not move.
The sun is in the middle of our solar system because it is a large, luminous sphere of hot plasma that exerts gravitational force on all the other objects around it. Its mass and gravitational pull hold the planets, moons, and other objects in orbit around it.
That's the one with the largest mass - i.e., the Sun.
the sun
At any given distance, the object with the greatest mass also has the greatest gravitational force. That's the Sun. The Sun also has the largest surface gravity.
Jupiter, the biggest planet, exerts the strongest gravity.
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.
The sun has the majority of the mass in the solar system. Gravitational attraction varies directly as the magnitude of the mass. The sun therefore has the greatest gravitational effect in the solar system.
Everything with mass ... i.e. ALL the objects of the solar system.
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.
The strength of any gravitational field is directly related to the mass of the object which generates that field. So, the Earth exerts a strong gravitational attraction because it is a massive planet (although there are some other planets in our solar system such as Jupiter and the other gas giants, which are much more massive).
That is because the Sun has the greatest mass in the Solar System - about 1000 times more mass than the second most massive object (Jupiter).
Yes, a pulley system is an example of gravitational potential energy. When you lift an object using a pulley system, you are storing potential energy in the object due to its position relative to the Earth's gravitational field.
Action-reaction refers to Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction. This law explains how forces interact between two objects in a system, where one object exerts a force on the other, and the other exerts an equal force in the opposite direction.
Jupiter, being that largest planet with the highest mass, has the largest gravitational pull of any planet in our solar system. However the planet with the largest gravitational pull known to man outside our solar system is HAT-P-2b in the Hercules constellation, it is 1.8 the size of Jupiter and 8.2 the mass of Jupiter.