Jupiter's gravitational pull is 24.9 m/s^2. The moon has a gravitational pull of 1.6 m/s^2.
No, all of the planets have different orbital speeds, dependant on many factors including the gravitational forces experienced by the particular planet.
the orbit of planets around the Sun in the Solar systemthe orbit of moons around their planets in the Solar system
If you could do the measurements at the same distance from both planets, you'd find that the gravitational forces between you and Uranus would be about 14.5 times as strong as the forces between you and the Earth.
gravitational force
If you could do the measurements at the same distance from both planets, you'd find that the gravitational forces between you and Jupiter would be about 318 times as strong as the forces between you and the Earth.
center forces and gravitational forces
Allegedly, the gravitational forces of the planets have an effect on us here on earth.
No, all of the planets have different orbital speeds, dependant on many factors including the gravitational forces experienced by the particular planet.
planets are in orbit because of the suns gravitational field chupa naman diyan Planets are kept in their orbits by gravitational forces.
gravitational forces
Because the Sun has a great gravitational pull on the planets. Without the Sun the planets would travel in straight lines (ignoring other gravitational forces in the Universe.)
The suns gravitational pull forces them to move in one direction
because your ugly
Since the Sun has the most mass of all the objects in the solar system, it has the strongest gravitational pull. If there were another object in the solar system with more mass than the Sun, the planets (and the Sun itself) would orbit it. If there were no Sun's gravity (or other gravitational forces) the planets would travel in straight lines instead of orbits.
Gravitational forces as described by Newton's Universal Law of Gravitation. Also important is the inertia of the planets and Newton's First Law of Motion is involved there.
The bigger the planet/star the larger the gravational force.
the orbit of planets around the Sun in the Solar systemthe orbit of moons around their planets in the Solar system