"Gravity" is the cause of orbital motion. No gravity . . . no orbits, and things
just sail away in straight lines. Without gravity, there's no such thing as a
satellite of anything.
Gravity.
Yes; gravity keeps them in orbit in the first place.Yes; gravity keeps them in orbit in the first place.Yes; gravity keeps them in orbit in the first place.Yes; gravity keeps them in orbit in the first place.
Gravity. A natural satellite aka asteroid, then meteor, then meteorite all get pulled to Earth through gravity. With artificial sattelites it's tge same thing, gravity. The difference is we launch our satellites to the perfect zone around the planet where they become trapped in orbit around us. Sometimes things occur that bump these satellites out of their orbit and gravity takes over, pulling the satellite back to the surface.
Mars has two known natural satellites, Phobos and Deimos. They are irregularly shaped and thought to be asteroids captured by Mars' gravity.
Gravity and inertia are the two forces that keep the moon and other satellites in orbit around Earth. Gravity pulls the moon towards Earth, while the moon's inertia keeps it moving forward in a curved path, resulting in a stable orbit.
Satellites of the Earth are held in their orbits by the Earth's gravity. That includes the Moon and all the artificial satellites etc. that are up there.
Yes there are enough gravitational forces to keep the satellites orbiting earth.
Gravity.
No. They orbit Earth; and the reason they orbit is because of gravity.
Gravity and inertia.
Gravity .
No - satellites do not go to the moon. Satellites orbit planets/moons/objects with gravity in space.
purple unicorns
it is a 0 gravitatial spacecraft
no. They are carried in a rocket of some description, then released
Gravity holds satellites in orbit.
yes.