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The orbit of a celestial body is its revolution about its primary. It can be explained in terms of the net result of gravitational forces acting upon the body, usually with emphasis upon the gravitational force exerted by its primary, which accelerates the body towards it, causing the object and its primary to revolve around a common center of gravity. The characteristics of the orbit are determined by the momentum of the body (kinetic energy or momentum being vector quantities, the vector's argument oriented approximately perpendicular to a line joining the body to its primary, or tangential to a circular orbit) and the strength of the force; the shape of the orbit is ideally elliptical with the primary occupying a position at one of the foci - remembering that a circle is a special ellipse with the foci superimposed. Note that with eccentric elliptical orbits, the axis of the ellipse itself will precess slowly over time, a phenomenon explained through relativistic effects. In the context of relativity, an orbit can be explained as a straight line (geodesic) through curved space shaped by gravitation - giving rise to one description of the properties of an orbit being the development (unfolding or mapping) in three dimensions of a four dimensional path through timespace.
The circular path is known as an orbit.
Planets are not satellites. The definition of satellite is any celestial body orbiting around a planet or star.
An orbit.
There would be no orbit. You have to have a body to orbit around and without a star or other planet to orbit around, it would just move in a straight line.
A moon or satellite. what are the natural satellites which revolve around planets
In astronomical terms, a satellite is any body that orbits another body. Planets are satellites of stars, and there are smaller "satellite galaxies" that border or orbit larger galaxies such as the Milky Way.The word moons refers to satellites of planets, dwarf planets, or asteroids. They are often called "natural satellites" to differentiate them from "artificial satellites" which are manmade devices in orbit around planets or moons.
Any body that orbits (goes round) another body is called a satellite of that body. Therefore the Moon is a satellite of the Earth and by definition all the Planets are satellites of the Sun. The term 'satellite' is also used to describe man made devices which have been put into orbit round the Earth - however when we make these go round the Sun or other planets we tend to call them 'probes' in this instance.👍
There are two types of satellites, Genuine Satellites, which are any body that orbit a planet. For instance, our moon is a satellite of the earth, and there are artificial satellites which are man made objects that orbit a planet. These range from few tens of millions, to few hundred millions.
NoA more accurate answer:Definition of satellite: A body or object in orbit around another. So by that definition the moon is a satellite of the earthMan made satellites have and do circle other planets also.Go to the Nasa site read about many satellites we have sent Jupiter, Mars etc.
They are natural or man made bodies which orbit a larger body along a regular path.
A satellite is an object that orbits around a planet or body in space. There are artificial satellites and natural satellites. An artificial satellite is an object, like a space station, that has been set into orbit around a planet by humans. A natural satellite naturally finds its way into close orbit around a planet, like the moon naturally orbits the Earth.
The orbit of a celestial body is its revolution about its primary. It can be explained in terms of the net result of gravitational forces acting upon the body, usually with emphasis upon the gravitational force exerted by its primary, which accelerates the body towards it, causing the object and its primary to revolve around a common center of gravity. The characteristics of the orbit are determined by the momentum of the body (kinetic energy or momentum being vector quantities, the vector's argument oriented approximately perpendicular to a line joining the body to its primary, or tangential to a circular orbit) and the strength of the force; the shape of the orbit is ideally elliptical with the primary occupying a position at one of the foci - remembering that a circle is a special ellipse with the foci superimposed. Note that with eccentric elliptical orbits, the axis of the ellipse itself will precess slowly over time, a phenomenon explained through relativistic effects. In the context of relativity, an orbit can be explained as a straight line (geodesic) through curved space shaped by gravitation - giving rise to one description of the properties of an orbit being the development (unfolding or mapping) in three dimensions of a four dimensional path through timespace.
Our Earth is a body that is in orbit round the Sun.
The rotation of either body has no effect on a pair that are in mutual gravitational orbit. It would have effect at all.
A planet.
Orbit, if it is closed otherwise one might call it a trajectory.