The orbits never change their position...
Stationary orbits of an atom refer to the specific energy levels that electrons can occupy around the nucleus without emitting or absorbing energy. These orbits are defined by the quantized energy levels in which electrons can orbit the nucleus. The concept of stationary orbits forms the basis of Bohr's model of the atom.
The Earth orbit in which satellites appear to be stationary is called the, "Geostationary Orbit". Some call it a synchronous orbit.
Each planet has one orbit that is just called the orbit of . . . .
No, the sun does not orbit around stationary planets. In our solar system, planets orbit around the sun due to its gravitational pull. This is known as heliocentrism, which describes the sun as being at the center of our solar system.
No. A geosynchronous orbit is one in which the satellite stays approximately stationary with respect to a point on the earth's surface. This is not possible in any orbits which are not in the equatorial plane of the earth. For example, in polar orbits the satellites will move around the earth from above the north pole to above the south pole and then back to above the north pole. Clearly, this isn't stationary relative to the earth's surface.
Orbit: as in the Earth orbits round the Sun.
The plural of orbit is orbits. As in "the moon orbits the Earth".
An object that orbits Neptune would be called a MOON of Neptune, if it is large enough.
They are orbits and they are elliptical in shape. So the answer could be "orbits" or it could be "ellipses".
Assuming circular orbits, Bohr proposed that the angular momentum L of an electron in its orbit is quantized, that is, it has only specific, discrete values. The value for L is given by the formula L=mevrn=nh2π(n=1,2,3,…)
A planet that orbits a star is called an exoplanet.
When the merry-go-round came off of it's axle, it was no longer stationary. Geosynchronous orbit is the same as stationary orbit. A revolving stage is not supposed to be stationary!