Hydrogen only has one electron orbit, as it only has one electron.
Bohr
see here : http://library.thinkquest.org/28383/nowe_teksty/htmla/2_14a.html
Neils Bohr assumed that electrons follow circular orbits in his model of the hydrogen atom. However, this was later proven to be incorrect, as electrons travel as waves and are not restricted to two-dimensional motion. They occupy three-dimensional space and do not have circular orbits.
An essential point of Bohr's theory of the structure of the hydrogen atom was that only particular orbits with specific orbital energies are allowed. Another essential point was that energy is only absorbed or radiated by electronic transitions between these orbits.
2 hydrogen and 1 oxygen particle the molecular mass is 10 that is the number of protons in the molecule.
Since hydrogen only has one electron that constantly absorbs and emits energy while transitioning back and forth through its energy levels, Bohr realized that each of hydrogens orbits was quantized only allowing an electron of specific energy, frequency & wavelength, to occupy it. So he deduced that hydrogen only has a specific line spectum, thus it has specified "orbits" rather than "orbitals" of probability distribution of electrons.
Earth. It orbits the sun and the moon orbits it
the moon is a small rocky planetoid that orbits the earth the sun is a huge sphere of plasma that has a core of fuseing hydrogen basicly a great ball of fire!!!!!!!!!
There are basically three types of orbits.* Sun Synchronous Orbits * Polar Orbits * Geosynchronous Orbits There are variations on these types. Visit related link below.
orbits
Yes, the center (nucleus) contains positively charged particles (protons) and neutral particles (neutrons) that are surrounded by negatively charged particles (electrons) that orbits around the nucleus. Depending on the atom and number of electrons, the electrons can be found in different types of orbits: spherical, coplanar, pyramidal, quadrilateral and others.
The possessive form of the plural noun orbits is orbits'.