Radius of 'n'th orbit of hydrogen like species of atomic no.'z'
Neptune's orbit has a mean radius of 30 AUs. The Earth's orbit has a mean radius of 1 AU, which is how an AU is defined, so 1 AU is much smaller than Neptune's orbit.
It depends on the radius of the orbit. Different orbit radii have different orbital periods. As an example, one of Mars's natural satellites, Phobos takes 7.66 hours to orbit Mars. It's orbital radius is around 9,400 km.
hydrogen (H) and helium (He)
Remember always that the classical picture of the hydrogen atom is wrong, completely wrong, totally wrong in nearly every possible way. Other than that, yeah, half an Angstrom is about right for the Bohr radius of hydrogen.
1.058
Oh, yes it is. because hydrogen has only one electron in its orbit and a smallest elemental atom too.
The orbit of the Earth has a radius of about 93 million miles.
one photonAn electron moves from a higher orbit to a lower orbit
Do you mean the length of such an orbit ?Well . . .-- The radius of the Earth is about 3,960 miles.-- 220 miles further out means that the radius of the orbit is 4,180 miles.-- The circumference of a circle is (2 pi) x (the radius).-- So the length of the orbit is (8,360 pi) = 26,264 miles. (rounded)
Neptune's orbit has a mean radius of 30 AUs. The Earth's orbit has a mean radius of 1 AU, which is how an AU is defined, so 1 AU is much smaller than Neptune's orbit.
It depends on the radius of the orbit. Different orbit radii have different orbital periods. As an example, one of Mars's natural satellites, Phobos takes 7.66 hours to orbit Mars. It's orbital radius is around 9,400 km.
hydrogen (H) and helium (He)
Remember always that the classical picture of the hydrogen atom is wrong, completely wrong, totally wrong in nearly every possible way. Other than that, yeah, half an Angstrom is about right for the Bohr radius of hydrogen.
Hydrogen only has one electron orbit, as it only has one electron.
It doesn't orbit earth faster. The ISS is in a lower orbit with a period of 91 minutes compared to the Hubble's orbital period of 96-97 minutes. Orbital periods generally increase with orbit radius and speed in the orbit decreases with increasing orbit radius.
1.058
it is produced when an electron from a higher energy orbit drops down to a lower level of energy orbit.