There is no difference. Electrons are subatomic particles and therefore identical.
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In the same orbital, defined by one 'tri' set of quantum numbers (n, l, and ml ) the spin quantum number differs, the two values being ms = +1/2 and ms = -1/2, are each taken by one electron.
The isotopes of molybdenum have different electron configurations.
charge mass, Whether or not two can exist at the same place.
the two atoms must be of the same element
Isotopes of an element have the same number of protons in their nuclei (same atomic number) but different numbers of neutrons, resulting in different mass numbers. This difference in neutron content gives each isotope unique physical properties such as stability, radioactivity, and atomic mass.
The energy difference, between two energy levels, is emitted as a photon, when the electron "falls down" to a lower energy level.
scientists Can tell the difference between two isotopes of the same element because, isotopes of the same elements always have the same number of protons.
The same numbers of protons and of electrons; the difference between isotopes is in the number of neutrons.
The isotopes of molybdenum have different electron configurations.
The two main isotopes of chlorine are chlorine-35 and chlorine-37. The difference lies in their atomic mass, with chlorine-35 having 17 protons and 18 neutrons, while chlorine-37 has 17 protons and 20 neutrons. This causes a difference in atomic weight and stability between the two isotopes.
charge mass, Whether or not two can exist at the same place.
The proton and electron number are equal for all isotopes of the same specific element.
The difference between bonded and lone pair is that a bond pair is composed of two electron that are in a bond whereas lone pair is composed of two electron that is not a bond.
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The atoms are isotopes of each other because they have the same number of protons, making them the same element. The differing number of neutrons results in a difference in atomic mass between the two isotopes.
Some isotopes emit an electron on decay, others emit a positron (anti-electron).
The separation of isotopes is relatively easy for light elements as hydrogen, lithium, nitrogen etc. For elements with higher atomic weight and a small difference between the atomic masses of the isotopes the process is long and expensive. The insignificant differences between these isotopes doesn't facilitate the separation.
atomic mass.