Valence and core electrons: Difference between revisions
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[[File:Valence.png|thumbnail|300px|right|Figure 1: The two yellow electrons on the outermost oval are the '''valence electrons'''; the other 10 electrons are '''core electrons'''.<ref>This image was created by part of the [[Who_we_are| Energy Education team]].</ref> This picture does not address the [[quantum mechanics]] of electrons around atoms.]] | [[File:Valence.png|thumbnail|300px|right|Figure 1: The two yellow electrons on the outermost oval are the '''valence electrons'''; the other 10 electrons are '''core electrons'''.<ref>This image was created by part of the [[Who_we_are| Energy Education team]].</ref> This picture does not address the [[quantum mechanics]] of electrons around atoms.]] | ||
Electrons exist in [[orbital]]s around a [[nucleus]]. These orbitals and the | Electrons exist in [[orbital]]s around a [[nucleus]]. These orbitals and the energy needed to remove each of these electrons from the atom are set by [[quantum mechanics]]. Each of these orbitals serves to create a shell of [[electron]]s in the [[atom]]. | ||
<onlyinclude>'''Valence electrons''' are the electrons orbiting the nucleus in the outermost atomic shell of an atom. Electrons that are closer to the nucleus are in filled orbitals and are called '''core electrons'''.</onlyinclude> Valence electrons are the farthest from the positive [[charge]] (the [[proton]]s) and thus tend to be easier to remove than core electrons; this means that it takes them less [[energy]] to move far away from the atom. This difference comes from the [[electric force]] being an [[inverse square law]]. Removing an electron (any of them) from a neutral atom turns the atom into an [[ion]]. | <onlyinclude>'''Valence electrons''' are the electrons orbiting the nucleus in the outermost atomic shell of an atom. Electrons that are closer to the nucleus are in filled orbitals and are called '''core electrons'''.</onlyinclude> Valence electrons are the farthest from the positive [[charge]] (the [[proton]]s) and thus tend to be easier to remove than core electrons; this means that it takes them less [[energy]] to move far away from the atom. This difference comes from the [[electric force]] being an [[inverse square law]]. Removing an electron (any of them) from a neutral atom turns the atom into an [[ion]]. | ||
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==References== | ==References== | ||
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Revision as of 22:22, 1 June 2018
Electrons exist in orbitals around a nucleus. These orbitals and the energy needed to remove each of these electrons from the atom are set by quantum mechanics. Each of these orbitals serves to create a shell of electrons in the atom. Valence electrons are the electrons orbiting the nucleus in the outermost atomic shell of an atom. Electrons that are closer to the nucleus are in filled orbitals and are called core electrons. Valence electrons are the farthest from the positive charge (the protons) and thus tend to be easier to remove than core electrons; this means that it takes them less energy to move far away from the atom. This difference comes from the electric force being an inverse square law. Removing an electron (any of them) from a neutral atom turns the atom into an ion.
Valence electrons also tend to be the electrons that specifically participate in a chemical bond, like ionic bonds or covalent bonds.
For more information about valence electrons, core electrons and how they related to chemical reactions please see UC Davis's chem wiki.
References
- ↑ This image was created by part of the Energy Education team.