to have a full outer orbital like neon, it will have to bond with another element.
The electron configuration of neon is [He]2s2.2p6.
Na+ and neon are isoelectronic.
It has the same electron configuration as in a neon atom.
Oxygen has a electron arrangement is 2,6 or 1s2 2s2 2p4 It is trying to achieve the electron arrangement of Neon, 2 8 (as all energy levels/orbitals are full) So it will need to form two covalent bonds to get that, hence it will form a double covalent bond O=O Fluorine has an electron arrangement of 2, 7 or 1s2 2s2 2p5 Again it is trying to achieve the electron arrangement of Neon, 2 8 (as all energy levels/orbitals are full) So It needs to form only one covalent bond, hence F-F So by process of elimination it must be nitrogen. But lets look at its electron arrangement anyway Nitrogen has the electron arrangement of 2,5 or 1s2 2s2 2p3 So it needs to form 3 covalent bonds to achieve a stable electron arrangement. N /// N This triple bond is very strong, so strong in fact that very few things can break it! Lightning is one of them. This is why the majority of the earth atmoshpere is make of Nitrogen - because it sits there not reacting with anything!
When aluminum (Al, #13) reacts, it loses its three valence electrons to achieve the same electron configuration as neon (Ne, #10.) That configuration is 1s22s22p6. So yes, Al+3 has the same configuration as neon.
to have a full outer orbital like neon, it will have to bond with another element.
what does chlorine have t do to achieve the same electron arrangement as neon
The electron configuration of neon is [He]2s2.2p6.
Na+ and neon are isoelectronic.
It has the same electron configuration as in a neon atom.
Na+ ion and neon are isoelectronic.
Na+ and neon are isoelectronic.
Argon
Neon has the same electron configuration as Na+ ion
Argon
Neon has 2 and 8 electrons per shell; the electron configuration is [He]2s2.2p6.
All of the elements in Period 3, excluding group 18/VIIIA, have the same inside electron arrangement as phosphorus. They all have the electron configuration of neon as their inside arrangement of electrons.