the number of electrons in each shell, i.e. 2 in the first shell, and 8 electrons in the other 2 shells.
Argon has chemical symbol Ar. The balanced equations will depend on what other reactants are present, but argon being a noble gas tends to be unreactive due to its stable octet electronic structure.
Argon has a face-centered cubic structure.
It has a octet electronic configuration, which means the valence electrons (the outermost shells) are 8. So, they rarely can react as a electronic shell can hold up to 8 electrons and they don't need to lose or gain electron through reactions to obtain a stable structure (octet electronic configuration)
Perhaps the electronic configuration of Chromium? Ar for argon, argon has 18 electrons. Electronic configuration of argon can be written as 1s22s22p63s23p6. Electronic configuration of chromium is 1s22s22p63s23p63d54s1. As you can see you can just replace that long chain of figures in front of 3d54s1 with just Ar. Hence, [Ar]3d54s1.
The electron configuration for argon is: 1s22s22p63s23p6
Argon has completely filled orbitals. It obeys octet rule (8 electrons in the valence orbitals / shells) and is stable and chemically inert
Argon has chemical symbol Ar. The balanced equations will depend on what other reactants are present, but argon being a noble gas tends to be unreactive due to its stable octet electronic structure.
Argon is inert. This means that the filament in a light bulb can be heated to a high temperature in an environment where it will not react with the surrounding gases.
Argon has a face-centered cubic structure.
They have completely filled orbitals / energy levels. Both neon and argon have 8 valence electrons and have stable electronic configuration. Hence they are chemically inert and generally donot form compounds under normal conditions.
It has a octet electronic configuration, which means the valence electrons (the outermost shells) are 8. So, they rarely can react as a electronic shell can hold up to 8 electrons and they don't need to lose or gain electron through reactions to obtain a stable structure (octet electronic configuration)
Perhaps the electronic configuration of Chromium? Ar for argon, argon has 18 electrons. Electronic configuration of argon can be written as 1s22s22p63s23p6. Electronic configuration of chromium is 1s22s22p63s23p63d54s1. As you can see you can just replace that long chain of figures in front of 3d54s1 with just Ar. Hence, [Ar]3d54s1.
The electron configuration for argon is: 1s22s22p63s23p6
Ar, argon is an inert gas and does not have a crystalline structure.
face centered cubic
Yes. S2- has the electronic configuration of argon
Yes- Cl- has the electronic configuration of argon.