No it will not because it has a filled outer layer/shell so it has a stable outer energy level as shown by its electronic configuration of 2:8:8
No, it doesn't normally react with other elements.
Without hybridization, oxygen has a valence electron configuration of 2s22p4. Which means it has 2 unpaired electrons; therefore it can form 2 bonds.
Carbon can bond with other carbon atoms making long carbon chains. Carbon can form strong pi-bonds allowing for double and triple bonds between carbon atoms as well, and the carbon-carbon pi-bonds can be delocalized for additional stability in rings.
Astatine wouldn't form salt as readily as other elements in Group 17. Astatine is a radioactive metalloid. Other elements in Group 17 are nonmetals.
Only certain elements have electrons capable of forming double bonds in their outer electronshell. Also, size plays a major role in the possibility of forming double bonds. If the pi orbitals of the two atoms can overlap then they will be able to make a strong double bond. If the atom is too big then the pi orbital won't be able to overlap with its neighboring atom; preventing it from forming a double bond. Only C,N,O,P,S are able to form double bonds.
Argon is chemically inert. It does not form bonds with other elements.
Argon is chemically inert due to the presence of completely filled orbitals. So it does not form bonds with other elements.
Argon and the other Noble gases in the far right group (column) of the periodic table have a full outer shell of electrons and cannot form bonds with other elements.
Argon only forms VERY unstable compounds for short amounts of time, so not really. This is why argon is a inert gas.
Helium, neon and argon are the least likely elements to form compounds.
Because it is a very stable element. It is one of the "Noble Gases" which are the most stable elements known.
Argon has three full shells of electrons. Elements react to form bonds so that their outer shell is full. As Argon has a full outer shell it is unreactive
This element is carbon.
I believe that the noble gases (helium, xenon, neon, argon, krypton and radon) do not form bonds with other elements, or amongst themselves (like oxygen bonding to form O2). This is because they are stable with full valence electron shells
covalent bonds
The noble gases. For example: Helium, Neon, Argon etc
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