Gold usually exists as a cation (some integer amount of positive charge) in solutions so it's a giver. It bonds covalently though, so it's also a sharer.
In theory 2 but in practice this has never been found. Helium is extremely stable and holds on to its electrons and does not share or "lend" them.
2
Yes, Non Metals Share Electrons to become stable, this is known as Covalent Bonding.
2 because it has two outer shell electrons out of 8 (relevant rule only for the first 20 elements)
Only one valence electron.
In theory 2 but in practice this has never been found. Helium is extremely stable and holds on to its electrons and does not share or "lend" them.
Yes, you can give away or lend you Wii game to your friends.
2
2
Yes, Non Metals Share Electrons to become stable, this is known as Covalent Bonding.
The ability of an atom to borrow or lend electrons is determined by its electronegativity. Atoms with higher electronegativity tend to attract electrons towards themselves, while atoms with lower electronegativity are more likely to donate electrons. This tendency influences how atoms form chemical bonds with each other.
Oxygen can lend two electrons to form a stable compound. Oxygen typically forms bonds by accepting two electrons to complete its outer shell and achieve a stable electron configuration.
Francium is an alkali metal that will lend electrons in an ionic compound.
Bromine can both lend and accept electrons, depending on the chemical reaction it is involved in. As a halogen, bromine typically accepts an electron to complete its octet and achieve a stable electron configuration.
2 because it has two outer shell electrons out of 8 (relevant rule only for the first 20 elements)
Only one valence electron.
After I broke my pencil, no one would lend me a new one.