This is a somewhat broad question because there are many different kinds of compounds, and there are a variety of things that happen to valence electrons depending upon what kind of compound is formed, but in general, any given atom has 3 options when forming a compound: it can give up one or more electrons, acquire one or more electrons, or share one or more electrons.
The electrons that form bonds are called valence electrons. These electrons are in the outer most shell of an atom.
Valence electrons are important in chemical bonding because they are the outermost electrons that are involved in forming bonds with other atoms. These electrons determine an element's reactivity and how it will interact with other elements to form compounds. The number and arrangement of valence electrons influence the types of bonds that can be formed, such as ionic, covalent, or metallic bonds.
Nonmetals because they have a lot of valence electrons.
Electrons are transferred when ionic bonds are formed.
Cations are formed by the loss of electrons, anions are formed by the gain of electrons. The force of attraction between cations and anions results in ionic bond.
valence electrons are shared in covalent bonding
The bond formed when two atoms have a give-take relationship in relation to electrons is called ionic bonding. This will mostly happens so that atoms can gain stability.
The electrons that form bonds are called valence electrons. These electrons are in the outer most shell of an atom.
Compounds are formed by the combination of atoms with bonds. These bonds are formed by the sharing of valence unpaired electrons of both bonded atoms or by the transfer of electrons . This form covalent or ionic bond and compounds are formed.
At least one, and usually all, of the valence electrons of the metal atom is donated to the valence shell of the nonmetal atom.
Valence electrons make a covalent bond when they are shared between atoms. In a covalent bond, atoms share electrons to achieve a full outer electron shell and become more stable.
Yes. Compounds formed by sharing electrons are called covalent compounds.
Lithium has one valence electron and tends to lose it to form a +1 ion. This results in the formation of lithium ions in compounds.
Yes. Compounds formed by sharing electrons are called covalent compounds.
If the starting point are elements then the inner shell electrons (non valence) these orbit the nuclei of the atoms and the formation of a chemical bond does not affect these materially. What happens to the valence electrons depends on the bond formed. In an ionic bond electrons are transferred from say the metal atom to the nonmetal- these electrons essentially "orbit" the nuclei of the cations and anions. They are "localised". When a covalent bond is formed the valence electrons involved are shared between the atoms, they "orbit" both nuclei. When the bond is polar covalent they spend a little more time nearer the more electronegative element. When a "delocalised"covalent bond is formed as in bezene or graphite the electrons orbit a number of atomic nuclei. In a metallic bond the valence electrons are also delocalised (the sea of electrons model) across the metal lattice, but in transition metals there is additional bonding between electrons in d orbitals (the tight bound electrons) and these electrons are essentially localised.
The answer is c. Valence electrons are shared between oxygen atoms & D. Four valence eletrons are shared
There are many examples of compounds formed with covalent bonding. Here are some: Water Methane Ethanol Polystyrene Sulphur Dioxide There are many more [both organic and in-organic compounds]