Yes. An example of this is the diamond. A diamond is a covalently bonded structure consisting completely out of carbons. The carbons (since it has 4 valence electrons) covalently bonds with 4 other carbons and so on. This is why diamond is so hard, because covalent bond is very hard to break.
An atom of chlorine and an atom of bromine will form a covalent bond. Since both atoms are nonmetals, they will share electrons to complete their outer electron shells and achieve a more stable electron configuration.
an ionic bond involves a transfer of electrons from the less electronegative atom(s) to the more elect. neg. atom(s) to form charged ions that interact with each other by columbic forces ionic, covalent, polar covalent
Hydrogen chloride molecules are held together by a polar covalent bond. This bond forms when the chlorine atom and the hydrogen atom share electrons unequally, with the chlorine atom hogging the electrons more than the hydrogen atom.
A covalent bond exists between a carbon atom and a chlorine atom when they share electrons to achieve a stable electron configuration. Chlorine is more electronegative than carbon, so the shared electrons are pulled closer to the chlorine atom.
No, nitrogen and phosphorus would not typically form a covalent bond with each other. Both elements can form covalent bonds, but they are more likely to form bonds with other elements due to differences in electronegativity and chemical properties.
Hydrogen can only form one covalent bond because it only has one electron.
A covalent bond due to the fact that they are both non-metals
Hydrogen can only form one covalent bond because it has only one electron to share with another atom. This single electron forms a pair with an electron from another atom, creating a stable covalent bond. Due to its atomic structure, hydrogen is not capable of forming more than one covalent bond.
No. If the reaction described occurs at all, it would form a covalent coordinate bond.
A polar covalent bond because: When two atoms with different electronegativities form a covalent bond, the shared electrons are more likely to be closer to the atom of higher electronegativity rather than the atom of lower electronegativity.
Non-metal atoms typically form covalent bonds by sharing electrons to achieve a full outer electron shell and become more stable.
An atom of chlorine and an atom of bromine will form a covalent bond. Since both atoms are nonmetals, they will share electrons to complete their outer electron shells and achieve a more stable electron configuration.
Oxygen has two available valence electrons and can accommodate two electrons in a double covalent bond. Chlorine, on the other hand, already has seven valence electrons, leaving only one available spot for bonding. Therefore, chlorine is more likely to form a single covalent bond due to having space for only one more electron.
An ionic bond is formed when one atom donates one or more electrons to another atom. A covalent bond does not involve a transfer of electrons, it involves sharing electrons.
Hydrogen bonds are electrostatic attractions between a hydrogen atom, bonded to a more electronegative atom of one molecule AND a more electronegative atom of another molecule, but there is no sharing of electrons. In covalent bonding, atoms share electrons to form molecules.
The covalent bond present in ethyl alcohol is a polar covalent bond. This bond is formed between the carbon and oxygen atoms, where the oxygen atom is more electronegative than the carbon atom, resulting in an uneven distribution of charge.
An atom in a polar covalent bond that attracts electrons more strongly is said to have greater electronegativity. Electronegativity is a measure of an atom's ability to attract and hold onto electrons in a chemical bond.