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∙ 6y agoFor S to make a covalent bond, it would be best to bind it to another non metal. Once such element would be H, thus making the S-H bond which is covalent. Another example would be to bind it to another S, making the disulfide bond, S-S which is also covalent.
Wiki User
∙ 6y agoThe bonding between oxygen and hydrogen in the water molecule is a covalent bond. This bond involves the sharing of electrons between the oxygen and hydrogen atoms, resulting in a stable molecule. The oxygen atom attracts electrons more strongly than the hydrogen atoms, creating a polar molecule with partial positive and negative charges.
The atomic radius of helium is about 31 picometers (pm).
Silver utensils can become tarnished when exposed to sulfur-containing foods like egg yolks. The sulfur in the egg yolk reacts with the silver to create silver sulfide, resulting in the tarnished appearance. To prevent tarnishing, it is best to avoid prolonged contact between silver utensils and sulfur-containing foods.
A molecule of S1O2 would likely not exist because the typical bonding pattern for sulfur and oxygen results in sulfur dioxide (SO2) rather than S1O2. In sulfur dioxide, there are two double bonds between sulfur and oxygen atoms.
This is the electronegativity of these atoms.
No, zinc sulfide (ZnS) does not contain a polar covalent bond. The bond between zinc and sulfur in ZnS is ionic in nature, with zinc losing its electrons to sulfur resulting in the formation of charged ions.
Perhaps it would be best to start by spelling formulacorrectly.
Beryllium and sulfur will form an ionic bond. Beryllium, being a metal, will donate its two valence electrons to sulfur, a nonmetal, to achieve a stable configuration. This results in the formation of beryllium sulfide, a compound with the formula BeS.
Microsoft Word would be best to use.
Sulfur + Oxygen -> Sulfur Dioxide
No, SO2 is a covalent compound. It is composed of nonmetal elements, sulfur and oxygen, which share electrons to form covalent bonds. Ionic compounds typically consist of a metal and a nonmetal where electrons are transferred from one atom to another.
Covalent bonds can best be described as a sharing of electrons between atoms.
a canon.
Iron is likely to be the best conductor out of the options provided, as it is a metal and metals typically have high conductivity due to their free-flowing electrons. Sulfur, carbon, and tin are not as good conductors as metals.
Macromolecules are built by means of covalent bonds.
The best electron-dot diagram would show ionic bonds with transfer of electrons between atoms, and covalent bonds with sharing of electrons between atoms. Ionic bonds would be represented by complete transfer of electrons from one atom to another, while covalent bonds would be shown as overlapping of electron clouds between atoms.
a canon----APEX ;)