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What type of bond does carbon and sulfur share?
Carbon and sulfur can form a covalent bond when they share pairs of electrons to achieve a stable electron configuration. This type of bond involves the sharing of electrons between the two atoms to form a stable molecule.
Would nitrogen and sulfur form a covalent bond?
Yes, nitrogen and sulfur can form a covalent bond because they are both nonmetals which tend to share electrons to fill their valence shells. Nitrogen can form multiple bonds with sulfur, such as in compounds like nitrogen dioxide or sulfur hexafluoride.
What type of bond exist between carbon and sulfur?
A covalent bond exists between carbon and sulfur, where the atoms share electrons to achieve a stable electron configuration. This type of bond is formed by the overlap of atomic orbitals between the two atoms.
Is Phosphorus Sulfur Ionic or Covalent?
Phosphorus and sulfur typically form covalent bonds when they bond together. This is because they are both nonmetals, and nonmetals tend to share electrons to form covalent bonds.
What type of bond will be form between sulfur and chlorine atoms?
A covalent bond will form between sulfur and chlorine atoms. Sulfur forms covalent bonds by sharing electrons with other atoms, and chlorine also prefers to form covalent bonds due to its electronegativity. In this case, they will share electrons to achieve a stable electron configuration.
What type of bond does carbon and sulfur share?
Carbon and sulfur can form a covalent bond when they share pairs of electrons to achieve a stable electron configuration. This type of bond involves the sharing of electrons between the two atoms to form a stable molecule.
What type of bond would form between C and S?
A covalent bond would typically form between a carbon (C) and a sulfur (S) atom. Both carbon and sulfur are nonmetals, and they are likely to share electrons to achieve a stable electron configuration.
What type of bond is made between phosphorus and sulfur?
Phosphorus and sulfur can form a covalent bond when they share electrons. This type of bond is known as a phosphorus-sulfur covalent bond.
Will sulfur and chlorine form ionic or covalent bond?
Sulfur and chlorine typically form a covalent bond because they are both nonmetals. In a covalent bond, they share electrons to achieve a stable electron configuration.
What type of bond will form between sulfur and oxygen?
A covalent bond will form between sulfur and oxygen. This type of bond involves the sharing of electrons between the two atoms.
Can carbon form an ionic bond?
No it is not. Carbon is a covalent bond.
Does sulfur form an ionic or covalent bond?
Sulfur can form both ionic and covalent bonds depending on the elements it is bonding with. When sulfur bonds with a nonmetal, it forms a covalent bond by sharing electrons. When sulfur bonds with a metal, it typically forms an ionic bond by transferring electrons.
What type of bond do carbon and sulfur form and how do you know?
They form covalent bonds, because their difference of electronegativities is less than 1.7 and carbon has half filled valence electronic shell, we know that such atoms can not form the covalent bonds. (with exception of acetylide salts)
What type of bonds does carbon form?
Carbon can form single, double, and triple covalent bonds with other carbon atoms or different atoms such as hydrogen, oxygen, nitrogen, and sulfur. Carbon can also form coordinate covalent bonds with transition metals.
Would nitrogen and sulfur form a covalent bond?
Yes, nitrogen and sulfur can form a covalent bond because they are both nonmetals which tend to share electrons to fill their valence shells. Nitrogen can form multiple bonds with sulfur, such as in compounds like nitrogen dioxide or sulfur hexafluoride.
What type of bond will carbon form with hydrogen?
Hydrogen form a covalent bond with carbon.
What type of bond that will form between Si S?
A covalent bond will likely form between silicon (Si) and sulfur (S) atoms. In a covalent bond, atoms share electrons to achieve stability. Silicon and sulfur are both nonmetals with similar electronegativities, making them more likely to form covalent bonds.
