I'm no chemist but I'm pretty sure it has to do with the orbitals, they hybridized to form sp3d2 orbitals which then can bond 6 fluorines, once you get past the first few atoms in the Periodic Table the orbitals get pretty big and odd so the standard answers like having 8 valence electrons no longer hold completely.
Yes, it forms covalent bounds with iodine, sulphur, carbon.
carbon and silicone both form the four covalent bonds, nitrogen and phosphorus form three covalent and one coordinate covalent bonds, while sulphur may form two covalent and two coordinate covalent bonds.
yes. sulphur and fluorine both are non metals so form the covalent bonds.
Sulphur has six valence electrons and hence it can form maximum of six covalent bonds as in SF6.
Covalent because sulphur and oxygen both have six electrons on the outer shells so they can't give them away to be filled. they need to share. note: Sulphur Dioxide has one sulphur atom and two oxygen atoms.
Yes, it forms covalent bounds with iodine, sulphur, carbon.
carbon and silicone both form the four covalent bonds, nitrogen and phosphorus form three covalent and one coordinate covalent bonds, while sulphur may form two covalent and two coordinate covalent bonds.
yes. sulphur and fluorine both are non metals so form the covalent bonds.
Sulfur can form two covalent bonds as in H2S, and can form 6 as in SO3. In elemnatl allotropes of sulfur which are covalent bonded, many are cyclic compounds the number of covalent onds is 2.
Sulphur has six valence electrons and hence it can form maximum of six covalent bonds as in SF6.
Covalent because sulphur and oxygen both have six electrons on the outer shells so they can't give them away to be filled. they need to share. note: Sulphur Dioxide has one sulphur atom and two oxygen atoms.
It is used to form molecules and various compounds. In fact, most of the bonds are covalent bonds.
It is used to form molecules and various compounds. In fact, most of the bonds are covalent bonds.
As a nonmetal carbon forms covalent bonds.
no. they form ionic bonds.
2 covalent bonds
Covalent bonds