Covalent Bonds
There is no such thing as PCI3. The correct formula is PCl3 (with a lowercase L) and no, it is not an electrolyte.
PCI3 involves polar covalent bonds. The difference in electronegativity between phosphorus and chlorine creates a partial negative charge on the chlorine atoms and a partial positive charge on the phosphorus atom, resulting in a polar molecule.
PCI3 is a polar covalent molecule. This is because the difference in electronegativity between phosphorus and chlorine creates unequal sharing of electrons, leading to a partial positive and partial negative charges within the molecule.
It is ionic
Br2 is a covalent compound. It consists of two bromine atoms sharing electrons to form a covalent bond.
There is no such thing as PCI3. The correct formula is PCl3 (with a lowercase L) and no, it is not an electrolyte.
PCI3 involves polar covalent bonds. The difference in electronegativity between phosphorus and chlorine creates a partial negative charge on the chlorine atoms and a partial positive charge on the phosphorus atom, resulting in a polar molecule.
PCI3 is a polar covalent molecule. This is because the difference in electronegativity between phosphorus and chlorine creates unequal sharing of electrons, leading to a partial positive and partial negative charges within the molecule.
covalent
NO is covalent.
NO is covalent.
It is ionic
The bond is covalent.
The covalent bond is weaker.
No, it is ionic
The F-F bond (in F2) is covalent, and non polar covalent at that.
No, but the bond in sodium chloride is covalent.