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Is nickel chloride molecular or ionic?

Nickel chloride is an ionic compound. It is composed of nickel cations (Ni2+) and chloride anions (Cl-), which are held together by ionic bonds.


Does nickel sulfide have covalent bond?

No, nickel sulfide does not have covalent bonds. Nickel sulfide typically forms ionic bonds due to the difference in electronegativity between nickel and sulfur.


Is nickel sulfate ionic or covalent?

Nickel sulfate is an ionic compound though it has covalent bonds within the sulfate ion itself.


Is Nickel bromide ionic or covalent?

Nickel bromide is an ionic compound. Nickel typically forms cations with a charge of +2, while bromine forms anions with a charge of -1. In nickel bromide, the nickel cation and bromine anion are held together by ionic bonds.


Is Ni3P2O8 covalent or ionic?

Nickel phosphate is an ionic compound.


Is Nickel II acetate an ionic compound?

Nickel II acetate is considered an ionic compound. It is formed from the cation of nickel(II) and the anion of acetate, and the electrostatic attraction between these oppositely charged ions results in the formation of an ionic compound.


Is NI a ionic or molecular compound?

Nickel manganate is an ionic compound.


What is the ionic name of NiPO4?

The ionic name of NiPO4 is nickel(II) phosphate.


Can nickel chloride conduct electricity and is it a liqiuid or a solid?

Fully Solid in room temperature!


What type of bond does nickel chloride have?

Nickel chloride typically has an ionic bond, where nickel donates electrons to chlorine to form positively charged nickel ions and negatively charged chloride ions.


What is the ionic formula for nickel II chromate?

The ionic formula for nickel(II) chromate is NiCrO4. This compound is formed by the combination of the nickel ion (Ni2+) and the chromate ion (CrO4 2-).


Is Nif2 ionic?

Yes, NiF2 is ionic. It is composed of nickel (Ni) which is a transition metal and fluorine (F) which is a non-metal. The electronegativity difference between nickel and fluorine results in the transfer of electrons from nickel to fluorine, leading to the formation of ionic bonds.