No - sodium chloride is ONLY an ionic compound.
Ionic. The sodium donates and electron to the chlorine so they both end up with outer shells that are full.
No. A bond cannot be both covalent and ionic. A bond can be covalent, ionic or metallic. In covalent bonding electrons are shared, electrons are transferred in ionic bonding and electrons move about in a sea of electrons in metallic bonds.
Calcium has both ionic and covalent bonds.
I think so. Here covalent and there ionic.
Chlorine can form both ionic and covalent bonds. For example:-NaCl- Here bond between chlorine and Sodium is ionic.HCl- Here bond between Hydrogen and Chlorine is covalent.
To classify a bond as polar or covalent, you must first find the Electronegativity difference. The electronegativity of Na is 0.93 and Cl is 3.16. Therefore we find the electronegativity difference by subtracting: 3.16 - 0.93= 2.23. Therefore NaCl is an ionic bond. For electronegativity differences >1.7, the bond is ionic. For electronegativity differences between 0.4-1.7, the bond is polar covalent For electronegativity differences < 0.4, the bond is non-polar covalent.
It is both
Well, the bond between carbon and nitrogen is covalent, whilst the bond between potassium and the cyanide is ionic.
Not at all, in a covalent bond there is no losing or gaing of electrons as both of the atom reacting to make a covalent bond needs electrong therefore they share the electrons to stablized, but in ionic compound like NaCl, there is a losing of electron and gaining of electrons, therefore one element loses and one element gains. Ionic bond or "electrovalent bond" are strong bonds as compare to covalent bonds.
Many compounds have both covalent and ionic bonds. For example, soaps are made of a carboxylic acid salt with sodium; the carbon chain is covalent, but the bond between the sodium and the oxygen is ionic.
No. An ionic bond is a bond between a metal and a nonmetal. Since oxygen and nitrogen are both nonmetals, they form a covalent bond.
A nonbinary ionic compound. Covalent bonds are molecular - nonmetal.