Yes. Sodium (Na+) has a 1+ charge while the sulfate (SO42-) has a 2- charge. That makes the molecule ionic. But because the sulfate ion (SO42-) is composed of 2 non-metals, S and O, that makes it a covalent bond. Therefore, it contains both ionic and covalent bonding.
Fe 2+andSO4 2-form the ionic bond,Ferrous sulfate, FeSO4, also know as iron II sulfate.
Copper(II) sulfate is CuSO4, and it is an ionic compound, with ionic bonds between the Cu^2+ and the SO4^2-. The bonds that make up the SO4^2- are, however covalent bonds.
Covalent, It's 2 non metals ( Bromine x2) sharing electrons
While SO4 is held together with covalent bonds, it acts as an ion with a net -2 charge. Then BaSO4 is connected with an ionic bond.
It is an ionic compound.
Yes. Sodium (Na+) has a 1+ charge while the sulfate (SO42-) has a 2- charge. That makes the molecule ionic. But because the sulfate ion (SO42-) is composed of 2 non-metals, S and O, that makes it a covalent bond. Therefore, it contains both ionic and covalent bonding.
Fe 2+andSO4 2-form the ionic bond,Ferrous sulfate, FeSO4, also know as iron II sulfate.
Iron sulphide is an ionic compound. The Iron is in a +2 oxidation state and the sulphur is in a -2 oxidation state.
Yes. The charge on Na (sodium) ions is 1+ and the charge on a SO4 (sulfate) ion is 2-. So to balance out the charges 2 sodium ions are needed for every sulfate ion.
Copper(II) sulfate is CuSO4, and it is an ionic compound, with ionic bonds between the Cu^2+ and the SO4^2-. The bonds that make up the SO4^2- are, however covalent bonds.
Covalent, It's 2 non metals ( Bromine x2) sharing electrons
Covalent; 2 non-metals bonded are covalent; a metal and a non-metal are ionic
While SO4 is held together with covalent bonds, it acts as an ion with a net -2 charge. Then BaSO4 is connected with an ionic bond.
metallice bonding ================ Rather than metallic bonding, some might assume the bonds between copper and sulfate to be ionic. Keep in mind that there are no 100% ionic compounds. Bonds are not either ionic or covalent. Instead bonds like along a continuum and have characteristics of both. The bonds within the sulfate ion are clearly more covalent than ionic. So we are more concerned about the bonds between copper and oxygen. We can determine the percent ionic character in a bond from the electronegativity difference and this equation: %ionic character = 100(1-e(-DEN^2/4)) The electronegativity difference between copper and oxygen is 1.54. That translates to a bond that is about 45% ionic. Therefore, the bonds in copper (II) sulfate are more covalent than they are ionic. The bottom line is that solid copper (II) sulfate exists in a lattice of SO4 units and copper atoms in which the copper atoms are polar covalently bonded to oxygen.
PbO^2 is ionic.
Sodium always form ionic bond with any atom present in compound so in sodium sulphate 2 sodium ions are ionic-ally bonded with 2 oxygen atoms.