The formal charge of the SO42- ion is -2.
The formal charge of the sulfate ion (SO42-) is -2.
The formal charge of the sulfate ion (SO42-) is -2. This means that the sulfate ion has an overall negative charge of -2 due to the distribution of electrons within the ion's structure.
The formal charge of sulfur in the sulfate ion (SO) is 6.
The most optimal Lewis structure for the cyanate ion, NCO-, based on formal charge, is where the nitrogen atom has a formal charge of 1, the carbon atom has a formal charge of 0, and the oxygen atom has a formal charge of -1.
No,it does not have ionic bonds.It has covalent bonds.
The formal charge of the sulfate ion (SO42-) is -2.
The formal charge of the sulfate ion (SO42-) is -2. This means that the sulfate ion has an overall negative charge of -2 due to the distribution of electrons within the ion's structure.
Sulfate ion is SO42-, so the charge is -2.
The negative ion for barium sulfate is sulfate (SO4) with a charge of 2-.
The SO42- ion is named sulfate.
The formal charge of sulfur in the sulfate ion (SO) is 6.
Yes, sulfate IS one (ionic) particle
The sulfate ion is SO42-. Elements in group 16 form anions with a charge of 2-, for example oxygen forms the oxide, O2- anion.
The most optimal Lewis structure for the cyanate ion, NCO-, based on formal charge, is where the nitrogen atom has a formal charge of 1, the carbon atom has a formal charge of 0, and the oxygen atom has a formal charge of -1.
A polyatomic ion is held together by covalent bonds between atoms. They can be either positive or negative. For example, the ammonium ion, NH4+, has a positive charge, and the sulfate ion, SO42-, has a negative charge.
A negative ion would have a charge of -1, indicating that it has gained one extra electron.
The formal charge of each fluorine atom in GeF6 2- is -1, and the formal charge of the germanium atom is +2. The overall formal charge of the GeF6 2- ion is -2.