Na+4
Well, it would be sodium-83, if it were even remotely possible that such a thing could possibly exist for even an instant. If 83 is a typo and you meant "23", then the answer is the sodium-23 ion.
In TiO2, titanium forms a 4+ charge. This is because oxygen typically has a 2- charge, and there are two oxygen atoms in TiO2, resulting in a total negative charge of 4-. To balance the overall charge to zero, the titanium ion must have a 4+ charge.
the formal charge of carbon in carbonate ion is 0solutionvalence electron-4non bonded electron-0and total no of bonding electrons=8formal charge = valence - non bonded - 1/2 total number of bonding electronselectron electron= 4-0-4= 0
Lead's ionic charge is variable. It is either +2 or +4 depending on the properties of the anions. These charges can also be referred to as "common ionic charge". Example of Pb+2 ionic charge: Lead(II) phosphide Pb+2 and P-3 Pb3P2 Example of Pb+4 ionic charge: Lead(IV) Sulfate Pb+4 and (SO4) -2 Pb2(SO4)4 simplified -> Pb(SO4)2
The oxidation number of Al is +3 in the complex ion Al(OH)4-. Each hydroxide ion (OH-) carries a charge of -1, so the total charge of the complex ion is -1. Since there are four hydroxide ions, the aluminum ion must have an oxidation number of +3 to balance the charges.
the charge is 4 2+C+3(-2)=0 C=4
The ion with the formula SO4 and a -2 charge is called sulfate ion. It consists of one sulfur atom and four oxygen atoms with a total charge of -2.
Well, it would be sodium-83, if it were even remotely possible that such a thing could possibly exist for even an instant. If 83 is a typo and you meant "23", then the answer is the sodium-23 ion.
The charge of a silicate ion is typically -4. This is because silicon generally has a 4+ charge, and it bonds with oxygen atoms which each have a 2- charge. This results in a net charge of -4 for the silicate ion.
The charge of a carbonate ion (CO3^2-) is -2. It consists of one carbon atom and three oxygen atoms, giving it a total of 4+ charge carried by the carbon atom and 6- charge carried by the three oxygen atoms.
Two potassium ions are needed to balance the charge of one sulfide ion because the sulfide ion has a charge of -2, while each potassium ion has a charge of +1. Two potassium ions with a total charge of +2 will balance the -2 charge of one sulfide ion.
the formal charge of carbon in carbonate ion is 0solutionvalence electron-4non bonded electron-0and total no of bonding electrons=8formal charge = valence - non bonded - 1/2 total number of bonding electronselectron electron= 4-0-4= 0
In TiO2, titanium forms a 4+ charge. This is because oxygen typically has a 2- charge, and there are two oxygen atoms in TiO2, resulting in a total negative charge of 4-. To balance the overall charge to zero, the titanium ion must have a 4+ charge.
The C4- ion has a total of 18 electrons. Carbon normally has 6 electrons, but the negative charge of -4 means that there are 4 extra electrons added to the ion.
Lead's ionic charge is variable. It is either +2 or +4 depending on the properties of the anions. These charges can also be referred to as "common ionic charge". Example of Pb+2 ionic charge: Lead(II) phosphide Pb+2 and P-3 Pb3P2 Example of Pb+4 ionic charge: Lead(IV) Sulfate Pb+4 and (SO4) -2 Pb2(SO4)4 simplified -> Pb(SO4)2
The charge of a Pb ion can vary depending on the specific ion. Commonly, lead can exist as Pb2+ or Pb4+ ions.
The charge on an ion is determined by the difference between the number of protons and electrons. In this case, there are more protons (75) than electrons (71), so the ion would have a positive charge. The charge on the ion would be +4, since there are 4 more protons than electrons.