Ethanoate (Acetate) has a single negative charge, CH3COO-
The net ionic reaction for the neutralization of acetic acid is CH3COOH(aq) + OH^- ---> CH3COO^- + H2O.
The ionic charge of Californium is 3+.
Phosphite has an ionic charge of -3.
In ionic chlorine compounds, the ionic charge of chlorine is -1.
The ionic number is the positive or negetive charge an element has, such as Lithium has an ionic charge of +1.
Sn+4 CH3COO-1 -----> these are the ions and their chargesSn+4 CH3COO-1 CH3COO-1 CH3COO-1 CH3COO-1 ----> the charges have to add up to zero, so 3 negative acetate ions are added to cancel out the +4 charge of SnSn(CH3COO)4 -----> simplify
The net ionic reaction for the neutralization of acetic acid is CH3COOH(aq) + OH^- ---> CH3COO^- + H2O.
Phosphite has an ionic charge of -3.
The ionic charge of Californium is 3+.
In ionic chlorine compounds, the ionic charge of chlorine is -1.
The ionic number is the positive or negetive charge an element has, such as Lithium has an ionic charge of +1.
If Acetic acid was reacted with a metal, the ion formed would be the acetate ion which is CH3COO-
Zero. A compound will never have a net ionic charge.
The net charge of any ionic compound is zero, in other words, ionic compounds are neutral.
The Ionic charge of H2O is 0 because H has a +1 charge and there are two H so it equals +2 and O has a -2 charge. So they balance out to a charge of zero
The net charge of an ionic compound is equivalent to zero.
Rubidium belongs to Alkali metals so its ionic charge is +1.