No. The acetate ion has a -1 charge.
A chromic ion, Cr3+, has a charge of +3 due to the loss of three electrons from a neutral chromium atom.
The symbol for the antimonous ion is Sb3+, indicating that it has a +3 charge.
The charge of the borate ion (BO3) is -3.
No, BeF2 does not have a 3 charge. Beryllium fluoride (BeF2) is a neutral compound with a 2+ charge on the beryllium ion and a 1- charge on each fluoride ion, resulting in a net charge of 0.
The charge of a phosphorus (P) ion can vary depending on its oxidation state. For example, in the common phosphate ion (PO4)3-, phosphorus has a charge of +5.
The charge of a PO4 ion is 3-.
The charge on a phosphate ion is -3.
Iron can acquire a charge of +2 or +3 as an ion. The +2 charge is more common and is known as ferrous ion, while the +3 charge is less common and is known as ferric ion.
The charge of a phosphate ion (PO4) is -3.
The charge on ion X in X2O3 is +3. This is because the overall charge of the compound is neutral, and there are three oxygen atoms each with a charge of -2, so the X ion must have a charge of +3 to balance it out.
There is no iron ion in SCl3. The charge on the scandium ion is 3+.
A chromic ion, Cr3+, has a charge of +3 due to the loss of three electrons from a neutral chromium atom.
Phosphorus typically forms a -3 charge when it becomes an ion by gaining three electrons.
The symbol for the antimonous ion is Sb3+, indicating that it has a +3 charge.
A nitrogen ion with 10 electrons would have a charge of +3, as nitrogen normally has 7 electrons and a neutral nitrogen ion would have 7 electrons. By having 10 electrons, it has lost 3 electrons, resulting in a +3 charge.
The charge of the ion would be +2 because there are 3 protons (positive charge) and only 1 electron (negative charge). This results in a net charge of +2.
The charge of a nitrogen ion (N) can vary depending on the number of electrons it has gained or lost. Typically, a nitrogen ion can have a charge of -3 when it gains three electrons or +3 when it loses three electrons.