The total charge in an ionic compound is always neutral, which means the positive charge of the cations equals the negative charge of the anions. This balance of charges is what holds the compound together through ionic bonding.
The total charge of an ionic compound is always neutral, meaning that the positive charge of the cations balances out the negative charge of the anions. This is because ionic compounds are formed through the transfer of electrons from one element to another.
it is always equal to zero.The overall charge of a formula unit for an ionic compound is zero. The numbers of positive and negative ions are such that the sum of the positive charges and the negative charges is zero.
The ionic charge of phosphite is -3.
The ionic charge of stannous (tin) is typically +2.
The total charge in an ionic compound is always neutral, which means the positive charge of the cations equals the negative charge of the anions. This balance of charges is what holds the compound together through ionic bonding.
The ionic charges always cancel to give an electrostatically neutral compoun.
The total charge of an ionic compound is always neutral, meaning that the positive charge of the cations balances out the negative charge of the anions. This is because ionic compounds are formed through the transfer of electrons from one element to another.
it is always equal to zero.The overall charge of a formula unit for an ionic compound is zero. The numbers of positive and negative ions are such that the sum of the positive charges and the negative charges is zero.
Chloride is always minus one (-1).
The ionic charge of phosphite is -3.
It depends on what type of particles it has and if it was joined in an ionic bond.
The ionic charge of stannous (tin) is typically +2.
The ionic charge of bromate ion (BrO3-) is -1.
Iodine typically has an ionic charge of -1.
The ionic charge of chloride ions is -1.
The rule of zero helps you predict the formula of an ionic compound because the anion will always want to bond with a action to get zero net charge on the compound.