neutral ; a nuetron
The sum of the charges of ions in an ionic bond is always equal to zero. The compound would consist of the minimum number of ions necessary to make the charge of the compound equal to zero.For example, the charge of Na is +1, and the charge of Cl is -1. When these are bonded in an ionic bond, the Na+ and Cl- make NaCl, with a charge of zero.When you have two elements that aren't equal in charge, then you must make it to where the charges of both the cations and the anions equal zero when summed. You do this by adding more cations and anions to the compound as necessary.For example, the charge of Magnesium is +2, and the charge of Nitrogen is -3. To make the charge of this compound equal zero, you would need three Magnesiums and two Nitrogens. (2+2+2-3-3=0.) This means that when Mg2+ and N3- are bonded in an ionic bond, they would make Mg3N2.But basically, the short answer is that the sum of the charges on the ions in a unit of a compound is zero.
This sum will be zero.
The sum of all life processes is metabolism.
In that case, the sum of all forces must be zero.
The planet Earth is electrically neutral, it does not have a charge. Because oppoiste charges attract, there is a general tendency for electrical charges to become mixed together, and that is particularly true on a large scale, such as that of a planet.
The sum of the charges of ions in an ionic bond is always equal to zero. The compound would consist of the minimum number of ions necessary to make the charge of the compound equal to zero.For example, the charge of Na is +1, and the charge of Cl is -1. When these are bonded in an ionic bond, the Na+ and Cl- make NaCl, with a charge of zero.When you have two elements that aren't equal in charge, then you must make it to where the charges of both the cations and the anions equal zero when summed. You do this by adding more cations and anions to the compound as necessary.For example, the charge of Magnesium is +2, and the charge of Nitrogen is -3. To make the charge of this compound equal zero, you would need three Magnesiums and two Nitrogens. (2+2+2-3-3=0.) This means that when Mg2+ and N3- are bonded in an ionic bond, they would make Mg3N2.But basically, the short answer is that the sum of the charges on the ions in a unit of a compound is zero.
The positive and negative charges are equal in magnitude (absolute value).
This sum will be zero.
Ionic compounds are compounds with an electrical charge. That means that both cations (loss of electron) and anions (gain of electron) are ionic. In a salt where a cation and anion is combined the net sum of electrons is the same.
Zero is always the sum of all charges in a formula for a neutral compound, whether ionic or not.
Think to yourself, do most things carry an electric charge? Since most things don't stick together or push apart, it should be obvious that most things are neutral. Therefore, the total positive and total negative in a compound must be equal so they completely cancel each other.
charges can be added i.e. total charge on a system is algebraic sum of individual charges
A neutron has no electric charge. However, it is made up of smaller particles (quarks), which have both positive and negative charges. The total sum of all these charges, in the case of a neutron, is zero.
The algebraic sum of the charges in a compound is zero. Each atom contributes either a negative or a positive charge to form the compound when they react with each other.
The net charge is the sum of all individual charges. If one charge is slightly positive and the other charge is slightly negative, the overall charge will be neutral.
If you mean the values of the charges then the sum is zero.
Magnesium forms cations with a charge of +2, and oxygen in oxyacids is assigned a formal charge or oxidation state of -2. There are four oxygen atoms in each sulfate ion, so that the total charge from oxygen is -8. This means that the oxidation number of sulfur must be +6, so that the total charges will sum to zero, as required for a compound.