IONIC MOLECULAR STRUCTURE: Another way atoms bond

The other way that atoms can bond is by donating, or giving away electrons to another atom. This is called ionic bonding. Look at a Na atom. It is on the far left side of the periodic table. If it were to covalently bond it would have to find 7 electrons to share! Instead, Na wants to give up an electron which moves it back one space in the periodic table thus getting rid of a nuisance electron in a third shell and achieving a full valence electron number in its lower second shell. Where does it donate this electron? It gives it to atoms that are one space away from being all the way right on the periodic table. Look at the column of atoms just to the left of the far column on the periodic table. These atoms need just one electron to achieve their full number of valence electrons. So, Na readily gives an atom to chlorine for example and these atoms thus bond ionically making the molecule sodium chloride, or table salt! But what makes them bond? When Na gives an electron to Cl, it is now one electron less than it would be if it were a balanced charge neutral atom (electrons equal to protons) so we indicate with a plus sign that it is a positively charged ion (cation) like this: Na+. And when Cl gains an electron it now has an excess negative charge indicated with a negative sign (anion) like this: Cl-. These two ions will be attracted to each other due to their opposite charges and bond as a molecule.

Use a periodic table to make the following ionic molecules.

1. How many O atoms does Mg need to give away its 2 electrons? Draw a molecule of

magnesium oxide (MgO) showing all the valence electrons.

2. How many Cl atoms does Ca need to donate its 2 electrons? Draw a molecule of

calcium chloride (CaCl 2) showing all the valence electrons.

3. How many K atoms does O have to find to gain 2 electrons? Draw a molecule of

potassium oxide (K20) showing all the valence electrons.

No image available, but O in the middle with a K on each side. Each K donates 1 electron each so they have a plus 1 charge and O has a negative 2 charge

4. How many F atoms does Li need to make an ionic bond? Draw a molecule of lithium

fluoride (LiF) showing all the valence electrons.

5. How many Na atoms does O have to find to form a ionic bond? Draw a molecule of

sodium oxide (Na2O) showing all the valence electrons.

No image available, but O in the middle with a Na on each side. Each K donates 1 electron each so they have a plus 1 charge and O has a negative 2 charge

6. How many K atoms does P need to form a ionic bond? Draw an atom of potassium

phosphate (K3P) showing all the valence electrons.

No image available, but P in the middle with three K on three sides. P should have 8 dots around it.

7. How many Cl atoms does Ba need to form a ionic bond? Draw a molecule of

barium chloride (BaCl2) showing all the valence electrons.

No image available, but Ba In the middle with Cl on two sides. Remember that the Ba is donating two elections and is the cation and each Cl is taking one electron each and are both anions. There are 8 electrons surrounding Ba.