Calcium Valence Electrons

Calcium is the fifth most abundant metalic element in the earth's crust, but is never found in the elemental form because it is so reactive. It is found in limestone (CaCO 3) gypsum (CaSO 4. 2H 2 O) and fluorite (CaF 2). Pure calcium is a shiny soft metal that will react violently with water to produce hydrogen. Calcium Page One. Favorite Answer Ca2+ has a total of 18 electrons (I do not know if Ca+ exists, if it does it would be 19, with 1 valence electron) Ca2+ has zero valence electrons. Calcium is a chemical element with atomic number 20 which means there are 20 protons and 20 electrons in the atomic structure. When we write the configuration we'll put all 20 electrons in orbitals around the nucleus of the Calcium atom. In writing the electron configuration for Calcium the first two electrons will go in the 1s orbital. Since 1s can only hold two electrons the next 2 electrons for Calcium go in the 2s orbital.

In physical engineering and chemical science, there are mainly two types of chemical bonds. These are Ionic Bonds and Covalent bonds. In this exclusive article, I am going to explain the definition of Ionic Bond.

However, I will still clear some air regarding the basic difference between covalent and ionic bonds. See, a covalent bond is sharing of electrons between two atoms. On the other hand, an ionic bond is a permanent transfer of valence electrons between two atoms.

Just to let you know, apart from ionic and covalent bonds, there are two more types of chemical bonds. These are hydrogen bonds and polar bonds.

What is Ionic Bond?

By definition, an Ionic bond is a type of chemical bond that occurs due to the permanent transfer of one or more electrons from one atom to another.

The atom that permanently loses electrons becomes a cation i.e positively charged ion. On the other hand, the atom that gains electrons becomes an anion i.e negatively charged ion. That’s why an ionic bond is also known electrovalent bond.

Editor’s Choice: Covalent Bond – Definition, Types, Properties & Examples

To summarise, by definition, an ionic bond or simply electrovalent bond is a type of chemical bond that forms due to the electrostatic attraction between the positively charges cation and negatively charged anion.

Role of Electronegativity in Ionic Bond

For an ionic bond to form, there has to be a very large difference in the value of electronegativity between the participating atoms. As a result, the formation of ions takes place in ionic bonding.

And, for that to happen, ionic bonding can only form between metals and non-metals. To summarise, one can also say that two metals can never form an ionic bond. The same goes with non-metals too.

To put it differently, if we take two metals or non-metals, and try to form an ionic bond, it won’t form. WHY? Because there won’t be enough difference in the value of electronegativity of the participating atoms to form an ionic bond.

Properties of Ionic Bond

Valence Electrons Ca

There are so many properties of ionic bonds. Some of them are listed below:

By definition, Ionic bond is non-directional in nature.
Ionic compounds are soluble in water and polar solvents.
Ionic compounds are insoluble in non-polar solvents.
They have the highest melting and boiling points.
They show good electrical and thermal conductivity.
Ionic bonds or electrovalent bonds are the strongest among all types of bonds.
They form due to the permanent transfer of electrons, etc.

Examples of Ionic Bond

If you think you can’t relate to Ionic bond examples in everyday life. Well, here is your chance to think again!

Sodium Chloride (NaCl)

Calcium Valence Electron Configuration

A typical example of an ionic bond is the Sodium Chloride molecule. A molecule of Sodium Chloride (NaCL) consists of one Sodium and one chlorine atom.

Sodium has one valence electron in its outermost shell. On the other hand, Chlorine has seven valence electrons in its outermost shell.

Therefore, when one atom of sodium and one atom of Chlorine combines to form an ionic bond, in order to complete its Octet, Sodium will donate its lone electron. Hence becomes sodium ions (Na+).

On the other hand, just because chlorine is more electronegative than sodium, it will accept the donated electron. Hence becomes chloride ions (Cl_^–). By this, two atoms combine to form an ionic bond-based compound i.e Sodium Chloride (NaCL).

Potassium Oxide (K₂O)

The next example of an ionic bond is the Potassium Oxide molecule. A molecule of Potassium Oxide (K₂O) consists of two potassium and one oxygen atom. Potassium has one valence electron in its outermost shell.

On the other hand, oxygen has six valence electrons in its outermost shell. Therefore, when two atoms of Potassium and one atom of oxygen combine to form an ionic bond, in order to complete its Octet, both of the Potassium atoms will donate their lone electron.

Hence becomes a Potassium ion (K+). On the other hand, just because Oxygen is more electronegative than Potassium, it will accept both of the donated electrons. Hence becomes oxide ion (O-).

By this, two atoms of potassium and one atom of oxygen combine to form an ionic bond-based compound i.e Potassium Oxide (K2O). Not to mention, just because there are two potassium atoms, the molecule of potassium oxide has two ionic bonds.

Calcium Chloride (CaCL₂)

The last one in my list of examples of an ionic bond or electrovalent bond is the Calcium Chloride molecule. A molecule of Calcium chloride (CaCL₂) consists of one calcium and two chlorine atoms. Calcium has two valence electrons in its outermost shell.

Similarly, chlorine has seven. Therefore, when one atom of calcium and two atoms of chlorine combine to form an ionic bond, in order to complete its Octet, the calcium atom will donate its two electrons. Hence becomes a calcium ion (Ca+).

On the other hand, just because chlorine is more electronegative than Calcium, both of the chlorine atoms will accept one each of the donated electrons. Hence becomes a chloride ion (Cl_^–).

By this, one atom of calcium and two atoms of chlorine combine to form an ionic bond-based molecule i.e Calcium Chloride (CaCL₂). Not to mention, just because there are two chlorine atoms, the molecule of calcium chloride has two ionic bonds.

Uses of Ionic Compounds

Compounds that form due to ionic bonding is known as Ionic Compounds. Again, If you think you can’t relate to the uses of ionic compounds in everyday life. Well, here is your chance to think again!

How Many Calcium Valence Electrons

Sodium chloride as table salt
De-icing of roads after snowfall
As a preservative in cold storage
Water fluoridation, etc.