Eg1: Hydrogen

A hydrogen atom has only one electron in the first shell. Each hydrogen atom needs one more electron to be stable. Two hydrogen atoms can share one electron with each other to achieve stable electronic configuration for the first electron shell.

Eg2: Chlorine

A chlorine atom has 7 valence electrons. Each chlorine atom needs one more electron to be stable. Two chlorine atoms can share one electron with each other to achieve stable electronic configuration for the valence electron shell.

Eg3: Hydrogen chloride

Each chlorine and hydrogen atom need one more electron to be stable. The chlorine atom and hydrogen atom share one electron with each other. Chlorine and hydrogen then will have a stable electronic configuration of 2.8.8 and 2 respectively.

Eg4: Water 

Oxygen atom needs two more electrons and hydrogen atom need one more electron to be stable. The oxygen atom shares 2 valence electrons with the two hydrogen atoms. Each hydrogen atom shares one electron with oxygen atom.  Oxygen and hydrogen have a stable electronic configuration of 2.8 and 2 respectively.

Eg5: Methane

Carbon atom needs 4 more electrons to be stable. The carbon atom shares 4 valence electrons with four hydrogen atoms. Each hydrogen atom shares one electron with carbon atom.  Carbon and hydrogen have a stable electronic configuration of 2.8 and 2 respectively.

Eg6: Ammonia

Nitrogen atom needs 3 electron more to be stable. Nitrogen atom shares 3 valence electrons with three hydrogen atoms. Each hydrogen atom shares one electron with nitrogen atom.  nitrogen and hydrogen have a stable electronic configuration of 2.8 and 2 respectively.

Eg7: Nitrogen 

A nitrogen atom has five valence electrons, it needs three more electrons to be stable. Two nitrogen atoms share three electrons each, forming triple covalent bonds in the molecule with the formula N₂. Each atom now has eight valence electrons and is stable.

Eg8: Ethane

A carbon atom has four valence electrons, it needs four more electrons to be stable. Hydrogen atom needs one more electron to be stable and carbon atoms will share 2 valence electrons with 2 hydrogen atoms. After sharing 2 valence electrons with hydrogen atoms to form single covalent bond, each carbon atom now needs two more valence electrons and share two valence electrons with each other to form double covalent bonds between two carbon atoms. This results in hydrogen atoms having 2 valence electrons in first shell and carbon has eight valence electrons.

Eg9: Methanol

A carbon atom has four valence electrons, it needs four more electrons to be stable. Oxygen atom has 6 valence electrons and needs 2 more valence electrons to be stable. The carbon atom shares 3 valence electrons with three hydrogen atoms and 1 valence electron with one oxygen atom. Oxygen atom will share 2 valence electrons, one with carbon and one with hydrogen.  This results in hydrogen atoms having 2 valence electrons in first shell and carbon and oxygen has eight valence electrons each.

Eg10: Carbon dioxide 

A carbon atom has four valence electrons, it needs 4 more electrons to be stable. Oxygen atom has 6 valence electrons and needs 2 more valence electrons to be stable.  The carbon atom shares all four valence electrons: two with each oxygen atom. Each oxygen atom will share 2 valence electrons with carbon atom, form 2 double covalent bonds in the molecule. This results in carbon and oxygen has eight valence electrons each.