Lewis structures are diagrams that show the bonding between atoms in a molecule as well as the distribution of lone pairs of electrons within the molecule. They are also known as Lewis dot formulas, Lewis dot structures, electron dot structures, or Lewis electron dot structures (LEDS). The Lewis structure can be drawn for any covalently bonded molecule as well as for the coordinated covalently bonded molecules.
Who Introduced Lewis Structures?
The Lewis structure was first introduced by Gilbert N. Lewis in 1916 in his article The Atom and the Molecule.
In Lewis's structure,                   Â
Lines show the shared pairs of electrons, or pairs of dots can be used instead of these lines,
Dots next to an atom are used to show the lone pairs of electrons in a chemical bond.
Uses the chemical symbol of atoms to show their position in the structure of the molecule.
For example, Lewis's structure of H-Cl is shown in the figure; Â
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The Lewis structure of HCl shows that it has one H-Cl bond and no charge on it, as it is an overall neutral molecule. There is only one hydrogen atom and one chlorine atom, and they make a single covalent bond by sharing at least one valence electron. The three lone pairs of electrons of the chlorine atom will reside on it.
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What Is Hydrochloric Acid?
Hydrochloric acid is an inorganic chemical and it is a very corrosive acid and has a pungent and irritating smell. It is viscous and colorless. Its chemical formula is HCl, also known as hydrogen chloride or muriatic acid. It is a simple diatomic molecule.
The bond between hydrogen and chlorine is polar covalent as chlorine is more electronegative than hydrogen i.e. their electronegativity difference is 0.9 ( hydrogen has an electronegativity of 2.1 and chlorine has 3.0). The physical properties of HCl such as density, boiling point, pH, etc depend on the molar concentration of HCl.
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Facts About HCl
Hydrogen chloride is an inorganic acid and is mostly in gaseous form.
The hydrogen chloride or hydrochloric acid chemical formula is HCl.
Lewis structure of HCl contains only one H-Cl bond and there is no charge on HCl.
Lewis structure as HCl is a neutral molecule.
There is one electron in Hydrogen and seven electrons in the valence shell of the chlorine atom in the HCl molecule.
It is a colorless gas with a strong odor.
Can be released from volcanoes.
Steps Of Drawing Lewis Structure Of Hcl
There are several steps to follow when we draw Lewis's structure. Because HCl is a simple molecule with no charge on it, so we have to follow some of the following steps while drawing its Lewis structures.
1)Â Â Â Â Find the total number of electrons of the valence shell of hydrogen and chlorine atom
2)Â Â Â Â Find the total number of bond pairs and lone pairs
3)Â Â Â Â Select the central atom
4)Â Â Â Â Mark lone pairs on atom
5)Â Â Â Â Mark the charge on an atom if any
6)Â Â Â Â Check the stability and minimize the charge by converting lone pairs to bonds to obtain the best Lewis structure.
Total Number Of Electrons Of The Valence Shell Of Hcl Molecule
There are only two elements in hydrogen chloride; hydrogen and chlorine. Since hydrogen belongs to group 1A, it has one valence electron and chlorine belongs to group 7A so it has seven electrons in its last shell (valence shell).
Valence electron shared by hydrogen atom =1*1=1
Valence electron shared by chlorine atom =7*1=7
Total valence electron =7+1=8
Total Valence Electron Pairs
The value of total electron pairs can be determined by dividing the total number of valence electron pairs by 2. As we have a total of 8 electrons in the valence shell of the HCl molecule, so by divide it by 2.
Total number of electron pairs = total valence electrons ÷ 2
So, the total electron pairs = 8÷2=4
Determine The Central Atom
Because there are only two elements we don’t need to worry about finding the central atom, so we can draw the skeleton of HCl.
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Mark Lone Pairs On Atom
Remember, there are a total of four electron pairs.
There is already one bond in the drawn skeleton.
Usually, remaining non-bonded electron pairs should be started to mark on outside atoms. A hydrogen atom cannot keep more than two electrons in its last shell and it has already two electrons. Therefore, we don’t mark those remaining electron pairs on the hydrogen atom.
Therefore, the remaining three electron pairs mark on the chlorine atom and complete its octet. Because the rest of the electrons which are not involved in sharing to make covalent bonds are meant to complete the octet of other atom.
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Mark Charge On Atom
To calculate the formal charge, use the following formula
Formal charge = valence electrons – nonbonding electrons – ½ bonding electrons
For hydrogen atom, formal charge = 1-0- ½ (2) = 0
For chlorine atom, formal charge = 7-6- ½ (2) = 0
So, there is no charge on the HCl molecule. Hence, it is a stable Lewis structure.
Convert The Lone Pair Into a Bond Pair To Obtain The Best Lewis Structure
Like halogens, chlorine requires one more electron to complete its octet. Similarly, hydrogen requires one electron to complete its octet as it contains a maximum of two electrons in its valence shell. As a result, a single covalent bond is formed by sharing of electrons between hydrogen and chlorine. Â
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Check The Stability Of The Structure
It can be checked by using the same formula as
Formal charge = valence electrons – non-bonding electrons – ½ bonding electrons
Element | Chlorine | Hydrogen |
Formula applied | Valence electron = 7 Lone pair electrons = 6 Shared pair electrons (1 single covalent bond) = 2 | Valence electrons =1 Lone pair electrons = 0 Shared pair electron (1 single covalent bond) =2 |
Formal charge | (7-6- 2/2) = 0 | (1-0-2/2) =0 |
 Since the overall formal charge is zero this structure is the most reliable, appropriate, and stable.
Importance Of Lewis Structure
We draw Lewis's structure to
·      Predict the shape of the molecule
·      To show how atoms bond
·      Predict the physical properties of molecules such as boiling point, surface tension, etc
·      Predict the reactivity of the molecule and how it will react with other molecules
·      Figure out how many valence electrons an atom has
·      Know how many bonds will form
·      Show the covalent bond
·      Shows lone pairs of electrons on an atom
·      Describe chemical bonding in a molecule
·      Shows the stability of the molecule
·      Lewis structures are based on the octet rule
Molecular Geometry And Shape Of Molecule
Molecular geometry is the electronic structural representation of molecules. The HCl molecular geometry is the diagram that shows the number of unpaired electron and bond pairs in a specific geometric manner. The geometry of the HCl molecule can then be predicted by using the Valence Shell Electron Pair Repulsion Theory (VSEPR) and molecular hybridization theory.
According to VSEPR theory, the molecule will get linear or tetrahedral geometry because the center atom, chlorine has one H-Cl bond. The bond angle is 180 degrees and the molecule has a linear or tetrahedral shape because it has one hydrogen atom at one corner and three lone pairs of electrons at the three corners of the tetrahedron.
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Determination Of Geometry By AXN Notation
The following is the AXN nomenclature for the HCl molecule:
The central chlorine atom can be represented as A
The bond pairs can be denoted by X
The lone pair on the central chlorine atom can be denoted by the letter N
The notation for the HCl molecule is AX1N3.
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Polarity Of Hcl Molecule
We must add bond polarities to compute the strength of the HCl bond. The electronegative potential of chlorine is higher than that of hydrogen. A more electronegative atom pulls the electron bond pair more toward itself. As a result, it acquires a slightly negative charge and becomes a negative pole, and hydrogen acquires a slightly positive charge and becomes a positive pole.
Two poles ( positive and negative) are generated across a molecule in this way. This makes a molecule polar.
The dipole moment of HCl is 1.03 D.
Factors Affecting The Polarity Of HCL
Relative Electronegativities Of Participating Atoms
The more the difference in electronegativity of the elements, the more the bond is polar.
For example, a higher electronegative atom takes more control over the shared pair of electrons creating partial positive and partial negative charges which result in dipoles causing polarity.
Consider the difference in E.N in HF is 4-2.1 = 1.9
While the difference in E.N in HCl is 3-2.1= 0.9 so, HF is more polar than HCl due to a greater E.N difference.
Symmetry Of The Molecule
In general, the more symmetry, the lesser will be the polarity.
For example, if the molecule has symmetry around the central atom, the bond dipole moment cancels out and the molecule will therefore be non-polar.
·      Total Number Of Atoms
·      Total Number Of Identical Atoms Around The Central Atom
·      Number Of Lone Pairs Of Electron
·      Overall Shape Of Molecule
Hybridization of HCl
HCl has no hybridization, because HCl being a linear diatomic molecule, has an H atom and a Cl atom bonded covalently. So there is no need for any extra stability.
Molecular Orbital Diagram Of Hcl
In simple words, the molecular orbital theory is the formation of molecular orbital by the combination of atomic orbitals of the atoms in the molecule.
This theory helps us to know the arrangement of electrons in the orbital and also the bond order.
The Molecular Orbital Diagram can be Explained Â
Physical Characteristics
HCl is an uncolored gas and has a pungent aroma.
Soluble in water.
Liquefies at 189K to form colorless liquid and freezes at 159K to form white solid.
Its melting point is -62.25°C.
The boiling point is 108.58°C.
The molecular mass is 36.458 g/mol.
HClaq conducts electricity.
pH: concentrated HCl has a pH level of 0. However, HCl found in the stomach has a pH of 1 to 2.
Corrosive
Do not support the combustion process.
It does not catch fire so it is not combustible.
Acidic in nature so turns blue litmus red.
Chemical Characteristics
Ionization:Â HCl is a strong acid, which means that is completely ionizing into ions H+ (aq) and Cl-(aq) when dissolved in water.
Reactivity:Â It is a highly reactive acid and reacts with alkalies, water, oxidizing agents, metals, organic materials
Corrosivity: extremely corrosive in the presence of aluminum, copper, and stainless steel, with a severe corrosive effect on brass and bronze
Noncorrosive: in the presence of glass
Monoprotic: it releases one proton
Uses Of Hydrochloric Acid
Purification Of Table Salts And Ph Control
This acid purifies table salts. It is also useful in the regulation of the acidity of solutions and in controlling the pH of pharmaceutical products, water, and foods.
For The Production Of Oil
Hydrochloric acid is put into the rock where it creates large pores structures which has significant assistance in oil production.
Cleaning Agent
Because of the highly corrosive nature of this acid, it can be used as a cleaning agent and as a disinfectant. It is used to remove stains or rust from metals like copper and iron. It is used to neutralize swimming pools if the pH level is high.
In Textile Industry
It is used for bleaching clothes and processing in the leather and tanning industry.
Pickling Of Steel
It is a process in which dilute HCl is used to remove rust or iron oxide layer from the steel or iron before its processing into wire production, sheets, and tin mill products.
Production Of Organic Compounds
HCl is useful in the production of organic compounds like vinyl chloride, dichloromethane, etc.
Production of inorganic Compounds
HCl is useful in the production of compounds that are useful as water treatment chemicals.
Gastric Acids
Hydrochloric acid is an essential component of gastric juice, which supports digestion.
Hydrochloric Acid Uses In Daily Life
Hydrochloric acid is the solution formed by mixing the hydrogen chloride gas in water.
Some main industrial uses are as follows:
Production of glucose and corn sugar from starch
Refining of cane sugar
Making glue and gelatin
Making synthetic rubber and plastics
Manufacturing of aqua regia to dissolve noble metals such as gold and platinum
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Conclusion
It is concluded that HCl acid is a strong colorless inorganic acid with a pungent and irritating aroma whose physical properties depend on the concentration and molarity of acid. It has a wide range of chemical characteristics including the displacement of metal with the evolution of hydrogen gas. It ionizes completely in water giving its ions H+ and Cl-Â so that it conducts electricity in the liquid state. It is useful in a variety of ways including as a disinfectant, and synthesis of rubber and other chemical compounds.
Frequently Asked Questions
What is the difference between hydrochloric acid and hydrogen chloride gas?
HCl gas only has molecules and HCl acid has ions H+Â and Cl-. The gas does not conduct electricity and does not show any changes to the litmus paper. The acid, on the other side, is an excellent conductor of electricity, turning litmus paper from blue to red.
What is the HCl Lewis structure?
HCl Lewis structure is a dot representation of the molecule.
Does HCl have lone pairs?
Yes, HCl has 3 lone pairs in its Lewis structure.
What type of bond is HCl?
HCl is a polar covalent bond.
When atoms with different electro-negativities share electrons in a covalent bond, a polar covalent bond forms.
What is the electron geometry of HCl?
The electron geometry of HCl is tetrahedral. The chemical HCl is an AXE3 molecule, in which
A = the central atom = Cl
X = atom bonded to A = H
E = lone pairs on A = 3 (Cl has 3 lone pairs)
What is the molecular shape of HCl?
The molecular shape of HCl is linear with a bond angle of 180 degrees.
What is the charge on the Lewis structure of HCl?
Zero charges on the HCl Lewis structure.
What do you know about the combustibility of HCl?
It does not burn in both liquid and gas conditions and does not support burns.
How many valence electrons are there in Lewis's structure?
You have 8 valence electrons available to fill the octets of chlorine and hydrogen in the Lewis structure. Remember, hydrogen only needs two electrons to have a full outer shell.
Why does HCl have no hybridization?
Hydrochloric acid has no hybridization since it is a linear diatomic molecule with a hydrogen atom and a chlorine atom bound covalently.
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