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![Page 1: Drawing Lewis Dot Structures - East Central College...Drawing Lewis Dot Structures Purpose: To instruct the student on how to draw the Lewis dot structures for simple, covalent compounds](https://reader034.vdocuments.mx/reader034/viewer/2022042620/5f44f469787df41aa008ac48/html5/thumbnails/1.jpg)
Drawing Lewis Dot StructuresPurpose: To instruct the student on how to draw the Lewis
dot structures for simple, covalent compounds.
636-584-6688
general_tutoring@ eastcentral.edu
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Example I: Water(H2 O)
Step 1: Determine the total number of
valence electrons for the formula.
The hydrogen atoms each have 1 valence
electron, and the oxygen atom has 6 valence
electrons.
(2 x 1) + (1 x 6) = 8 total valence electrons
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Step 2: Determine the number of “octet
electrons” needed by the atoms in the
formula.
Example: Using the example of H2O
Each of the hydrogen atoms needs a total
of 2 electrons to make its “octet”
The oxygen atom needs a total of 8
electrons to complete its “octet”
The water molecule therefore has a total
of 12 “octet” electrons (2 x 2) + (1x 8)= 12
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Step 3: Subtract the valence electron total
from the octet electron total. The
difference is the number of bonding
electrons.
For the water molecule example,
The octet electron total – the valence electron
total
12 – 8 = 4
Therefore, there will be 4 bonding electrons in this
molecule.
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Step 4: Determine the number of bonding
electrons to determine the number of bonds and
lay out a basic shape.
Since the covalent bond consist of two electrons, divide
the bonding electrons by two to determine the number
of covalent bonds.
For the water, one would divide 4 by 2 to obtain 2
covalent bonds.
If you lay out the basic shape of the molecule, it would
look like this:
H−O−HThe lines each represent a shared pair of electrons.
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Step 5: Add lone pairs so that each
atom has its “octet”
H− O−H
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Example II: Carbon dioxide (CO2)Step 1: Determine the total number of
valence electrons for the formula.
The oxygen atoms each have 6 valence
electron, and the carbon atom has 4 valence
electrons.
(2 x 6) + (1 x 4) = 16 total valence electrons
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Step 2: Determine the number of “octet
electrons” needed by the atoms in the
formula.Each of the oxygen atoms needs a total
of 8 electrons to make its “octet”
The carbon atom needs a total of 8 electrons to complete its “octet”
The carbon dioxide molecule therefore has a total of 24 “octet” electrons
(2 x 8) + (1x 8)= 24
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Step 3: Subtract the valence electron total
from the octet electron total. The
difference is the number of bonding
electrons.
The octet electron total – the valence electron total
24 – 16 = 8
Therefore, there will be 8 bonding electrons in this molecule.
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Step 4: Determine the number of bonding
electrons to determine the number of bonds and
lay out a basic shape.
Since the covalent bond consist of two electrons, divide the bonding electrons by two to determine the number of covalent bonds.
For the carbon dioxide, one would divide 8 by 2 to obtain 4
covalent bonds.
If you lay out the basic shape of the molecule, it would look
like this:
O – C – O The lines each represent a shared pair of electrons.
Since we need to represent 4 covalent bonds, we will
“double up” the single bonds and make two double bonds.
O = C = ONow, we have drawn our structure with 4 covalent bonds.
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Step 5: Add lone pairs so that each
atom has its “octet”
O=C= OWe have now accounted for all 16
valence electrons.
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Let’s try one more example: molecular
nitrogen or N2
Step 1: Determine the total number of valence
electrons for the formula.
Each nitrogen atom has 5 valence electrons, so
molecular nitrogen would have 10 valence
electrons.
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Step 2: Determine the number of “octet
electrons” needed by the atoms in the
formula.
Molecular nitrogen would require 8 octet
electrons, 8 for each nitrogen atom.
2 atoms of nitrogen x 8 electrons each =
16 octet electrons
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Step 3: Subtract the valence electron total
from the octet electron total. The
difference is the number of bonding
electrons.
16 octet electrons — 10 valence electrons = 6 bonding electrons
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Step 4: Determine the number of bonding
electrons to determine the number of
bonds and lay out a basic shape.
We divide the number of bonding electrons by 2 in order to determine the number of bonds.
6 electrons divided by 2 = 3 covalent bonds between the nitrogen atoms
N≡N
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Step 5: Add lone pairs so that each
atom has its “octet”
Since we had 10 electrons to place, and the triple bond accounts for 6, place a lone pair on each nitrogen atom and your Lewis dot structure is
complete.
𝐍 ≡ 𝐍