Drawing Lewis Structures
A Tutorial on Writing Lewis Dot Structure
Chemistry
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Lewis Structure Tutorial
10.7.00 6:16 PM
Valence electrons for Elements
Recall that the valence electrons for the elements can be determined
based on the elements position on the periodic table.
Lewis Dot Symbol
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Lewis Structure Tutorial
10.7.00 6:16 PM
Chemical Bonds, Lewis Symbols, and the Octet
Rule
• Chemical bond: attractive force holding two or more
atoms together.
• Covalent bond results from sharing electrons between
the atoms. Usually found between nonmetals.
• Ionic bond results from the transfer of electrons from a
metal to a nonmetal.
• Metallic bond: attractive force holding pure metals
together.
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Lewis Structure Tutorial
10.7.00 6:16 PM
Chemical Bonds
Bond Type
Double
Triple
# of e’s
2
4
6
Notation
—
=

Bond order
1
2
3
Bond
strength
Bond length
4
Single
Increases from Single to Triple
Decreases from Single to Triple
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10.7.00 6:16 PM
Valence electrons and number of bonds
Number of bonds elements prefers depending on the
number of valence electrons. In general -

Fam ily
H alogen s
F, B r, C l, I
C alcogen s
O, S
N itro gen
N, P
C arb on
C , Si
# C ovalent Bonds*
1 bond
O


N

3 bond often
C

4 bond
X
often
2 bond often
always
The above chart is a guide on the number of bonds formed by these atoms.
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Lewis Structure Tutorial
10.7.00 6:16 PM
Lewis Structure, Octet Rule Guidelines
When compounds are formed they tend to follow
the Octet Rule.
Octet Rule: Atoms will share electrons (e-) until it is
surrounded by eight valence electrons.
Rules of the (VSEPR) gamei) O.R. works mostly for second period elements.
Many exceptions especially with 3rd period elements (d-orbitals)
ii) H prefers 2 e- (electron deficient)
.
. N:
.
.
:O:
.
..
:F:
.
iii) :C:
4 unpaired 3unpaired 2unpaired
1unpaired up = unpaired e4 bonds
3 bonds
2 bonds
1 bond
O=C=O
NN
O=O
F-F
iv) H & F are terminal in the structural formula (Never central)
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Lewis Structure Tutorial
10.7.00 6:16 PM
Atomic Connectivity
The atomic arrangement for a molecule is usually given.
HNO3
CH2ClF
Cl
H
C
O
F
N
CH3COOH
O
O
H
H
H C
H
H
O
H2Se
H
Se
C
H2SO4
O3
O
H
H O
S
O
O
O
O H
O H
O
In general when there is a single central atom in the molecule, CH2ClF, SeCl2, O3
(CO2, NH3, PO43-), the central atom is the first atom in the chemical formula.
Except when the first atom in the chemical formula is Hydrogen (H) or fluorine
(F). In which case the central atom is the second atom in the chemical formula.
Find the central atom for the following:
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1) H2O
a) H
b) O
2) PCl3
a) P
b) Cl
3) SO3
a) S
b) O
4) CO32-
a) C
b) O
5) BeH2
a) Be
b) H
6) IO3-
a) I
b) O
Lewis Structure Tutorial
10.7.00 6:16 PM
Setting up Bond Table
Setting up the bond table requires the chemical formula,
and determining the number of electrons around each atom.
A) Chemical Formula I.e., HNO3
B) Oe - Octet Electrons. This is always either 8 or 2 (for H)
C) Tve - Total Valence Electron.
ChemFormula
HNO3
H
N
O
Octet eOe
Tot Val eTve
1x2=2
1x1=1
1x8=8
1x5=5
3 x 8 = 24
3 x 6 = 18
34
24
Note this recipe works only if the chemical specie obeys the octet rule. For
chemical specie which violates the octet rule, this method must be modified.
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Lewis Structure Tutorial
10.7.00 6:16 PM
Calculating the Number of Bonds and
the Remaining electrons
After setting up the bond table, calculate the number of
bonds in the chemical specie and the number of electrons.
The remaining electrons are place around the atoms in the
chemical specie such that each atom obeys the octet rule
HNO3
Oe
Bond Table
# of Bonds
34
Remaining e-
9
Tve
-
24
# Bonding e=
10
10/2 = 5
Tve(24) - electrons in Bond (10) = 14
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Putting it Together
1) Chemical formula:
HNO3
3) Number of bonds
2) Atomic sequence:
=5
O N O
O
H
4) Remaining electrons = 14
5) Lewis Structure with 5 bonds:
O
N
O
6) Complete Lewis Structure
with 14 remaining electrons
O
O
H
N
O
O
H
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Lewis Structure Tutorial
10.7.00 6:16 PM
Lewis Dot Structure of CO2 by Bonds Table
A. Calculate Octet electrons (Oe-) and
Total Valence electrons to determine
number of bonds
CO2
1C
2O
Chg
Oe
1•(8)= 8
2•(8)=16
TVe
1•(4) = 4
2•(6)=12
24
16
B. Calculate the number of bonds in compound
structure.
# bonds =
(Oe - TVe)
2
= (24- 16) = 8 = 4 bonds
2
2
C. Calculate the remaining electrons to add to
structure to complete Lewis dot structure.
Remaining e- = TVe - e- used in bonding.
= 16 - 8 = 8 e-Remaining
Writing Lewis Structure:
First determine atom connectivity keeping in mind that H and F can never be central
atoms. Generally when given the formula, ABn, A is the central atom in the structure
(but not always), and B atoms flank the central atom. Next use information from the
above calculations. Total of 16e- in CO2, of which 8 electrons are used to form 4 bonds
and 8 remaining electrons are used to complete Lewis structure.
O
C
O
1,2. Write atom
connectivity for CO2.
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O
C
O
O
3,4,5. Draw the four
bonds in the structure.
C
O
6. Place the remaining 8 electrons in the
structure to complete the Lewis Structure
Lewis Structure Tutorial
10.7.00 6:16 PM
Lewis Dot Structure of ClO4- by Bonds Table
A. Calculate (Oe-) and (TVe)
ClO4- Oe
1 Cl 1•(8)= 8
4O
4•(8)= 32
Chg
40
B. Number of Bonds.
# bonds =
TVe
1•(7) = 7
4•(6)= 24
1
32
(40- 32) = 8 = 4 bonds
2
2
C. Remaining electrons.
Remaining e- = 32 - 8 = 24 e-Remaining
Writing Lewis Structure:
1,2. Write atom
connectivity for ClO4-.
O
O
Cl
O
3.4.5. Draw the
four bonds in the
structure.
6. Place the remaining 24 electrons
in the structure such that each atom
has an octet to complete the Lewis
Structure
O
O
O
O Cl
O
O
O
O
12
O Cl
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10.7.00 6:16 PM
Lewis Structures: Examples
Example
a) CH2ClF
b)SO2
Cl
H
C
O S O
F
H
c) SO42-
d) H3PO4
O
O S
H O P O H
O
H
O
O
13
O
Lewis Structure Tutorial
10.7.00 6:16 PM