Introduction To Organic Chemistry 2024 PDF

Summary

These are lecture notes on introductory organic chemistry. The document covers different types of chemical bonds, including covalent, polar covalent, and ionic bonds. It also covers the concept of hybridization and the factors affecting electron availability.

Full Transcript

By
Dr. Zahra Kassem
 Objectives
1. To identify different types of chemical bonds.
2. To know how atomic orbitals combine to
form molecular orbitals.
3. To know why organic compounds have linear,
planar or tetrahedral structure.
4. To know the effect of hybridization on bond
length and acidity of the compounds.
5. To understand factors affecting electron
availability at a carbon atom
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 PERIODIC TABLE

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 Types of Chemical Bonds Introduction to
Bonding
Chemical bonding describes a variety of interactions that hold
atoms together in chemical compounds.
Chemical bonds are forces that hold atoms together to make
compounds or molecules.
Chemical bonds include covalent, polar covalent, and ionic
bonds.
Atoms with relatively similar electronegativities share
electrons between them and are connected by covalent
bonds.
Atoms with large differences in electronegativity transfer
electrons to form ions. The ions then are attracted to each
other. This attraction is known as an ionic bond.

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 Definitions
Bond: A link or force between neighboring atoms in a
molecule or compound.
Ionic bond: An attraction between two ions used to create an
ionic compound. This attraction usually forms between a
metal and a non-metal.
Covalent bond: An interaction between two atoms, which
involves the sharing of one or more electrons to help each
atom satisfy the octet rule. This interaction typically forms
between two non-metals.
Intramolecular: Refers to interactions within a molecule.
Intermolecular forces: Refers to interactions between two or
more molecules.

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 Chemical bonds

Chemical bonds are the connections between atoms in a
molecule.
These bonds include both strong intramolecular interactions,
such as covalent and ionic bonds.
They are related to weaker intermolecular forces, such as
dipole-dipole interactions, the London dispersion forces, and
hydrogen bonding.

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 A. Ionic Bonds

For atoms with the largest electronegativity differences (such
as metals bonding with nonmetals), the bonding interaction is
called ionic, and the valence electrons are typically
represented as being transferred from the metal atom to the
nonmetal.
Once the electrons have been transferred to the non-metal,
both the metal and the non-metal are considered to be ions.
The two oppositely charged ions attract each other to form an
ionic compound.

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 Forming an Ion
Ionic bonds are a class of chemical bonds that result from the
exchange of one or more valence electrons from one atom,
typically a metal, to another, typically a nonmetal.
This electron exchange results in an electrostatic attraction
between the two atoms called an ionic bond.
An atom that loses one or more valence electrons to become
a positively charged ion is known as a cation, while an atom
that gains electrons and becomes negatively charged is known
as an anion.

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 A cation is indicated by a positive superscript charge (+
something) to the right of the atom. An anion is indicated by a
negative superscript charge (- something) to the right of the
atom. For example, if a sodium atom loses one electron, it will
have one more proton than electron, giving it an overall +1
charge.
The chemical symbol for the sodium ion is Na+1or just Na+
Similarly, if a chlorine atom gains an extra electron, it
becomes the chloride ion, Cl-.
Both ions form neutral molecule.
The ion is more stable than the atom due to the octet rule.

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 Forming an Ionic Bond

Once the oppositely charged ions are formed, they are
attracted by their positive and negative charges.
Ionic bonds are also formed when there is a large
electronegativity difference between two atoms. This
difference causes an unequal sharing of electrons such that
one atom completely loses one or more electrons and the
other atom gains one or more electrons, such as in the
creation of an ionic bond between a metal atom (sodium) and
a nonmetal (Chlorine).

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 Types of chemical bonds
1- ionic Bond
11Na -e- 10 Na+ as Ne

17Cl +e- 18 Cl- as Ar

Na+ + Cl- NaCl

Electrostatic attraction between positive and negative ions

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3 September 2024 12
 Electronic configuration

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 B. Covalent Bonds
Chemical bonds are the forces of attraction that tie atoms
together.
Bonds are formed when valence electrons, the electrons in
the outermost electronic “shell” of an atom, interact.
The nature of the interaction between the atoms depends on
their relative electronegativity. Atoms with equal or similar
electronegativity form covalent bonds, in which the valence
electron density is shared between the two atoms. The
electron density resides between the atoms is equal and is
attracted to both nuclei. This type of bond forms most
frequently between two non- metals.

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 When there is a greater electronegativity difference than
between covalently bonded atoms, the pair of atoms usually
forms a polar covalent bond. The electrons are still shared
between the atoms, but the electrons are not equally
attracted to both elements. As a result, the electrons tend to
be found near one particular atom most of the time. Again,
polar covalent bonds tend to occur between non-metals.

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 Forming Covalent Bonds
Covalent bonds are a class of chemical bonds where valence
electrons are shared between two atoms, typically two
nonmetals.
The formation of a covalent bond allows the nonmetals to
obey the octet rule and thus become more stable.
For example:
A fluorine atom has seven valence electrons. If it shares one
electron with a carbon atom (which has four valence
electrons), the fluorine will have a full octet (its seven
electrons plus the one it is sharing with carbon).

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 Carbon will then have four valence electrons (its four and the
one its sharing with fluorine).
Covalently sharing two electrons is also known as a “single
bond.”
Carbon will have to form four single bonds with four different
fluorine atoms to fill its octet. The result is CF4 or carbon
tetrafluoride.

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 Covalent bonding requires a specific orientation between
atoms in order to achieve the overlap between bonding
orbitals.
Covalent bonding interactions include sigma-bonding (σ) and
pi-bonding (π).
Sigma bonds are the strongest type of covalent interaction
and are formed via the overlap of atomic orbitals along the
orbital axis. The overlapped orbitals allow the shared
electrons to move freely between atoms.
Pi bonds are a weaker type of covalent interactions and result
from the overlap of two lobes of the interacting atomic
orbitals above and below the orbital axis.

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 Covalent bonds can be single, double, and triple bonds.
Single bonds occur when two electrons are shared and are
composed of one sigma bond between the two atoms.
Double bonds occur when four electrons are shared between
the two atoms and consist of one sigma bond and one pi
bond.
Triple bonds occur when six electrons are shared between the
two atoms and consist of one sigma bond and two pi bonds.

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 2- Covalent Bond

Sharing of electrons between 2 atoms arise
through overlap of atomic orbitals to form
either σ or π bonds:

s spherical

p dumbbell-shape

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Types of overlap:
1) s and s overlap

(form σ bond)
2) s and p overlap

(overlap with only one lobe) (form σ bond)

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3) p and p overlap
a) head on overlap

b) Sidewise overlap

A π bond is not formed unless a σ bond is first formed

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 3- Coordination Bond
( Semi-ionic Bond)

A coordinate bond (also called ‘’dative covalent bond or dipolar bond’’) is a
covalent bond (shared pair of electrons) in which both electrons come from the
same atom.

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 4- Hydrogen Bond
Types of Hydrogen Bonds

a- Intermolecular hydrogen bond

Hydrogen Bond is due to electrostatic attraction between δ+ and δ-

Association hydrogen bond leads to increase in boiling
point. The increase in boiling point happens because the
molecules are getting larger with more electrons, and so
van der Waals dispersion forces become greater.

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b- Intramolecular hydrogen bond

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 valence

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 Valency

It is number of unpaired electrons present in
the outermost shells.

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 Hybridization

Is the idea that atomic orbitals fuse to form
newly hybridized orbitals, which in turn,
influences molecular geometry and bonding
properties.

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3 September 2024 30
 Organic Chemistry is the study of carbon compounds
Methane CH4
Overlap of four sp3 orbitals of c atom with four 1s
orbitals of four H atoms. The bond angles in methane
equal to 109.5°.

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Methane CH4

As seen in methane (CH4), carbon can form 4 bonds. The rationale
behind this phenomenon is hybridization. Supporting evidence
shows that 1 s and 3 p orbitals are being combined to form hybrid
orbitals, allowing polyatomic molecule to have 25% s character
and 75% p character. Thus, we call methane a sp3-hybridized
molecule.

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 Ethylene
The 2p orbital here is considered low enough energy to be
classified within the same energy level as the sp2 orbitals. The
figure below portrays the correct way to distribute electrons.

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Ethylene
Notice how that lone electron in the 2p orbital is separate
from the electrons in the sp2 orbitals. This is what influence
ethylene's shape. The lone electron from each carbon will
remain in its respective p orbital and form a pi bond with the
other p orbital electron. Thus, ethylene is a planar molecule,
with orbitals spaced 120 degree angles apart.

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3 September 2024 38
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Acetylene

1 s orbital is being mixed with 1 p orbital.

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Acetylene
the lone electrons in the 2p orbitals are not part of the sp
hybride orbitals. Instead, each electron is in its respective p
orbital, and will bond with its respective p orbital of the
other carbon. This in itself will create a sigma bond and two
pi bonds, leading to the formation of a linear molecule!

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 Effect of hybridization
on
bond length and acidity

Electrons in S orbitals are strongly attached to
nucleus

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 Effect of hybridization
on
bond length and acidity

Sp3 C Sp2c Sp C

Bond type
C-C C=C C ≡C

Example
CH3-CH3 CH2=CH2 CH ≡ CH

% S Character
25 33.3 50

Bond length
1.526 1.335 1.206 A O

Acidity
Non acidic Less acidic Most acidic

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 Bond Length and Bond Energy

Bond Energy : Is the amount of energy
required to separate the bond pairs of atoms
to undefined distance : σ > π bonds.
Triple>double>single
Bond Length: It is the average distance
between centers of two adjacent atoms which
are bonded together ,bond length in single
bond is much longer than the double bond.

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 Electronegativity
is the ability of an atom to attract bonded electrons
closer to itself

According to electronegativity:
F > O > N, Cl > Br > C,S > H
4.0 3.5 3.0 2.82 2.5 2.25

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 Bonds, Stability, and Compounds
Covalent interactions are directional and depend on orbital
overlap, while ionic interactions have no particular
directionality.
Each of these interactions allows the atoms involved to gain
eight electrons in their valence shell, satisfying the octet rule
and making the atoms more stable.
These atomic properties help describe the macroscopic
properties of compounds.
For example, smaller covalent compounds that are held
together by weaker bonds are frequently soft and malleable.
On the other hand, longer-range covalent interactions can be
quite strong, making their compounds very durable.
Ionic compounds, though composed of strong bonding
interactions, tend to form brittle crystalline lattices.
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 Ionic Compounds v. Molecular Compounds

Unlike an ionic bond, a covalent bond is stronger between
two atoms with similar electronegativity.
For atoms with equal electronegativity, the bond between
them will be a non- polar covalent interaction.
In non-polar covalent bonds, the electrons are equally shared
between the two atoms.
For atoms with differing electronegativity, the bond will be a
polar covalent interaction, where the electrons will not be
shared equally.

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 Ionic solids are generally characterized by high melting and
boiling points along with brittle, crystalline structures.
Covalent compounds, on the other hand, have lower melting
and boiling points. Unlike ionic compounds, they are often not
soluble in water and do not conduct electricity when
solubilized.

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 Factors Affecting Electron
Availability at an Atom

1 - Inductive effect
2 - Resonance
3 - Hyperconjugation

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 1- Inductive effect

- I( out of Carbon ) +I ( to carbon)
electron withdrawing gp electron donating
gp
e.g. NO₂,CN,SO₃H,CHO,COR e.g. Alkyl groups
F , Cl , Br , I

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 2- Resonance

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 ↑ number of canonical structures →↑ stability
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 Inductive effect Resonance

Occur only in saturated Occur in unsaturated and
systems conjugated systems

It is the tendency of an Delocalization of π es or
atom or group of atoms to lone pair in a planar
attract or release electrons system
(parallel p orbitals)
Transmission effect fades Continue as long as
by increasing distance conjugation extends

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 Breaking of a covalent bond

A) homolytic fission

B) heterolytic fission

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 Breaking of a covalent bond

Homolytic bond fission, is the breaking of a bond
that results in one electron going to each atom in the
bond. Homolytic cleavage is the source behind free
radicals--atoms with one electron in an orbital and
no charge (actual atoms--not ions).

Heterolytic cleavage, which is more common, refers
to a bond breaking and one atom getting both
electrons while the other gets none.

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 List of References
Essential Books (Text Books):
- Textbook of Organic Medicinal and Pharmaceutical Chemistry, Wilson and
Gisvold's, 12th Ed., International Edition, Philadelphia : Lippincott Williams
& Wilkins, 2011.
- Textbook of Organic Medicinal and Pharmaceutical Chemistry, Wilson and
Gisvold's, 11th Ed., Philadelphia : Lippincott Williams & Wilkins, 2004.
- Organic Chemistry ,T. W. Graham Solomons, Craig B. Fryhle, 9th Ed., N.Y.:
John Wiley & Sons, Inc., 2006.
- Organic Chemistry, T. W. Graham Solomons, Craig B. Fryhle, 8th Ed., N.Y.:
John Wiley & Sons, Inc., 2004.
- March's Advanced Organic Chemistry,: Reactions, Mechanisms, And
Structure, Michael B. Smith and Jerry March, 6th Ed., New Jersey : John
Wiley and Sons, Inc., 2007.
- Organic Chemistry, John McMurry, 7th Ed., Australia : Thomson
Brooks/Cole, 2008.
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