MYP 4 Organic Chemistry Support Notes PDF

Summary

These notes provide a summary of organic chemistry concepts, particularly focusing on bonding in carbon and types of covalent bonds. They also briefly cover hydrocarbons and allotropes of carbon.

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MYP 4 - Organic Chemistry Support Notes

Bonding in Carbon: The Covalent bond, Electron dot structure, Physical properties of
organic compounds, Allotropes of Carbon.

Covalent Bond: The atomic number of carbon is 6. Its electronic configuration is 2, 4. It
requires 4 electrons to achieve the inert gas electronic configuration. But carbon cannot
form an ionic bond

4-
It could gain four electrons forming a C cation. But it would be difficult for the nucleus
with six protons to hold on to ten electrons.

4+
It could lose four electrons forming C cations. But it requires a large amount of energy to
remove four electrons.

Thus, carbon overcomes this problem by sharing of its valence electrons with other carbon
atoms or with atoms of other elements.

The bond formed by mutual sharing of electron pairs between two atoms in a molecule is
known as Covalent Bond.

Types of Covalent Bond:

Single Covalent Bond: When a single pair of electrons are shared between two
atoms in a molecule. For example; F2, Cl2, H2 etc.
Double Covalent Bond: When two pairs of electrons are shared between two
atoms in a molecule. For example; O2, CO2 etc.
Triple Covalent Bond: When three pairs of electrons are shared between two
atoms in a molecule. For example; N2 etc.

Electron Dot Structure: The electron dot structures provides a picture of bonding in
molecules in terms of the shared pairs of electrons and the octet rule.

Formation of Hydrogen Molecule
Atomic number of Hydrogen = 1
Number of valence electrons = 1
Formation of CH4 Molecule
Atomic number of Carbon = 6 [2, 4]
Number of valence electrons = 4
Atomic number of Hydrogen = 1
Number of valence electrons = 1

Formation of CO2 Molecule
Atomic number of Carbon = 6 [2, 4]
Number of valence electrons = 4
Atomic number of Oxygen = 8 [2, 6]
Number of valence electrons = 6

Formation of H2S Molecule
Atomic number of Sulphur = 16 [2, 8, 6]
Number of valence electrons = 6

Physical Properties of Organic Compounds
Most of the organic compounds have low boiling and melting point, due to the weak force
of attraction (i.e., the inter-molecular force of attraction) between these molecules.
Most carbon compounds are poor conductors of electricity, due to the absence of free
electrons and free ions.
 Compounds M.P. (K) B.P. (K)

Acetic acid (CH3COOH) 290 391

Chloroform (CHCl3) 209 334

Ethanol (CH3CH2OH) 156 351

Methane (CH4) 90 111

Allotropes of Carbon
Allotropy: The phenomenon in which the element exists in two or more different physical
states with similar chemical properties are called Allotropy.

Carbon has Three Main Allotropes

Diamond: In this, carbon, an atom is bonded to four other atoms of carbon
forming three-dimensional structures. It is the hardest substance and an
insulator. It is used for drilling rocks and cutting. It is also used for making
jewellery.
Graphite: In this, each carbon atom is bonded to three other carbon atoms. It
is a good conductor of electricity and used as a lubricant.
Buckminster Fullerene: It is an allotrope of the carbon-containing cluster of
60 carbon atoms joined together to form spherical molecules. It is dark solid
at room temperature.

Versatile nature of Carbon, Hydrocarbons, Isomerism, Homologous series, Functional
groups, Nomenclature of functional groups.

Versatile Nature of Carbon: The existence of such a large number of organic compounds
is due to the following nature of carbon,

Catenation
Tetravalent nature.
(i) Catenation: The self linking property of an element mainly carbon atom through
covalent bonds to form long straight, branched and rings of different sizes are called
Catenation.
This property is due to

The small size of the carbon atom.
The great strength of the carbon-carbon bond.

Carbon can also form stable multiple bonds (double or triple) with itself and with the
atoms of other elements.
Straight Chain

Branched Chain

Rings

(ii) Tetravalent Nature: Carbon has valency of four. It is capable of bonding with four other
atoms of carbon or some other heteroatoms with single covalent bond as well as double
or triple bond.

Hydrocarbons: Compounds of carbon and hydrogen are known as hydrocarbons.
For example; Methane (CH4), Ethane (C2H6), Ethene (C2H4), Ethyne (C2H2) etc.

Saturated Hydrocarbon (Alkanes): General formula is CnH2n+2.
n = number of carbon atoms.
In this, the carbon atoms are connected by only a single bond.
For example; Methane (CH4), Ethane (C2H6) etc.

Unsaturated Hydrocarbons
Alkenes: General formula is CnH2n, where n = number of carbon atoms.
In this, the two carbon atoms are connected by double bond.
Alkynes: General formula is CnH2n-2, where n = number of carbon atoms. In this, the two
carbon atoms are connected by triple bond.

Electron Dot Structure of Hydrocarbons

Isomerism: Compounds having the same molecular formula but different structural
formula and properties are known as Isomers and this phenomenon is known as
Isomerism.

Structural Isomerism: Compounds having the same molecular formula but different
structures are called Structural isomers. Example: Isomers of butane (C4H10)
Homologous Series: Series of organic compounds having the same functional group and
chemical properties and successive members differ by a CH2 unit or 14 mass units are
known as Homologous series.

Homologous series of Alkanes, Alkenes and Alkynes

Characteristic of Homologous Series

The successive members in homologous series differ by CH2 unit or 14 mass
unit.
Members of given homologous series have the same functional group.
All the members of homologous series shows similar chemical properties.