Chemical Bonding PDF

Summary

This document provides a comprehensive overview of chemical bonding, covering various types of bonds including ionic, covalent, and coordinate covalent bonds. It also explores topics such as bond length, bond angles, and the influence of electronegativity on bond polarity.

Full Transcript

Chemical compound formation and
chemical bonding
 Chemical bonding
Ionic bonding
Covalent bonding - general characteristics
Sigma and pi bonds
Bond length
Formal charge
Non-covalent interactions
Hydrogen bond
Metallic bond.
Chemical bonding
Chemical bonding involves the union of atoms through the redistribution of
electrons in their outermost electronic shell either through the transfer of
electrons from one atom to another or through sharing of electrons among
themselves so that all the atoms acquire the noble gas stable electronic
configuration of minimum energy.
Redistribution of electrons in atoms takes place through
Ionic bond
Covalent bond
Co-ordination bond
Metallic bond
Hydrogen bond
Chemical bonding
Ionic bond
Ionic bond results from the complete transfer of
electrons from the outermost shell of one atom
to the outermost shell of another atom.
In this way both the atoms attain inert gas
electronic configuration.
The atom which looses electron attains a
positive charge (cation)
The atom which gains electron attains a
negative charge (anion)
Electrostatic attraction between the positively
and negatively charged ions results in the
formation of a bond.
The number of electrons transferred from one
atom of an element during ionic bond
formation so that it attains stable gas
configuration is called electrovalency of that
element
Chemical bonding
Ionic bond
Factors influencing the ionic bond
1. Ionisation energy
Lesser the ionization energy, the greater the ease with which cations are
formed. Alkali and alkaline earth metals have low ionisation energy.
Hence they form cations easily.
2. Electron affinity
Greater the energy released during the addition of an electron( high
electron affinity) greater is the ease with which anions are formed.
3. Strong ionic bonds are formed by cations with low ionization energy and anioins
with high electron affinities.
Thus low ionization energy of an atom(metal)and high electron affinity of
another atom (non-metal) favors the formation of ionic bond
Chemical bonding
Covalent Bond
Atoms combine together by sharing the electrons in the outermost shell so that the
combining atom attains noble gas electronic configurations. This type of bond is called a
covalent bond.
The number of electrons that an atom contributes for sharing in a covalent bond is called
covalency of that atom
Chemical bonding
Covalent Bond
Sharing of electrons- Orbital overlap
An orbital can accommodate maximum 2 electrons with opposite spin.
As long as such electron pairs are present in an orbital they are not available
for chemical bond formation.
If a single electron is present in an orbital of the outer shell, it will have a
tendency to combine with a similar electron present in the outermost shell of
another atom.
According to orbital overlap concept formation of covalent bond between two
atom results from the coupling of electrons with opposite spin belonging to
the outermost shells of two atoms.
This coupling is accomplished by the overlap of orbital containing these
electrons.
Chemical bonding
Covalent Bond
Sharing of electrons- Orbital
overlap –different type of
orbital overlap
Sigma bond (σ Bond)
This type of bond is formed by
the overlapping of orbitals
along the same axis. This is
also called end on overlap
The extent of orbital
overlapping is very high in σ
Bond and bond formed is very
strong.
Chemical bonding
Covalent Bond
Chemical bonding
Covalent Bond
Pi bond (π Bond)
This type of bond is formed by
the sideways overlapping
(lateral overlapping) of atomic
orbitals.
The extent of orbital overlap is
low in the π Bond and bond
formed is weak.
Π bonds are not formed by s
orbitals
Chemical bonding
Co-ordinate covalent Bond- Dative bond
This is a type of covalent bond
Bond is formed by the sharing of electrons between two atoms where both
the electrons are contributed by one atom.
A coordinate bond is established between two atoms when one of which has a
complete octet and has an unshared pair of electrons and the other atom has
an incomplete octet.
The atom contributing the electron pair is called the donor and the atom
accepting the electron pair is called the acceptor atom. Donated pair of
electrons is called lone pair of electrons.
It is directional and denoted by an arrow
Chemical bonding
Co-ordinate covalent Bond- Dative bond
Chemical bonding
Metallic bond

Characteristics of metals
High melting and boiling point
High electrical and thermal conductivity
High tensile strength
Malleability and ductility

These properties are due to special types of bonding in metals.
Bonding in metal is explained by the free electron model or electron sea
model
Chemical bonding
Metallic bond
The free electron model or The electron sea
model
In metals, electrons are very loosely bound.
Valence electrons are essentially free and may
be shared by a number of atoms.
Metallic bond - Assembly of positively charged
metal ions periodically (kernels) in a sea of
mobile electrons. Thus each electron belongs to
a number of positive ions and positive ions
belong to so many electrons.
The electrostatic force of attraction between the
positively charged kernel to a number of
electron within its influence called metallic bond
Chemical bonding
Metallic bond –explanation of metallic properties

✔ High MP and BP- it is due to the strong force of attraction between positively charged metal ions and
a large no of electrons
✔ High thermal conductivity: Due to the presence of loosely held highly mobile valence electrons
✔ High electrical conductivity: Due to the presence of loosely held highly mobile valence electrons.
They move readily in an electric field conducting electricity
✔ Metallic luster: Presence of a large no of loosely held electrons. When light falls on metals it causes
the oscillation of free electrons. This moving charge always emits electromagnetic waves which gives
luster to the metals.
✔ Malleability and ductility: Metallic bonds holding positive ions and electrons are non-directional.
The force of attraction holding metals and electrons are uniform in all directions. And the
bond-forming metal in the metallic lattice is not rigid like covalent bonds.
✔ High tensile strength- They can resist stretching without breaking. This is due to the strong
electrostatic attraction between positively charged metals ions and free electrons surrounding them.
Chemical bonding
Covalent Bond- Polarity of covalent bonds
Covalent bond formed between two identical atoms is said to be a
non-polar covalent bond but if it is formed between two dissimilar atoms it
is called a polar covalent bond.
When a covalent bond is formed between two dissimilar atoms electron
pair is attracted towards atom with more electronegativity. This atom
attains a partial negative charge and the other atom attains a partial
positive charge.
Molecules formed by such atoms are called polar molecules. A polar
covalent bond has a partial ionic character.
Two opposite charges at the ends are called dipoles.
Chemical bonding
Covalent Bond-
Polarity of covalent bonds
Chemical bonding
Covalent Bond-
Polarity of covalent bonds
Chemical bonding
Covalent Bond-
Polarity of covalent bonds
Chemical bonding
Hydrogen bond
The strong electronegative atoms like F, O and N have very high
electronegativity compared to hydrogen atoms. So when these atom form
bonds with hydrogen, hydrogen acquires a partial positive charge and this
atom acquires a partial negative charge. This is called a dipole because one
end carries a positive charge and the other end negative charge. These
dipoles will attract other molecular dipoles present in the system. One
molecule's positive end is attracted to another's negative end. This is a
strong electrostatic force of attraction. This bond is called hydrogen bond.
Hydrogen bond is the intermolecular electrostatic force of attraction
holding together molecules of hydrogen containing dipoles.
It is denoted by dotted lines.
Chemical bonding
Hydrogen bond
Chemical bonding
Hydrogen bond
Hydrogen bonds are usually formed in compounds having hydrogen and
NOF atoms
NOF – Nitrogen, oxygen and fluorine
Due to the high electronegativity difference between hydrogen and NOF
atoms (H-2.1, F-4.0, O-3.6, N-3.4)

There is no H-bond exists in methane , ethane etc
C- electronegativity -2.5
Why water is liquid and methane and ethane are gases ?
Chemical bonding
Hydrogen bond
Hydrogen bond is not a chemical bond. It is the force of attraction between
molecules.
Covalent bonds are 20 times stronger than hydrogen bonding

Why H2O is liquid and H2S is gas
TYPES OF HYDROGEN BONDING

Intermolecular hydrogen bonding -between separate molecules
Intramolecular hydrogen bonding-within parts of the same molecule
TYPES OF HYDROGEN BONDING
1. Intermolecular hydrogen bonding- When the
hydrogen bonds are formed between two or more
molecules of same or different molecules are called
intermolecular hydrogen bonding
Eg: hydrogen fluoride, ammonia, water, alcohols,
alcohols and ammonia in water
TYPES OF HYDROGEN BONDING
2. Intramolecular hydrogen bonding- Intramolecular
hydrogen bonds are those which occur within one
single molecule.
Eg: hydrogen fluoride, ammonia, water, alcohols,
alcohols and ammonia in water

Salicylic acid
Chemical bonding- some important characteristics of covalent bond
Bond length
Bond length is defined as the average
distance between nuclei of two atoms
bonded to each other.
When two atoms approach each other at a
particular point electrostatic attraction
between 2 atoms will be maximum and
repulsion will be minimum.
At this point, energy of the system will be
minimum and atoms get bonded together.
Bond length is usually denoted in
nanometers, picometer or angstrom unit.
Bond lengths are experimentally elucidated
using microwave spectroscopy and X-ray
crystallography.
Chemical bonding- some important characteristics of covalent bond
Bond angle
Bond angle refers to the angle between the two bonds i.e. the angle between two orbitals that
contains a pair of bonding electrons around the central atom in a complex molecule or an ion.
This angle is usually measured in degrees, further calculated using the spectroscopic.
Shape of the molecule controls the bond angle.
Chemical bonding- some important characteristics of covalent bond
Bond strength and Bond energy
Bond energy or bond strength is the
energy required to break one mole of
bonds of that type in gaseous state
Strength of the bond indicates the
stability of the bond.
As the bond order increases bond
strength also increases.
Bond strength of CΞ C > C=C > C-C
Bond strength is expressed in kJ/mole or
kcalories/mol
As the bond length decreases bond
strength increases.
Bond energy is inversely proportional to
bond strength.
Chemical bonding- some important characteristics of covalent bond
Chemical bonding- some important characteristics of covalent bond
Chemical bonding- some important characteristics of covalent bond