Isomerism Notes PDF

Summary

These notes provide a comprehensive overview of isomerism in organic chemistry, covering different types of isomers such as structural isomers, stereo isomers, functional group isomers, and ring-chain isomers. The notes include examples, previous year's questions, and detailed explanations of the concepts.

Full Transcript

Isomerism

Isomerism
Definition

Isomers have same molecular
formula but different structures
or configurations of compounds.

Isomerism is resultant

Concept Ladder
factor of thermodynamic
system “entropy”.
y Isomers have same molecular formula but
different physical and chemical properties.
y Compounds having same molecular formula,
but different connectivity, different bonding
pattern (structural isomerism) or different 3-D
relative arrangement (stereoisomerism) is known
Previous Year’s Questions
as isomers and this phenomenon is known as
isomerism. Isomers of a substance must have
y Isomers are those which can be separated at the same
room temperature. [NEET-1991]
y Isomers always have same Degree of Unsaturation (1) structural formula
(DU) (2) physical properties
y Isomers are formed to satellite a system. (3) chemical properties
y Connectivity change (bonding pattern) structural (4) molecular formula
isomerism.

Isomerism

1.
 y C2H6O (DU = 0)
−δ +δ Rack your Brain
(1) Alcohol CH3 − CH2 − O− H

(2) Ether CH3 − O − CH3 How molecular structures
y Both compounds have different connectivity so affect the value of its entropy?
both are structural isomers.

y Que

Both are stereo isomers.
Isomerism

2.
 Definition
STRUCTURAL ISOMERISM
Ex. Same molecular fomula but
different connectivity of atoms
is known as structural isomers.
I. Chain Isomerism

(1) Degree of Unsaturation

Concept Ladder
(DU) also known as Double
Bond Equivalent (DBE).
(H+ X− N)
DU = (C+ 1) −
2
(2)

Definition

Compounds having same MF
(3) and same functional group but
different P.C.C. or side chain is
called chain isomers.

Rack your Brain
(4)
How many minimum C-atoms are
required to give chain isomers
for Alcohol?

(5)
Previous Year’s Questions

The isomer of ethyl alcohol is :
[AIPMT]
(1) diethyl ether
(2) dimethyl ether
Isomerism

(3) acetaldehyde
(4) acetone

3.
 NO. OF CARBON
S.NO. HYDROCARBON ISOMER 1 ISOMER 2
ATOMS

1. Alkane 4

2. Alkene 4

3. Alkyne 5

4. Alkediene 5

5. Alkenyne 5

6. Alcohol 4

II. Position Isomers
Compounds having same M.F., same figure same
P.C.C. or side chain but different position of Definition
functional group, multiple bonds & substituent.
Compounds have same M.F. but
difference in position of fucntion
group, multiple bond and
(1) substituent.

Both are Position Isomers
Isomerism

4.
(2)

(3)

(A) Alkene — 4 Definition

Compounds have same M.F. but
(B) Alkyne — 4 difference in functional group is
knwon as functional isomers.

(C) Alkane — 6

(D) Cyclopropene

III. Functional isomerism

1. Acid and ester

2. Cyanide and isocyanide
Isomerism

5.
 3. Aldehyde and ketone

4. Keto and enol form

5. Nitro and nitrile

6. Alcohol & phenolic compounds

7. Alcohol & ether CH3—CH2—OH and CH3—O—CH3

8. 1°, 2° and 3° Amines
Rack your Brain

Examples : What are the Functional Isomers
of monocarboxylic acids?

(1)

Previous Year’s Questions

Functional isomerism is showsn by
[AIPMT]
(1) o-Nitrophenol and p-nitrophenol
(2) Dimethyl ether and ethanol
(3) 2-Pentenoic acid and 3-pentenoic
(2) acid
(4) Acetaldehyde and acetone
Isomerism

6.
Que. How many minimum carbon atom required to give position isomer?

Sol.  Definition

Compounds having same M.F.
but different mode of linking.
IV. Ring-chain Isomerism

Que. C4H6 → (DU=2)
All ring chain isomers are
I, II → F.g
Concept Ladder

C—C≡C—C I
functional group isomers
C=C—C=C II I, III → F.g, RCI
but vice-versa not true.
III I, IV → RCI, FGI, In case of ring chain and
functional group isomers,
ring chain isomer will be
prior.
IV II, IV → RCI, FGI

V. Metamers
Compound having same M.F. but different alkyl group attached at polyvalent functional group.

Isomerism

7.
 (1)

(2)

Metamers-X
(3) Identical Homomers
(Isomerism)
(4) CH3—CH2—CH2—O—CH3 CH3—CH2—O—CH2—CH3 Inter-unit change
  I II   Metamers

(5)

Rack your Brain

Find out the number of Metamers
of C4H10O?

Previous Year’s Questions

Which of the following ether
show metamerism
[AIPMT]
(1) CH3–CO–C3H7
(2) C2H5–O–C2H5
(3) CH3–O–CH3
(4) CH3–O–C2H5
Isomerism

8.
Isomers formation probability
(I) Open chain hydrocarbon
1. 1C →1 [C]
2. 2C →1 [C—C]
3. 3C →1 [C—C—C]
4. 4C →2

5. 5C →3

6. 6C →5

7. 7C →9

(II) Closed chain hydrocarbon
1C →×
2C →×
3C →1 →

4C →2 →

5C →5 →

Ex. How many structural isomers are possible with following molecular formula ?
(1) C5H10
Sol. DU–1, Open–5, Closed–5

(2) C6H10 (No. of terminal alkynes)
Sol. DU–2, Open–4
Isomerism

9.
 (3) C7H8O (No. of benzoid isomer)
Sol. DU–4

(4) C7H9N (No. of benzoid isomer)
Sol. DU–4

(5) C6H6 (No. of monochloro product)
Previous Year’s Questions

Sol. The number of isomers in C4H10O
will be
(6) Napthlene (No. of monochloro product) [NEET-1996]
(1) 7 (2) 8 (3) 5 (4) 6

Sol.

(7) No. of monochloro product in anthracene

Sol.

(8)
Rack your Brain

Find out the number of Stuctural
isomers of C2H2FClBrI?
Isomerism

10.
 Previous Year’s Questions
Sol.
Number of isomers of C5H6
[AIIMS-2012]
(1) 2 (2) 3 (3) 4 (4) 5

(9) C4H11N → No. of 1°, 2° and 3° amine.

Sol. (1°amine)

(2° amine) C—C—C—NH—C,
(3° amine)

Rack your Brain
(10) C2FClBrI (No. of structural isomerism)

Sol. DU = 1, Find out the number of Stuctural
isomers (Acid and Ester) of
C4H8O2?

(11) C3H9N (No. of 1°, 2°, 3° amine)

Sol. (1° amine) C—C—C—N

(2° amine) C—C—NH—C Previous Year’s Questions

(3º amine) The molecular formula of diphenylmethane,

is C13H12.

How many structural isomers are possible
when one of the hydrogen is replaced by a
chlorine atom?
[NEET-2004]
(1) 6 (2) 4 (3) 8 (4) 7
Isomerism

11.
 Important Point

CH3— C2H5— C3H7— C4H9— C5H11—

1 1 2 4 8

Free valency
—X (F, Cl, Br, I), —NH2, —OH etc.
Rack your Brain
Ex. C5H11Cl → 8
C5H13N → 8 (1° Amine)
Find out the number of Stuctural
C4H9Cl → 4 isomers of C6H13Cl?

Stereo Isomerism

1. Conformational Isomerism
y Conformers also known as rotamers, and this Definition
isomerism is known as rotational isomerism.
y Study of conformers based on P.E. is known as A number of stereoisomers
conformational analysis at room temperature which are formed due to free
that’s why conformations interconvertible rotation around a single bond
to each other at room temperature and not is known as conformations and
separated and called as pseudo isomers. this isomerism is known as
conformational isomerism.
Representation of 3-D molecules
1. Newman’s projection formula : (Front
view/Back view)
y Front view projection of 3D molecules is
known as Newman’s projection formula.
Isomerism

y C—C bond does not represent in this
projection formula.

12.
y
2. Saw-horse projection formula : (Side view projection of 3D molecules)

Stability factor of conformers

Types of strain for Acyclic
Concept Ladder

compound :
(1) Steric strain (SS)
(2) Torsional strain (TS)

Rack your Brain
Bond angle : The angle between 2 bonds of a
same atoms lying in same plane. What is the effect of
Dihedral angle : The angle between 2 bonds of conformational isomers on bond
adjacent atoms. angle and bond length?

Conformers of ethane :

Previous Year’s Questions

Dihedral angle in staggered from
of ethane is
[AIPMT]
(1) 0° (2) 120° (3) 60° (4) 180°
Isomerism

13.
 → Maximum steric strain and → Maximum steric strain and
torsional strain. torsional strain.
→ Maximum inter-electronic → Minimum inter-electron
repulsion. repulsion.
→ Maximum inter-electron energy. → Minimum inter-electron energy.
→ Minimum stability. → Maximum stability.

NOTE :
Energy order ⇒ Eclipsed > Skew > Staggered
Stability order ⇒ Staggered > Eclipsed

Skew form : Infinite conformations in between eclipsed and staggered (anti) form is known
as skew forms.
Rack your Brain

Which conformation has highest
Conformers of propane :
potential energy?

Previous Year’s Questions
NOTE :
Energy orders ⇒ Eclipsed > Skew > Staggered The isomers, which can be
Stability order ⇒ Staggered > Skew > Eclipsed. converted into another form by
Conformers of Butane : rotation of the molecules around
single bond, are
[AIIMS]
(1) conformers (2) enantiomers
(3) diastereomers
Isomerism

(4) geometrical isomers

14.
 Conformational Analysis :
(1) Torsional strain :

(2) Steric strain :

Energy order ⇒ Fully eclipsed > Partially eclipsed > Gauche > Anti
Stability order ⇒ Anti > Gauche > Partially eclipsed > Fully eclipsed

Conformers :
Out of infinite conformations which are formed at minimum possible energy profile curve,
are conformers.
y All conformers are conformations but vice-versa not true.
(Stable form)
y Conformations of ethane = ∞ Rack your Brain
Conformer of ethane = 1 (Staggered)

How many conformers of butane
Stability : are optically active?
Vanderwal repulsion (S.S. and T.S.)
Staggered (more stable) > Eclipsed
Gauche form may be more stable than Anti/
staggered form if following factors are present
in Gauche form. Due to hydrogen bonding
Concept Ladder

(1) Hydrogen bonding and electrostatic
(2) Electrostatic attraction attraction, Gauche form
of butane is more stable
than Anti form/staggered.
Isomerism

15.
 Ex.

(1)

In case of eclipsed form repulsion is more (H-bonding is not eclipsed).

(2)

(3)

(4)

(5)
Isomerism

16.
 Conformers of cyclic ring (Cycloalkane) :

Real bond angle in propane → 109° 28’
Bond angle in cyclopropane → 60°
Angle strain → 49° 28’
Relationship between p-character and bond Rack your Brain
angle :
What are the consequences of p
1
%p ∝ and s-character on bond angle?
Bond angle

Types of strain for cyclic
Concept Ladder

compound:
(1) Steric strain (SS)
y
(2) Torsional strain (TS)
High angle strain, planar molecule.
(3) Angle strain (AS)
y No flexibility.
y Cyclopropane does not form conformers.

(1) Cyclopentane
→ Forms envelop at room temperature. (appears
like wave).
→ Highly unstable.
%p %s Bond angle
Concept Ladder

sp3
75% 25% 109° 28’
sp2 66% 33% 120°
sp 50% 50% 180°
Isomerism

17.
 (2) Cyclohexane :

Exception ⇒

>Twisted boat form
Previous Year’s Questions

Among the following the most
stable compound is
[AIIMS-2005]
(1) cis-1,2-cyclohexanediol
(2) trans-1,2-cycloehxanediol
(3) cis-1,3-cyclohexendiol
(4) trans-1,3-cyclohexanediol
Isomerism

18.
Chair form of cyclohexane :

Most symmetric molecule.
→ Thermodynamically stable molecule.
→ Every carbon bear 2 ideal tetrahedral.
→ Conformer of cyclohexane = 3 (1 Chair + 2 Twisted boat) Optically active.
up — up → cis 
Stability of ring : up— down → trans 
 
down — up → trans 
 
down — down → cis

Isomerism

19.
 Configurational isomerism

1. Geometrical Isomerism
y Geometrical isomers occur due to differential
distance between terminal group.
Definition

The stereoisomers which have
different 3-D relative around
a restricted rotatory system
(RRS) is known as Geometrical
isomers, this phenomenon
is known as Geometrical
isomerism.
l1 ≠ l2 (Due to different aerial distance)
Both are Geometrical Isomers.
→  G.I. are not interconvertible at room
temperature because of π-bond
dissociation energy (62 Kcal).
Compound must has R.R.S./absence of free
rotation/Rigid system/hindered rotation/
Frozen rotation to exhibit configurational
isomerism.
Isomerism

20.
Type of R.R.S :
Double bonded R.R.S

Isomerism

21.
 1. GI in Alkene :

sp2 carbon must be

Concept Ladder
(1) attached with different
groups (Terminal position).

(2)

(A) GI in Imine :
Previous Year’s Questions

2-butene shows geometrical
(1)
isomerism due to :
[AIPMT]
(1) restricted rotation about
double bond
(2) free rotation about double
bond
(2)
(3) free rotation about single
bond
(4) chiral carbon

(3)

(B) G.I. in oxime :
Rack your Brain

What will be the effect of a big
gruop present in a molecule on
geometrical isomerism?

(1)
Isomerism

22.
 (2)

(C) G.I. in Azo-compounds :
Always show G.I.
Rack your Brain
(1) N2H2 → H show G.I.

Is unsaturation required for
(2) geometrical isomerism?

(3)

(4)

Minimum 2 sp3 carbon
Concept Ladder

must be attached with
different group to show
2. G.I. in cycloalkane :
G.I. in cycloalkane.

Isomerism

23.
 When terminal groups

Concept Ladder
are different, then odd
number double bonds
allenes and spiro system
3. G.I. in Allene : shows G.I. due to square-
planar environment. and
even number double bond
containing allenes and
spiro system do not show
G.I. due to tetrahedral
→ 
When 2 double bonds are continuously
environment.
present in a system then it is called
allene system.
→ 
When more than 2 double bonds are
present in a system then it is called
cumulated dienes. Rack your Brain

Why is it easy to separate
geometrical isomers by physical
methods?

5. G.I. in spiro compound :
When two rings are fused at the same C-atom then it is called as spiro compound.
(Both rings are perpendicular to each other).

(1)
Isomerism

24.
 (2)

5. G.I. in Biphenyl and Triphenyl System :

In Biphenyl system each

Concept Ladder
ring must be attached
with different bulky group
(1) to exhibit G.I.
At R.R.S. both terminal
group must be in a same
plane.

(2)

Rack your Brain

Find out the total no. of Keto
oxime with the molecule formula
of C5H10O.
Isomerism

25.
 G.I. in endo-cyclic π-bond :
Minimum 8 carbon ring with double bond shows
geometrical isomerism.
Rack your Brain

Why G.I. do not exists for 3 to 7
membered ring?

NOTE : In case of endocyclic π-bond 8 to 11 membered ring. Cis form is more stable compare
to trans form and after 12 or 12 membered ring trans form is more stable compare to cis
form.

Nomenclature system for G.I. :
y Cis-trans system :
If two identical group at RRS on same side = cis
If two identical group at RRS on opposite side = trans

y Syn-Anti system :
Whenever one terminal or both terminals of RRS have lone pair then Syn-Anti system applied.
(1) Oximes :
(I) Aldoxime :
y If H & OH group both are on same side = Syn.
y If H & OH group both are on opposite side = Anti.

(II) Ketoxime :
y Unsymmetrical ketoxime gives G.I.
y Alphabetically preferred alkyl group & OH group on same side – Syn.
y Alphabetically preferred alkyl group & OH group both on opposite side – Anti.
Isomerism

26.
 Whenever all the groups are

Concept Ladder
different at both terminal of
RRS then the new system
Ex. Oximes are formed with the molecular E–Z applied.
formula of C3H6O is E → ENTGEGAN (Opposite
side)
Z → Zusamann (Same side)

Total = 3.
(2) Azo-compounds :

y Both I.P. on same side = Syn.
y Both I.P. on opposite side = Anti. Rack your Brain

(3) E–Z system : Find out the total no. of G.I.
CIP rule : Cohn, Ingold, Prolong with the molecular formula of
C2FClBrI.
Priority rules :
Rule-1 : Priority of atoms or groups is given as per the atomic number of atom which is
directly attached to terminal of R.R.S.

(1)

Rule-2 : If first rule fails then atomic number of next atom will be considered.
Isomerism

27.
 (2)

Rule–3 : If multiple bonds are present, then each will be analysed and designated as E or Z.

(3)

Rule–4 : If isotopes present, [Priority will be given as per the atomic mass]

(4)

Physical Properties
1. Dipole Moment : Degree of polarity will be measured by dipole moment.
Dipole moment is a vector quantity.
Isomerism

28.
 When diatomic angular

Concept Ladder
group is present at para-
(1)  position of benzene
molecule, angular
group forms infinite
conformations around
a single bond, so in this
case, mnet ≠ 0 (Non-zero).

(2)

Stronger the Van der
Concept Ladder

Waals forces higher the
B.P.

(3)

Previous Year’s Questions
2. Boiling point :
Key points : The dipole moment is the highest
B.P. ∝ Molecular weight (MW) for
1 [AIIMS]
B.P. ∝ (1) trans-2-butene
Branching
(2) 1,3-dimethylbenzene
B.P. ∝ Intermolecular forces of attraction (3) acetophenone
(4) ethanol
Isomerism

29.
 Ex.

(1)

(2)
Isomerism

30.
3. Melting Point
Key points :
M.P. ∝ Molecular weight
M.P. ∝ Packing efficiency (interlocking)
M.P. ∝ Symmetry of molecule
M.P. ∝ Branching

Like dissolves Like

Concept Ladder
Example of polar substances
protic is HCl in water
Example of non polar substances
is hexane in benzene

P.E : II > I
M.P : II > I

4. Solubility
G.I. having high dipole moment will be more soluble in polar solvent and
geometrical isomers having less dipole moment will be more soluble in
none-polar solvent.
p-nitrophenol > o-nitrophenol

5. No of Geometrical Isomerism Previous Year’s Questions
Types of Geometrical isomers
(1) Symmetrical System Which of the following has the
(2) Unsymmetrical system highest dipole moment?
[AIIMS]

(1) (2)

(3) (4)
Isomerism

31.
 GEOMETRICAL
SYSTEM
ISOMERISM

Unsymmetrical
2n
Compound

If n = even
2n-1 + 2(n/2)-1
Symmetrical
Compound
If n = odd
2­­n-1 + 2(n-1)/2

Ex. (1) CH3 − CH = CH − CH2 − CH3

G.I = 2n = 21 =2

(2) CH3 − CH = CH − CH = CH − CH2 − CH3
G.I = 2n = 22 =4

(3) CH3 − CH = CH − CH = CH − CH3 Previous Year’s Questions
Symmetrical even
n = 2 How many geometrical isomers
G.I = 2n-1 + 2(n/2)-1 = 3 are possible in the following two
alkenes?
(4) CH3 − CH = CH − CH = CH − CH = CH − CH3 (i) CH3–CH=CH–CH=CH–CH3
Symmetrical Odd (ii) CH3–CH=CH–CH=CH–Cl
n = 3 [AIIMS]
G.I = 2n-1 + 2(n-1)/2 = 6 (1) 4 and 4 (2) 4 and 3
(3) 3 and 3 (4) 3 and 4
(5) CH3 − CH − CH = CH − CH = CH2
|
CH3
G.I = 2n = 21 = 2
Isomerism

32.
Optical Isomerism
Optical isomers have non-superimposable mirror images of each other.
Each non-superimposable mirror image structure is called Enantiomers.
Ex.
Definitions

Compounds having same M.F.,
same structural formula but
different behavior towards PPL
are called optical isomers & this
phenomena is known as optical
isomerism.

Polarimeter experiment

Isomerism

33.
 In 2-D Representation

If rotation of light is anticlock wise → laevo
rotatory (l-form) Previous Year’s Questions
If rotation of light is clock wise → dextro
rotatory substance (d-form) Which one of the following pairs
If there is no rotation of light then substance represents stereoisomerism?
is called optically inactive. [NEET]
(1) Structural isomerism and
Compound is optically inactive if : geometrical isomerism
y Compound does not give optical isomerism — (2) Optical isomerism and geometrical
Achiral molecule. isomerism
y Compound give optical isomerism but (3) Chain isomerism and rotation
optically inactive — compound. isomerism
y Compound may be equimolar mixture of ‘d’ & (4) Linkage isomerism and
‘l’ isomers — Racemic mixture. geometrical isomerism

Some important terms
y Optically active compounds : Compounds
which are capable to rotate PPL.
y Optically inactive compounds : Compounds
which are not capable to rotate PPL.
y Chiral molecule : Unsymmetrical molecule is
known as chiral molecule.
Rack your Brain
y Achiral molecule : Symmetrical molecule is
known as achiral molecule.
How to determine optical rotation
○ All achiral molecules are optically inactive
of a molecule that consist of one
molecule.
chiral carbon?
Isomerism

34.
y Chiral centre (C.C) : An sp3-
hybridised atom which have all 4
different groups is known as C.C
(asymmetric centre).
○ Chiral centre is not a necessary
condition for a compound to be
optically active (optical activity).
○ Generally if compound has only
one chiral centre then compound
is optically active (Except –
Amine flipping).

An sp3 → (C, N, O, P, S)

(1)
Previous Year’s Questions

Which of the following is a chiral
compound?
[AIIMS]
(2)
(1) Hexane
(2) n-Butane
(3) Methane
(4) 2,3,4-Trimethylhexane

(3)
Isomerism

35.
 (4)

Chiral → unsymmetrical → optically active

Concept Ladder
Achiral → symmetrical → optically inactive

(5)  

(6)

Previous Year’s Questions

Which of the following alkanes is
(7) optically active?
[AIIMS]
(1) 3-Methylhexane
(2) Propane
(3) 2,3,4-Trimethylpentane
(4) 2-Methylbutane
(8)

Rack your Brain

(9)
Why chiral molecules are optically
active?

(10)
Isomerism

36.
(11)

Rack your Brain

(12) What are the conditions for a
molecule to be optically active?

Conditions for Optical activity
Condition 1 : If a compound has only one chiral center then chiral centre is sufficient
condition for a molecule to be optically active (optical activity).
Condition 2 : If a compound has more than one chiral centre then chiral centre is not a
sufficient condition for a molecule to be optically active, in this case the whole molecule
must be chiral or unsymmetrical for a molecule to be optically active.
Ex. 1

Previous Year’s Questions

Which of the following molecule is
not chiral?
[AIPMT]
(1) 2-butanol
(2) 2,3-dibromo pentane
(3) 3-bromo pentane
(4) 2-hydroxy propanoic acid

For a molecule to be optically active compounds positions must be different.
Compound and its mirror image both are non-superimposable optically active.
Isomerism

37.
 Symmetry elements
(i) COS — Centre of symmetry
(ii) POS — Plane of symmetry
(iii) AOS — Axis of symmetry

(i) Centre of Symmetry (COS)
It is an imaginary point situated at the centre of molecule from the centre if we draw a
straight line then they will meet at same atom, same distance but in opposite direction
then molecule has COS.

(1) (2) (3)

(4) (5) (6)

(7)   (8) (9)
Isomerism

38.
Key Points
(1) COS is different in odd number of atom Rack your Brain
containing ring.
(2) COS is different in cis isomers.
Which geometrical isomer will
(3) COS is different in all the molecules which
exhibit COS in case of 2-butene?
can form tetrahedral environmental.

(ii) Plane of Symmetry (POS)
It is an imaginary plane, passing through a molecule which can bisect a molecule into
two equal halves & both half are mirror image of each other. Such plane is known as
POS.

(1) (2)

(3)

Rack your Brain

Find out total no. of symmetry
present in cubane.
(4)

Optically active d or l tartaric acid
Not mirror images.
Isomerism

39.
 (5) (6)

(7)

NOTE : Chiral center is not a necessary condition for a compound to be optically
active.

(8) (9)
Isomerism

40.
 (10)

Molecule POS
Every planar molecule will have POS along the plane in which they exist called as
molecular POS.
Here molecular POS is represented by flag.

(1) (2)

(3) (4)

(5) (6)
Isomerism

41.
 (iii) Axis of symmetry
If new images are obtained by rotation of a molecule by an angle ‘θ’ about an axis passing
through a molecule thus it gets similar orientation, then molecule has AOS.
360°
θ=
n
Here n → fold of axis

(1) (2)

For a molecule to be
Concept Ladder

(3) optically active COS &
POS should be different.

Polarimeter Experiment
Optical activity of a molecule can be predicted
at the plane of paper by difference of COS
& POS, but direction of rotation & angle of
rotation is experimental value & measured by
polarimeter [dextro & levo].

Specific Rotation
Specific rotation given information about αobserved
α specific =
optical strength of a molecule whenever length LC
Concept Ladder

of polarimeter tube is 1 dm3 & concentration of
L → length of polarimeter
solution is 1 gm/ml then the observed rotation
tube (taken in dm)
is specific rotation.
C → concentration of
αspecific × L.C
αobserved = solution (taken gmL–1)
cons tan t
 αspecific =

∴ αobserved =L.C
Isomerism

42.
Factors affecting angle of rotation (α observed)
(1) Length of polarimeter tube Rack your Brain

αobserved ∝ l , l ↑, αobserved ↑
A sample of (+)-2-chloropentane
(2) Concentration of solution has an optical purity of 56%.
αobserved ∝ C , C ↑, αobserved ↑ What % of this sample is
(–)-2-chloropentane?
(3) Solvent
Solvent must be chemically & optically inert.
(4) Temperature
Polarimeter experiment carried out at room
temperature.
(5) Source of light
Generally Na lamp used ( λ =589 Å )

Meso Compound
y Optical isomers having chiral center more
than one, with symmetrical elements (COS &
POS) is Meso. Definition
y Meso compound give optical isomerism but
optically inactive. Meso compounds are achiral
y Mirror image of Meso compound represent its compounds that have multiple
identical molecule. chiral center and they are
y Meso compound is optically inactive due to superimposed on their mirror
internal compensation or intro-molecular images.
neutralization or molecular symmetry.
y Meso is achiral compound.
y Meso compound cannot have enantiomers.

(1)

Rack your Brain

Why meso compound are
optically inactive?
Isomerism

43.
 (2)

(3)

Previous Year’s Questions

Among the following which one
can have a meso form?
[AIIMS]
(1) CH3CH(OH)CH(Cl)C2H5
(2) CH3CH(OH)CH(OH)CH3
(3) C2H5CH(OH)CH(OH)CH3
(4) HOCH2CH(Cl)CH3
Isomerism

44.
 Enantiomers
y Enantiomers have different behavior toward Definitions
each other.
y Enantiomers have same physical property. Enantiomers are chiral
molecules that are mirror
images of each other.

Enantiomers with optically
(1)
Concept Ladder active compound will be
different in comparsion
to optically inactive
compound which are
same..

Rack your Brain

Why specific rotation of
(2)
enantiomers have same
magnitude but different sign?

Previous Year’s Questions

Which of the following compounds
may not exist as enantiomers?
[AIPMT]
(1) CH3CH(OH)CO2H
(3) (2) CH3CH2CH(CH3)CH2OH
(3) C6H5CH2CH3
(4) C6H5CHClCH3
Isomerism

45.
 Racemic Mixture
y Racemic mixture is a resolvable mixture,
separation of d & l isomers is known as optical
resolution.
y A racemic modificationi s always optically
inactive when enantiomers are mixed together, Definition
the rotation caused by a molecule of one A mixtrue of equal amounts of
enantiomer is exactly cancelled by an equal enantiomers is called a racemic
and oposite rotation caused by a molecule of mixture.
its enantiomers.
Isomerism

46.
(1) d = 50% and l = 50%
R.M. = 100%
Optical Purity (O.P.) = 0%

(2) d = 100% and l = 0%
R.M. = 0%
O.P. = 100%

(3) d = 80% and l = 20%
R.M. = 40% Rack your Brain
O.P. = 60%
Net rotation = dextro Why racemic mixture is optically
inactive?
(4) d = 60% and l = 40%
R.M. = 20%
O.P. = 80%
Net rotation = dextro
Isomerism

47.
 Diastereomers
y Diastereomers have different physical property
Definition
and separated by functional distillation.
y Diastereomers have different specific rotation.
Diastereomers are
y Diastereomers may have optically active or
stereoisomers which are non
inactive compounds.
mirror images of each other.

Rack your Brain
(1)
Why Diastereomers are easily
seprated by physical method?

All geometrical isomers
show diasteromerism
Concept Ladder

but all diastereomers do
(2) not show geometrical
isomerism.

(3)
Isomerism

48.
 Epimers
y One of a pair of stereoisomers that differ in the Definition
absolute configuration of a single stereocenter.
When the molecule has only one stereocenter then Two monosaccharide different
the epimers are enantiomers. When the molecule form each other in their
has two or more stereocenters then the epimers configuration around a single
are diastereomers. specific carbon is known as
y Epimerization is the interconversion of one epimer epimer of each other.
to the other epimer

All epimers are
Concept Ladder

diasteromers but all
diastereomers are not
epimers.
Isomerism

49.
 Representation of Optical isomers
1. Wedge – Dash formula (3D)

3D Form of ethane

Concept Ladder
(i) Lactic Acid

(ii) Tartaric Acid

Isomerism

50.
 2. Fischer Projection Formula (2D)
y Fisher projection is a 2D plane projection
formula. In FPF, vertical line groups

Concept Ladder
y In it one is vertical plane (only one) & other is represent away from the
horizontal plane (one or more than one). viewer & Horizontal groups
y In it C-chain always in vertical line & top most represents towards
figure at top position of vertical line. the viewer and Fischer
y Fischer is a map of molecule. Projection is always
y Fischer projection represent tetravalency. formed in eclipsed form.

Conversion of different projection formula
1. Wedge Dash into Fischer projection formula

(i)

(ii)

NOTE : When an atom or group of atom is moved form vertical board’s plane. then wedge
group comes at its place.

2. Fischer projection into Wedge Dash formula

Statement 1 : If Fischer projection formula is
rotated by 180° at the plane of paper then it
represents its identical molecule.
Isomerism

51.
 Statement 2 : If Fischer projection formula is
kept fixed at one unit, rest all 3 units rotated
in clockwise or anticlockwise direction then it
represents its identical molecule.

Q. Find out relation in given compounds.

(1)

(2)

(3)
Isomerism

52.
 (4) ≡ Identical

Configuration of Optical Isomerism’s D & L have enantiomeric

Concept Ladder
(1) D/L configuration (Relative configuration) relation and they are
(2) R/S configuration (Absolute configuration) not valid for symmetric
system.
(1) D/L Configuration
Carbohydrate : Polyhydroxy aldehyde or ketonic
compound with mini one chiral compound is
known as carbohydrate.

y D & L configuration is standard relative
configuration of glyceraldehyde. There is no
relation with d and l isomers (optical activity).
y D & L configuration valid for carbohydrate and Previous Year’s Questions
amino acid like structure.
Among the following L-serine is:
[AIIMS]

(1)

(2)

y If at last C.C −OH / NH2 group on right side = D (3)

y If at last C.C −OH / NH2 group on left side = L

(4)
Isomerism

53.
 Rack your Brain

Will cylic form of D/L
(1) (2)
configuration exists for a
molecule?

(3)
Previous Year’s Questions

The absolute configuration of the
following compound is :

[AIIMS]
(2) R/S Configuration

(1) 2S, 3R (2) 2S, 3S
Give conformation about arrangement of unit at (3) 2R, 3S (4) 2R, 3R
C.C not rotation of PPL (d & l).

(a) R/S Configuration in Fisher Projection
Formula
y Assign the priority according to CIP rule (E/Z
configuration)
y [Priority of atom group ∝ Atomic Number]
y In Fischer projection formula, if lower priority If the 4th priority group is
group (4) present away from viewer (vertical line) present in horizontal line
Concept Ladder

then clockwise direction is in 'R' configuration then we move our eyes
and in anticlockwise direction is 'S' configuration. from 1 → 2 → 3 , hence
configuration is
Isomerism

54.
y If lowest priority group present towards the
viewer (Hg line) then the real orientation just
opposite to the observed orientation.

Always go through → 1 → 2 → 3
if lowest priority (4) presents in between ignore it.

If the 4th priority group
is present in vertical line

Concept Ladder
(1)
then we move our eyes
from 1 → 2 → 3 , hence
configuration is

(2)

Previous Year’s Questions

Correct configuration of the
(3) following is

[AIIMS]

(1) 2S, 3R (2) 2S, 3S
(3) 1R, 2S (4) 2R, 3R
Isomerism

55.
 (b) R/S Configuration in Wedge-desh Formula
y Rules of R/S configuration in Fisher & Wedge desh
formula → same – same.
y If lowest priority group 4 present at dash line then When lowest priority group
is not present on wedge or

Concept Ladder
dash line then we fix 1 unit
and move another three
units in clockwise and
anti-clockwise direction
and bring it to wedge or
dash line.

(1)

Previous Year’s Questions
(2)
The absolute configuration of the
following compound is :

[AIPMT]

(1) E (2) R
(3)
(3) S (4) Z
Isomerism

56.
Relation between different compounds

COMPOUND 1 COMPOUND 2 RELATION

1. R R Identical/Homomers

2. S S Identical/Homomers

3. R S Enantiomers

4. RR SS Enantiomers

Enantiomers (If unsymmetric)
5. RS SR
Meso (if symmetric)

6. RR RS Diastereomers

Isomerism

57.
 Threo and Erythro System

(2)
Rack your Brain

Why amines are not chiral?

Amine Flipping
Amine inversion also called umbrella inversion.

Previous Year’s Questions

Which of the following may exist
in enantiomorphs
[AIPMT]
(1)
(1)

(2)

(3)

(4)

(2)
Isomerism

58.
 Previous Year’s Questions

(3) Find the number of stereoisomers
of 1,2-dihydroxycyclopentane.
[AIIMS]
(1) 1 (2) 2
(3) 3 (4) 4

No. of Optical Isomers

NO. OF OPTICALLY ACTIVE MESO

Unsymmetrical Compound 2n/2 = no. of stereogenic unit Zero

If n = even n
−1
2n – 1 22

Symmetrical Compound
If n = odd n− 1
n− 1
2 2
2n− 1
−2 2

O
||
(1) CH3 − CH − C− H
|
OH
unsymmetrical
Isomerism

59.
 No. of stereo = 2n = 21 = 2
(a) Total no. of optically active isomers = 2
(b) Total no. of optically inactive isomers = 2
(c) Total no. of meso = 0
(d) Total no. of enantiomeric pair = 1

(2) CH3 − CH − CH − CH3
| |
Cl Br

Unsymmetrical
n=2
no. of stereo = 2n = 22 = 4

(3) Glucose
Previous Year’s Questions

How many stereoisomers does
this molecule have
CH3CH=CHCH2CHBrCH3
[AIPMT]
(1) 8 (2) 2
(3) 4 (4) 6

n=4
no. of stereo = 2n = 24 = 16
(4) CH3 − CH − CH = CH − CH2 − CH3
|
Cl
Unsymmetrical
n=2
no. of stereo = 2n = 22 = 4
n = no. of stereogenic unit (G.I. + O.I.)
Isomerism

60.
Summary

Š Structural Isomerism is the type of isomerism in which one of two or more compounds
have same number of compounds but different in their arrangement.
Š Structural Isomers are classified into chain, position, functional group, metamers
and tautomers.
Š Stereoisomers are the compounds having same molecular formula but having unlike
spatial arrangement.
Š Number of stereoisomers = 2n
Š Geometrical (Cis/Trans) Isomerism also known as Configurational Isomerism.
Š Compounds having same M.F., same structural formula but different behavior
towards PPL are called optical isomers & this phenomena is known as optical
isomerism.
Š A number of stereoisomers which are formed due to free rotation around a single
bond is known as conformations and this isomerism is known as conformational
isomerism.
Š Chiral compounds are unsymmetrical compounds where carbon is bonded with
Isomerism

4 different groups.
Š Chiral compounds are optically active and Achiral are optically inactive.

61.