Hydrocarbons PDF

Summary

This document provides a detailed explanation of hydrocarbons, focusing on the addition reactions of hydrogen halides. It covers symmetrical and unsymmetrical cases and describes the mechanism involved, including Markovnikov's rule. It's a valuable resource for students learning organic chemistry.

Full Transcript

Hydrocarbons 311

normal conditions. The reddish orange
colour of bromine solution in carbon
tetrachloride is discharged when bromine
adds up to an unsaturation site. This
reaction is used as a test for unsaturation.
Addition of halogens to alkenes is an
example of electrophilic addition reaction
involving cyclic halonium ion formation (9.42)
which you will study in higher classes. Markovnikov, a Russian chemist made a
generalisation in 1869 after studying such
reactions in detail. These generalisations
led Markovnikov to frame a rule called
Markovnikov rule. The rule states that
negative part of the addendum (adding
(9.38) molecule) gets attached to that carbon atom
which possesses lesser number of hydrogen
atoms. Thus according to this rule, product
I i.e., 2-bromopropane is expected. In actual
practice, this is the principal product of the
reaction. This generalisation of Markovnikov
(9.39) rule can be better understood in terms of
mechanism of the reaction.
3. Addition of hydrogen halides: Hydrogen
halides (HCl, HBr,HI) add up to alkenes Mechanism
to for m alkyl halides. The order of Hydrogen bromide provides an electrophile,
+
reactivity of the hydrogen halides is H , which attacks the double bond to form
HI > HBr > HCl. Like addition of halogens carbocation as shown below :
to alkenes, addition of hydrogen halides is
also an example of electrophilic addition
reaction. Let us illustrate this by taking
addition of HBr to symmetrical and
unsymmetrical alkenes
Addition reaction of HBr to symmetrical
alkenes
(a) less stable (b) more stable
Addition reactions of HBr to symmetrical
primary carbocation secondary carbocation
alkenes (similar groups attached to double
bond) take place by electrophilic addition (i) The secondary carbocation (b) is more
mechanism. stable than the primary carbocation
(a), therefore, the former predominates
CH2=CH2+H–Br CH3–CH2–Br (9.40)
because it is formed at a faster rate.
–
CH3–CH=CH–CH3+HBr CH3–CH–CHCH3 (ii) The carbocation (b) is attacked by Br ion
to form the product as follows :
Br
(9.41)

Addition reaction of HBr to unsymmetrical
alkenes (Markovnikov Rule)
How will H – Br add to propene ? The two 2-Bromopropane
possible products are I and II. (major product)

2024-25

Unit 9.indd 311 10/27/2022 2:19:43 PM
 312 chemistry

Anti Markovnikov addition or peroxide
effect or Kharash effect
In the presence of peroxide, addition of HBr
to unsymmetrical alkenes like propene takes
place contrary to the Markovnikov rule. This
happens only with HBr but not with HCl
The secondary free radical obtained in the
and Hl. This addition reaction was observed
above mechanism (step iii) is more stable than
by M.S. Kharash and F.R. Mayo in 1933 the primary. This explains the formation of
at the University of Chicago. This reaction 1-bromopropane as the major product. It may
is known as peroxide or Kharash effect be noted that the peroxide effect is not observed
or addition reaction anti to Markovnikov in addition of HCl and HI. This may be due
rule. to the fact that the H–Cl bond being
–1
(C6H5CO)2O2 stronger (430.5 kJ mol ) than H–Br bond
CH3 – CH=CH2+HBr CH3–CH2 –1
(363.7 kJ mol ), is not cleaved by the free
radical, whereas the H–I bond is weaker
CH2Br –1
(296.8 kJ mol ) and iodine free radicals
1–Bromopropane combine to form iodine molecules instead of
adding to the double bond.
(9.43)

Mechanism : Peroxide effect proceeds via Problem 9.12
free radical chain mechanism as given below: Write IUPAC names of the products
obtained by addition reactions of HBr to
(i)
hex-1-ene
(i) in the absence of peroxide and
(ii) in the presence of peroxide.

Solution. Homolysis.
(ii) C 6H5+H–Br C6H3+ B r

4. Addition of sulphuric acid : Cold
concentrated sulphuric acid adds to
alkenes in accordance with Markovnikov
rule to form alkyl hydrogen sulphate by
the electrophilic addition reaction.

2024-25

Unit 9.indd 312 10/10/2022 10:37:56 AM
 Hydrocarbons 313

ketones and/or acids depending upon the
nature of the alkene and the experimental
conditions

(9.49)
+
KMnO4/H
CH3 – CH=CH–CH3 2CH3COOH
(9.44) But-2-ene Ethanoic acid
(9.50)
7. Ozonolysis : Ozonolysis of alkenes
involves the addition of ozone molecule to
alkene to form ozonide, and then cleavage
of the ozonide by Zn-H 2O to smaller
molecules. This reaction is highly useful
in detecting the position of the double
(9.45) bond in alkenes or other unsaturated
5. Addition of water : In the presence of a compounds.
few drops of concentrated sulphuric acid
alkenes react with water to form alcohols,
in accordance with the Markovnikov rule.

(9.51)
(9.46)
6. Oxidation: Alkenes on reaction with cold,
dilute, aqueous solution of potassium
permanganate (Baeyer’s reagent) produce
vicinal glycols. Decolorisation of KMnO4
solution is used as a test for unsaturation.

(9.52)
(9.47) 8. Polymerisation: You are familiar with
polythene bags and polythene sheets.
Polythene is obtained by the combination
of large number of ethene molecules at
high temperature, high pressure and
in the presence of a catalyst. The large
molecules thus obtained are called
(9.48) polymers. This reaction is known as
b) Acidic potassium permanganate or acidic polymerisation. The simple compounds
potassium dichromate oxidises alkenes to from which polymers are made are called

2024-25

Unit 9.indd 313 03-05-2024 16:08:51
 314 chemistry

monomers. Other alkenes also undergo are named as derivatives of the corresponding
polymerisation. alkanes replacing ‘ane’ by the suffix ‘yne’.
High temp./pressure
n(CH2 =CH2) Catalyst
—( CH2–CH2 —
) The position of the triple bond is indicated
Polythene by the first triply bonded carbon. Common
and IUPAC names of a few members of alkyne
(9.53) series are given in Table 9.2.
n(CH3 –CH=CH2)
High temp./pressure
—(CH–CH2 —
)n You have already learnt that ethyne and
Catalyst
propyne have got only one structure but
there are two possible structures for butyne –
CH3
(i) but-1-yne and (ii) but-2-yne. Since these
Polypropene two compounds differ in their structures
(9.54) due to the position of the triple bond, they
Polymers are used for the manufacture of plastic are known as position isomers. In how
bags, squeeze bottles, refrigerator dishes, toys, many ways, you can construct the structure
pipes, radio and T.V. cabinets etc. Polypropene for the next homologue i.e., the next alkyne
is used for the manufacture of milk crates, with molecular formula C5H8? Let us try to
plastic buckets and other moulded articles. arrange five carbon atoms with a continuous
Though these materials have now become chain and with a side chain. Following are the
common, excessive use of polythene and possible structures :
polypropylene is a matter of great concern for Structure IUPAC name
all of us. 1 2 3 4 5
I. HC≡ C– CH2– CH2– CH3 Pent–1-yne
9.4 Alkynes 1 2 3 4 5
Like alkenes, alkynes are also unsaturated II. H3C–C≡ C– CH2– CH3 Pent–2-yne
hydrocarbons. They contain at least one triple 4 3 2 1
bond between two carbon atoms. The number III. H3C–CH–C≡ CH 3-Methyl but–1-yne
|
of hydrogen atoms is still less in alkynes as
CH3
compared to alkenes or alkanes. Their general Structures I and II are position isomers
formula is CnH2n–2. and structures I and III or II and III are chain
The first stable member of alkyne series isomers.
is ethyne which is popularly known as
acetylene. Acetylene is used for arc welding Problem 9.13
purposes in the form of oxyacetylene flame Write structures of different isomers
th
obtained by mixing acetylene with oxygen corresponding to the 5 member of
gas. Alkynes are starting materials for a large alkyne series. Also write IUPAC names of
number of organic compounds. Hence, it all the isomers. What type of isomerism
is interesting to study this class of organic is exhibited by different pairs of isomers?
compounds.
Solution
9.4.1 Nomenclature and Isomerism th
5 member of alkyne has the molecular
In common system, alkynes are named as formula C6H10. The possible isomers are:
derivatives of acetylene. In IUPAC system, they
Table 9.2 Common and IUPAC Names of Alkynes (CnH2n–2)

Value of n Formula Structure Common name IUPAC name
2 C2H2 H-C≡CH Acetylene Ethyne
3 C3H4 CH3-C≡CH Methylacetylene Propyne
4 C4H6 CH3CH2-C≡CH Ethylacetylene But-1-yne
4 C4H6 CH3-C≡C-CH3 Dimethylacetylene But-2-yne

2024-25

Unit 9.indd 314 10/27/2022 2:18:58 PM