Organic Chemistry Lecture 4 PDF

Summary

This document is a lecture on organic chemistry, specifically focusing on alkanes, combustion analysis, free radical halogenation, and cycloalkanes. The lecture includes definitions, equations, and mechanisms, as well as past paper questions and examples.

Full Transcript

CHEM 0901

ORGANIC CHEMISTRY
LECTURE 4
Lecture Outline

 Reactions of alkanes
 Combustion analysis of hydrocarbons
 Free radical halogenation
 Reaction of methane with chlorine
 Reactions of higher alkanes (product ratio/ radical
stability)
 Cycloalkanes
 Double bond equivalents: concept and
calculations
Reactions of alkanes

 Bonds are non-polar, covalent so alkanes are
relatively inert
 Alkanes do not react with most acids, bases or
reducing agents
Reactions of alkanes

 Alkanes are used as fuel
 Heat is evolved in the process
 This is an oxidation reaction

 Combustion is the process of
burning and is accompanied by
the release of light and heat.
CH4 + 2O2 CO2 + 2H2O + heat
Reactions of alkanes
 Combustion analysis

 Gay-Lussac Law
 Volumes of gases taking part in chemical
reaction bear a simple numerical
relationship to one another if all
measurements are done at STP.
 Avogadro Law
 Equal volumes of all gases under the
same conditions of temp and pressure
contain the same number of molecules

CxHy + x + y/4 O2 x CO2 + y/2 H2O
Combustion analysis of
hydrocarbons
 A known volume of the hydrocarbon is reacted
with a known volume of oxygen. The volume
occupied by the products and unreacted oxygen
is measured after cooling.
 What are the products?

 This method can be used to determine the
molecular weight of an alkane
 Problem question
 Twenty mL of a gaseous hydrocarbon was
combusted with 200 ml oxygen. After
cooling, the residual gases occupied 160
mL. Eighty ml of the mixture was found to
be carbon dioxide. Determine the
molecular formula of the hydrocarbon.

CxHy + x + y/4 O2 x CO2 + y/2 H2O
Past Paper Question

 1997
 A gaseous hydrocarbon X of volume 15
cm3 was mixed with oxygen to give a total
volume of 145 cm3. After combustion and
cooling, the residual gas occupied 100
cm3. One fourth of the gas remained after
it was passed through aqueous sodium
hydroxide. Determine the molecular
formula of the hydrocarbon. (All
measurements were made at STP)
(10 marks)
 Determination of molecular
formulae using percent
composition
 The percent composition (the percent
by mass) of the elements in a sample
may be obtained experimentally and is
used to determine the empirical and
molecular formula of a compound.
 The empirical formula is a chemical formula
that indicates the relative proportions of the
elements in a molecule rather than the
actual number of atoms.
Percent composition of an element = n x molar mass of element
X 100%
molar mass of compound

n = no. of moles of element/ mole of compound
 Determination of molecular
formulae using percent
composition
Example from Past Paper, December
2000
 Liquid hydrocarbon G is composed of
12.27% hydrogen. Determine the
molecular formula of this compound.
Mass Convert to grams Moles of Divide by the Mole ratios
percent and divide by each element smallest number of elements
molar mass of moles
Convert to
whole numbers
Empirical formula
Free radical halogenation

 Reaction of methane with chlorine
 Initiation

 Propagation

 Termination

CH3 CH3CH2 (CH3)2CH (CH3)3C

methyl 1o 2o 3o

Increasing stability
 Multiple substitution reactions
H H

Monohalogenation H C H + Cl2 H C Cl + H Cl

H H

H H

Dihalogenation H C Cl + Cl2 H C Cl + H Cl

H Cl

H H

Trihalogenation H C Cl + Cl2 Cl C Cl + H Cl

Cl Cl

H Cl

Tetrahalogenation Cl C Cl + Cl2 Cl C Cl + H Cl

Cl Cl
 Reactions with Alkanes
Free radical halogenation of alkanes
Br
h
R CH CH3 + Br2 R C CH3 + R CH CH2Br
or
 CH3
CH3 CH3
o
major (3 ) minor (1o)

F2 – explosive
Cl2/Br2 – diffused light or heat
I2 - unreactive
 MECHANISM

INITIATION..Br
Br Br Br +.
R R
PROPAGATION. C
Br + H C CH3 H Br + CH3

CH3 CH3

R

+.
R

Br Br C CH3 Br C CH3 + Br.
CH3 CH3

TERMINATION..Br
Br + Br Br.
R R

H3C C +.Br H3C C Br

CH3 CH3

R R.+.
R R

C CH3 H3C C C CH3
H3C C

CH3 CH3 CH3
CH3
 Reaction selectivity
Bromine is more selective than either chlorine or fluorine

CH 3 CH 3 CH 3
H2 Cl2, hv H2 H2
H3C C C CH 3 H3C C C CH 2Cl + H3C C C CH 3

H H Cl

CH 3 CH 3
H2 H
ClH2C C C CH 3 + H3C C C CH 3

H Cl H

CH3 CH3 H CH3
H2 Br2, light H2
H3C C C CH3 H3C C C CH3 + H3C C C CH2Br

H Br H H

high yield

low yield
 Free Radicals in Diseases
Thought to contribute to various human diseases
Most age-related diseases can be explained through
reactions of free radicals with biological substances.
– cancer [carcinogenesis]
– Strokes
– Alzheimer's disease
– Rheumatoid arthritis
– Parkinson’s disease
– Development of Cataracts
Past Paper Question

July/ August 2004
 2-Methylpropane when heated with
bromine in the presence of light
produces 2-bromo-2-methylpropane
(>99%) and 1-bromo-2-
methylpropane(