Presentation is loading. Please wait.

Presentation is loading. Please wait.

13 – Reaction Mechanisms Leaving Certificate Chemistry Organic Chemistry.

Published byAlfred Marsh Modified over 8 years ago

Similar presentations

Presentation on theme: "13 – Reaction Mechanisms Leaving Certificate Chemistry Organic Chemistry."— Presentation transcript:

1 13 – Reaction Mechanisms Leaving Certificate Chemistry Organic Chemistry

2 The conversion of an alkane to a chloroalkane A free radical mechanism

3 chemical reactions of the alkanes Reaction with Chlorine Formation of the Chloroalkanes A substitution reaction involving ultraviolet light 2003 Q. 6 (b) (3) 2005 Q. 7(b) (3)

4 Mechanism of the reaction How does this reaction happen and How do we know?

5 The initiation (starting) step Fact: The reaction needs heat of over 300 o C or the presence of UV light to happen This input of energy allows the reaction: Cl 2 2Cl. Chlorine free radicals This is called homolytic fission ( equal splitting) Two chlorine free radicals (chlorine atoms with an unpaired electron each) are made for each photon of light.

6 Cl Initiation Ultraviolet light splits chlorine molecules into extremely reactive chlorine free atoms

7 The propagation (repeating middle steps) Fact: Hydrogen chloride is a major product of this reaction Reaction 1: Cl. + CH 4 HCl + CH 3. Hydrogen chloride is formed A methyl free radical is formed

8 Cl C H HH H Hydrogen Chloride formed Methyl Radical

9 The propagation ( repeating middle steps) Fact: Chloromethane is a major product of this reaction. Reaction 2: CH 3. + Cl 2 CH 3 Cl + Cl. Chloromethane is formed A new chlorine free radical is formed – which can go on to cause more propagation steps to happen. These middle steps are called a chain reaction

10 Cl Initiation Ultraviolet light splits chlorine molecules into extremely reactive chlorine free atoms C H HH H Hydrogen Chloride formed Methyl Radical Cl Chloromethane formed 2007 Q. 11(b) (19)

11 The termination (ending) steps Fact: The reaction can’t go on forever as the reactants run out Ethane is a minor product of the reaction How the reaction eventually stops… 1.Cl. + CH 3. CH 3 Cl 2.CH 3. + CH 3. C 2 H 6 3.Cl. + Cl. Cl 2 More chloromethane is formed A small amount of ethane is also formed

12 Cl Chlorine formed H3CH3CCH 3 Ethane (C 2 H 6 ) formed H3CH3CCl Chloromethane formed Termination Steps

13 Evidence for this mechanism 1. No reaction will occur in the absence of ultraviolet light. If irradiation is stopped the speed of the reaction slows down 2. The formation of ethane (C 2 H 6 ) in the reaction of methane with chlorine provides evidence of the formation of methyl radicals (CH 3 ) 3. Addition of a radical promoter (like tetraethyl lead) speeds up the reaction.

14 Recap - The reaction of methane with chlorine C H H H H Cl Methane Chlorine Chloromethane Hydrogen chloride In the presence of ultraviolet light

15 Cl Initiation Ultraviolet light splits chlorine molecules into extremely reactive chlorine free atoms C H HH H Hydrogen Chloride formed Methyl Radical Cl Chloromethane formed 2007 Q. 11(b) (19)

16 Cl Chlorine formed H3CH3CCH 3 Ethane (C 2 H 6 ) formed H3CH3CCl Chloromethane formed Termination Steps

17 Class activity Try to work out the mechanism for the reaction between ethane and chlorine. Include the iniation, propagation and termination steps. Facts: It is a substitution reaction UV light is needed for the reaction to happen at room temperature The main products are Chlorine and chloroethane. A minor product is butane

18 The reaction of ethane with chlorine C H H H C H H H Cl Ethane Chlorine Chloroethane Hydrogen chloride In the presence of ultraviolet light 2003 Q. 6 (d) (9)

19 The initiation (starting) step Fact: The reaction needs heat of over 300 o C or the presence of UV light to happen This input of energy allows the reaction: Cl 2 2Cl. Chlorine free radicals This is called homolytic fission ( equal splitting) Two chlorine free radicals (chlorine atoms with an unpaired electron each) are made for each photon of light.

20 The propagation ( repeating middle steps) Fact: Hydrogen chloride is a major product of this reaction Reaction 1: Cl. + C 2 H 6 HCl + C 2 H 5. Hydrogen chloride is formed An ethyl free radical is formed

21 The propagation ( repeating middle steps) Fact: Chloroethane is a major product of this reaction. Reaction 2: C 2 H 5. + Cl 2 C 2 H 5 Cl + Cl. Chloroethane is formed A new chlorine free radical is formed – which can go on to cause more propagation steps to happen. These middle steps are called a chain reaction

22 The termination (ending) steps Fact: The reaction can’t go on forever as the reactants run out Ethane is a minor product of the reaction How the reaction eventually stops… 1.Cl. + C2H 5. C2H 5 Cl 2.C 2 H 5. + C 2 H 5. C 4 H 10 3.Cl. + Cl. Cl 2 More chloroethane is formed A small amount of ethane is also formed

23 Cl C H H H C H H H Hydrogen Chloride formed Cl Ethyl free radical formed Chloroethane formed

24 Cl Chlorine formed H5C2H5C2 C2H5C2H5 Butane (C 4 H 10 ) formed H5C2H5C2 Cl Chloroethane formed Termination Steps

25 Evidence for this mechanism 1. No reaction will occur in the absence of ultraviolet light. If irradiation is stopped the speed of the reaction slows down 2. The formation of butane (C 4 H 10 ) in the reaction of ethane with chlorine provides evidence of the formation of ethyl radicals (C 2 H 5 ) 3. Addition of a radical promoter (like tetraethyl lead) speeds up the reaction.

26 The conversion of an alkene to a chloroalkane Ionic Addition

27 Addition of Hydrogen Chloride CC H H H H Ethene HCl Hydrogen Chloride C H H H C H Cl H Chloroethane

28 C H H C HH H Cl ∂+ ∂― Region of high electron density (negative charge) The polar Hydrogen Chloride molecule becomes further polarised on approach to the double bond A pair of electrons moves out from the double bond to form a covalent bond with hydrogen Ethenechloroethane formed

29 How do we represent this on paper?

30 C H H C HH Ethene H Cl ∂+ H Cl ∂- Chloroethane formed

31 Addition of Chlorine CC H H H H Ethene Cl 2 Chlorine C H H Cl C H H 1, 2 - dichloroethane Industrially Important As 1, 2 – dichloroethane is used to make chloroethene which is the raw material for the important plastic PVC (polyvinylchloride)

32 C H H C HH Cl Region of high electron density (negative charge) The nonpolar chlorine molecule becomes polarised on approach to the double bond A pair of electrons moves out from the double bond to form a covalent bond with one of the chlorines Ethene1, 2 - dichloroethane formed

33 How do we represent this on paper?

34 C H H C HH Ethene Cl ∂+ Cl ∂- 1, 2 - dichloroethane formed

35 Addition of Bromine CC H H H H Ethene Br 2 Bromine C H H Br C H H 1, 2 - dibromoethane Industrially Important As 1, 2 – dibromoethane is used to prevent lead accumulating in car engines

36 C H H C HH Br Region of high electron density (negative charge) The nonpolar bromine molecule becomes polarised on approach to the double bond A pair of electrons moves out from the double bond to form a covalent bond with one of the bromine atoms Ethene1, 2 - dibromoethane formed 2006 Q. 9(c) (9)

37 How do we represent this on paper?

38 C H H C HH Ethene Br ∂+ Br ∂- 1, 2 - dibromoethane formed

39 2003 Q. 6(e) (6)2006 Q. 9(c) (6)

40

41

42 C H H C HH Ethene Br ∂+ Br v ∂- 1, 2 - dibromoethane formed Cl Bromine salt water is a source of Cl - ions Cl 1-bromo-2-chloroethane formed OH Bromine salt water is a source of OH - ions OH 2-bromoethanol formed

Download ppt "13 – Reaction Mechanisms Leaving Certificate Chemistry Organic Chemistry."

Similar presentations

10.2 ALKANES.

10.2 ALKANES.
Organic Synthesis Notation

Organic Synthesis Notation
TY 2003 Organic Mechanism 3 Reaction of Chlorine with Methane.

TY 2003 Organic Mechanism 3 Reaction of Chlorine with Methane.
Alkanes and Alkenes.

Alkanes and Alkenes.
Reactions of Alkanes IB. Combustion of alkanes Alkanes are unreactive as a family because of the strong C–C and C–H bonds as well as them being nonpolar.

Reactions of Alkanes IB. Combustion of alkanes Alkanes are unreactive as a family because of the strong C–C and C–H bonds as well as them being nonpolar.
Organic Reactions. Point #1 3 basic kinds of reactions A) Addition Reactions (like synthesis reactions) Hydrogenation – saturating an unsaturated carbon.

Organic Reactions. Point #1 3 basic kinds of reactions A) Addition Reactions (like synthesis reactions) Hydrogenation – saturating an unsaturated carbon.
Organic Reactions Dr. M. Abd-Elhakeem Faculty of Biotechnology Organic Chemistry Chapter 3.

Organic Reactions Dr. M. Abd-Elhakeem Faculty of Biotechnology Organic Chemistry Chapter 3.
Chapter 4—An Introduction to Organic Reactions

Chapter 4—An Introduction to Organic Reactions
Mechanisms One of the most practical aspects of organic chemistry is the study and application of chemical reactions. Due to the large number of reactants.

Mechanisms One of the most practical aspects of organic chemistry is the study and application of chemical reactions. Due to the large number of reactants.
Chlorination of Methane: The Radical Chain Mechanism 3-4 Chlorine converts methane into chloromethane. Chlorine and methane gas do not react unless irradiated.

Chlorination of Methane: The Radical Chain Mechanism 3-4 Chlorine converts methane into chloromethane. Chlorine and methane gas do not react unless irradiated.
Www.soran.edu.iq Organic and biochemistry Assistance Lecturer amjad ahmed jumaa  Hydrolysis and heterolysis Free radical. Chlorination of methane. 1.

Organic and biochemistry Assistance Lecturer amjad ahmed jumaa  Hydrolysis and heterolysis Free radical. Chlorination of methane. 1.
Alkanes IB Chemistry Topic 10.2.

Alkanes IB Chemistry Topic 10.2.
 Write the abbreviated structural formulae and name all the structural isomers of C 6 H 14.

 Write the abbreviated structural formulae and name all the structural isomers of C 6 H 14.
Advanced Higher Chemistry

Advanced Higher Chemistry
Reaction Mechanisms: Free Radical Substitution

Reaction Mechanisms: Free Radical Substitution
Organic Reactions Larry Scheffler Lincoln High School IB Chemistry 3-4 Version 1.4 1.

Organic Reactions Larry Scheffler Lincoln High School IB Chemistry 3-4 Version
ORGANIC CHEMISTRY AS CHEM. STUDY GUIDE. DEFINE FREE RADICALS Atoms (or groups of atoms) with unpaired electrons.

ORGANIC CHEMISTRY AS CHEM. STUDY GUIDE. DEFINE FREE RADICALS Atoms (or groups of atoms) with unpaired electrons.
Organic Chemistry Part 3: Reactions of Alkanes & Alkenes.

Organic Chemistry Part 3: Reactions of Alkanes & Alkenes.
4.15 Halogenation of Alkanes RH + X 2  RX + HX. explosive for F 2 exothermic for Cl 2 and Br 2 endothermic for I 2 Energetics.

4.15 Halogenation of Alkanes RH + X 2  RX + HX. explosive for F 2 exothermic for Cl 2 and Br 2 endothermic for I 2 Energetics.
ORGANIC REACTIONS OVERVIEW Dr. Clower CHEM 2411 Spring 2014 McMurry (8 th ed.) sections 6.1, 6.2, 6.4-6, 6.8-10, 7.10, 10.8.

ORGANIC REACTIONS OVERVIEW Dr. Clower CHEM 2411 Spring 2014 McMurry (8 th ed.) sections 6.1, 6.2, 6.4-6, , 7.10, 10.8.

Similar presentations

Ads by Google