1. http://moodle.rockyview.ab.ca/mod/book/pr int.php?id=58486
IB Organic Reactions I
int.php?id=58486

2. 10.2.1.Low reactivity of alkanes

3. I-Combustion of Alkanes
Alkanes are very unreactive due to single C C bonds. All combustion reactions are highly exothermic.(low polarity &van der waals)
Complete Combustion:
2C8 H O2 => 16CO H2 O
II. Incomplete Combustion
C8 H O2 => 2CO H2 O + C + 5CO
C and CO are emitted as particulates. Read page 193
Solve Hodder page 300, question 10.

5. Organic Packet :
Question 9

6. A

7. Homolytic X Heterolytic Fission
Homolytic Fission:
When the cleavage of covalent bond between two atoms takes place in a manner, which enables each atom to retain one electron of the shared pair.
This fission is symmetrical and leads to the formation of atoms or groups of atoms having unpaired electrons, called free radicals.
Cl-Cl => Cl● Cl●
chlorine
free radical
( Cl atom )

8. Heterolytic Fission
Heterolytic fission is unsymmetrical , one of the fragments takes both the electrons of the shared pair, leaving none on the other. This results into two charged particles as:
C6 H5CH2 Cl => C6 H5CH Cl-

9. ALKANES UNDERGO SUBSTITUTION ALKENES UNDERGO ADDITION

10. Free Radical Substitution
Alkanes undergo free radical substitution. This reaction takes place in a series of steps. With excess of the halogen, it continues until all the hydrogens were substituted)
CH4 (g) + Cl2 (g) => CH3 Cl(g) + HCl(g)
Initiation Step:
(2) Propagation Step:
(3) Termination Step:
With excess of the halogen, it continues until all the hydrogens were substituted)
Solve Hodder page 300, question #8 and 11

11. IB Questions 1. The active species in the chlorination of an alkane is
A Cl2 molecules
B. Cl atoms
C. Cl– ions
D. Cl+ ions
2. This question concerns several different compounds with two carbon atoms.
Ethane, C2H6 , reacts with chlorine to produce chloroethane as the first product.
(i) Write a balanced equation for this reaction.
(ii) This reaction will not occur simply by mixing the chemicals. What else is required?
(iii) What mechanism is involved in this reaction?

12. ALKANES UNDERGO FREE RADICAL SUBSTITUTION.

13. ALKENES AND ALKYNES UNDERGO ADDITION !!

14. The main source of alkenes is from the cracking of the higher fractions.
C10H22 (g) => C8H18 (g) + C2H4(g)
About 10% of the crude oil is converted into alkenes.
They are used as a chemical feedstock: plastics, solvents,detergents.

15. Margarines
PVC
You may have heard of biofuels being used to fuel automobiles. Biofuel, or gasohol as it is called in many countries, is a mixture of gasoline and ethanol.

16. There are three key areas for the use of alkenes:
Hydrogenation of unsaturated lipids to make margarine, the production of ethanol and the production of polymers.

17. Addition of Alkenes
Alkenes undergo addition due to the presence of the double bond.

18. Summary of Addition Reactions of Ethene

19. 1. Hydrogenation,add H2
Catalyst: Ni , 180◦C

20. Hydrogenation of Unsaturated Fats
Unsaturated fatty acids may be converted to saturated fatty acids by the relatively simple hydrogenation reaction.
Addition of hydrogen to an alkene (unsaturated) results in an alkane (saturated).
H2C=CH2 + H2 ---> CH3CH3

21. Hydrogenation of a oleic fatty acid
Vegetable oils are commonly referred to as "polyunsaturated". This simply means that there are several double bonds present. Vegetable oils may be converted from liquids to solids by the hydrogenation reaction. Margarines and shortenings are "hardened" in this way to make them solid or semi-solids.

22.
It has long been recognized that saturated fats tend to increase the blood level of the "bad" LDL cholesterol. Monounsaturated (one double bond) and polyunsaturated fats (two or more double bonds) found primarily in vegetable oils tend to lower "bad" LDL cholesterol. An elevated LDL-C increases the risk of developing coronary heart disease.
Way back in the 1950s it was recognized that vegetable oils could be substituted for animal fats such as in butter, by making a product we know as margarine

23. B

24. 2. Halogenation, addition of alkene to Br, Cl and I page 200
Test for unsaturation: Bromine water is a yellow/orange solution. The color will disappear because the product is
colorless: alkenes with Br2 (aq)

26. 3. With Hydrogen Halides,HCl and HBr
The hydrogen will tend to migrate to the side with the greater number of hydrogen atoms.
This preference is known as Markovnikoff´s Rule.
DO THE REACTION WITH But 2 ene and HBr !!!!

27. 4. Hydration, with Water
Water does not react directly with alkenes under normal conditions, concentrated sulfuric acid is required:(page 201)
Reaction:

29. 5. Addition Polymerization
Monomer: ethene
Polymer: Polyethene

30. Oxidation of Alcohols
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31. Different types of Alcohols
Primary (1º) Secondary (2º ) Tertiary (3º)
H CH CH3
│ │ │
CH3─C─OH CH3─C─OH CH3─C─OH
H H CH3
1 C C C
attached attached attached
to C-OH to C-OH to C-OH

32. Oxidation of 1° Alcohols
In the oxidation [O] of a primary alcohol 1, one H is
removed from the –OH group and another H from the C
bonded to the –OH.
primary alcohol aldehyde
OH O
│ ║
CH3─C─H CH3─C─H H2O │ H
ethanol ethanal
(ethyl alcohol) (acetaldehyde)
[O]
K2Cr2O7
H2SO4

33. Oxidation of 2° Alcohols
The oxidation of 2 alcohols is similar to 1°, except that a
ketone is formed.
secondary alcohol ketone
OH O
│ ║
CH3─C─CH CH3─C─CH3 + H2O │ H
2-propanol propanone
[O]
K2Cr2O7
H2SO4

34. Oxidation of 3° Alcohols
Tertiary 3 alcohols do not oxidize.
Tertiary alcohol
no reaction OH │
CH3─C─CH3 no product
CH3
no H on the C-OH to oxidize
2-methyl-2-propanol
[O]
K2Cr2O7
H2SO4

35. If we compare the physical properties of ethanol, ethanal and ethanoic acid we can devise a way of obtaining a good yield of ethanal before further oxidation to ethanoic acid.
Ethaol and ethanoic acid: hydrogen bonds
Ethanal: dipole dipole , lower BP
Distillation apparatus

36. Distillation& Reflux Apparatus
ethanol H+ /Cr2 O7-2
By arranging the apparatus so that the lower boiling point ethanal can be distilled or allow the reflux so that all ethanal will further oxidize to the carboxylic acid.(CC 207)

37. Reaction Pathways(SG 67)
The scheme below can be used to devise reaction pathways. They should involve no more than two steps.
Converting 2 butene to butanone:

38. Oxidation of Alcohols(Alkanols)
1. Which alcohol undergoes oxidation most easily?
A. CH3CH2CH2CH2CH2OH
B. CH3CH(OH)CH2CH2CH3
C. CH3CH2CH(OH)CH2CH3
D. (CH3)2C(OH)CH2CH3
A small amount of alkanol, RCH2OH, is added to a warm solution of potassium dichromate(VI) and sulphuric acid and left for some time. When the reaction is complete, which functional group will be present in the product?
A. RCH2––O––CH2R O
B. RC––H
C. RC––O––H
O O
D. RC––O––CH2R