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IGCSE CHEMISTRY SECTION 3 LESSON 1. Content The iGCSE Chemistry course Section 1 Principles of Chemistry Section 2 Chemistry of the Elements Section 3.

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Presentation on theme: "IGCSE CHEMISTRY SECTION 3 LESSON 1. Content The iGCSE Chemistry course Section 1 Principles of Chemistry Section 2 Chemistry of the Elements Section 3."— Presentation transcript:

1 IGCSE CHEMISTRY SECTION 3 LESSON 1

2 Content The iGCSE Chemistry course Section 1 Principles of Chemistry Section 2 Chemistry of the Elements Section 3 Organic Chemistry Section 4 Physical Chemistry Section 5 Chemistry in Society

3 Content Section 3 Organic Chemistry a)Introduction b)Alkanes c)Alkenes d)Ethanol

4 Lesson 1 a)Introduction b)Alkanes a)Introduction b)3.1 explain the terms homologous series, hydrocarbon, saturated, unsaturated, general formula and isomerism. b) Alkanes 3.2 recall that alkanes have the general formula C n H 2n+2 3.3 draw displayed formulae for alkanes with up to five carbon atoms in a molecule, and name the straight-chain isomers 3.4 recall the products of the complete and incomplete combustion of alkanes 3.5 describe the substitution reaction of methane with bromine to form bromomethane in the presence of UV light.

5 Organic Chemistry What is Organic Chemistry?

6 Organic Chemistry What is Organic Chemistry? It’s the chemistry of carbon- containing compounds

7 Organic Chemistry What is Organic Chemistry? It’s the chemistry of carbon- containing compounds Most of these compounds also contain hydrogen, and many also contain oxygen or other elements.

8 Organic Chemistry Many organic compounds occur naturally, and many others are made by man.

9 Organic Chemistry Many organic compounds occur naturally, and many others are made by man. All living things contain organic compounds

10 Organic Chemistry NaturalMan-made Sugars Methane (natural gas) Proteins, fats Ethene Ethane Polymers, such as polythene

11 Organic Chemistry Crude oil is a mixture of organic compounds. It is the raw material used for the manufacture of plastics, solvents, and thousands of organic chemicals.

12 Organic Chemistry Upper layers Shale Rock Natural gas Crude oil Rock

13 Organic Chemistry Upper layers Shale Rock Natural gas Crude oil Rock Crude oil (petroleum) was formed millions of years ago by the decomposition of animals and plants under pressure.

14 Organic Chemistry Upper layers Shale Rock Natural gas Crude oil Rock Crude oil is a dark viscous liquid mixture of many different hydrocarbons.

15 Organic Chemistry Upper layers Shale Rock Natural gas Crude oil Rock Crude oil is a dark viscous liquid mixture of many different hydrocarbons. Viscous = does not flow easily.

16 Organic Chemistry Upper layers Shale Rock Natural gas Crude oil Rock Crude oil is a dark viscous liquid mixture of many different hydrocarbons. Hydrocarbon = compound containing hydrogen and carbon only

17 Organic Chemistry Hydrocarbon = compound containing hydrogen and carbon only The LARGER the hydrocarbon i.e. the greater the number of carbon atoms in a molecule: 1.The less easily it flows (i.e. the more viscous it is) 2.The less easily it ignites (i.e. the less flammable it is) 3.The less volatile it is (i.e. it doesn’t vaporise as easily) 4.The higher its boiling point.

18 Organic Chemistry Upper layers Shale Rock Natural gas Crude oil Rock Crude oil is the major source of energy in most industrial countries. Over 90% is used as a fuel in industry or transport.

19 There are three stages in the refining of crude oil.

20 Fractional distillation

21 There are three stages in the refining of crude oil. Fractional distillation Cracking

22 There are three stages in the refining of crude oil. Fractional distillation Cracking Reforming

23 Fractional distillation Crude oil is heated and passed into a tall fractionating column

24 Fractional distillation Hydrocarbons with the lowest boiling points (gases) pass to the top of the column.

25 Fractional distillation Hydrocarbons with the highest boiling points collect at the bottom of the column.

26 Fractional distillation Intermediate fractions are also collected

27 Fractional distillation The various fractions are purified and blended to use as petrol, solvents, and heating and diesel oils.

28 Cracking There is less demand for the thicker oils (oils with higher relative molecular masses and higher boiling points). The thicker oils are therefore often ‘cracked’.

29 Cracking There is less demand for the thicker oils (oils with higher relative molecular masses and higher boiling points). The thicker oils are therefore often ‘cracked’. This means that the larger molecules are broken down into smaller ones suitable for making petrol. This can be done in 2 ways.

30 Cracking There is less demand for the thicker oils (oils with higher relative molecular masses and higher boiling points). The thicker oils are therefore often ‘cracked’. This means that the larger molecules are broken down into smaller ones suitable for making petrol. This can be done in 2 ways. Thermal cracking – using heat Catalytic cracking – using heat and a catalyst

31 Reforming In reforming, hydrocarbons with small chains of carbon atoms are converted to hydrocarbons consisting of larger molecules.

32 Alkanes The simplest of all hydrocarbons

33 Alkanes The simplest of all hydrocarbons C C X X X X X X Carbon 2:4 Forms four covalent bonds

34 Alkanes C H HH H

35 C H HH H CH 4 Methane Four single C-H bonds

36 Alkanes C H HH H CH 4 Methane Four single C-H bonds Alkanes are saturated hydrocarbons. All bonds are occupied.

37 Alkanes Name Molecular formula Physical state MethaneCH 4 Gas EthaneC2H6C2H6 Gas PropaneC3H8C3H8 Gas ButaneC 4 H 10 Gas PentaneC 5 H 12 Gas HexaneC 6 H 14 Liquid

38 Alkanes Name Molecular formula Physical state MethaneCH 4 Gas EthaneC2H6C2H6 Gas PropaneC3H8C3H8 Gas ButaneC 4 H 10 Gas PentaneC 5 H 12 Gas HexaneC 6 H 14 Liquid The Alkanes form an homologous series. Each member differs from the next by the unit – CH 2

39 Alkanes Name Molecular formula Physical state MethaneCH 4 Gas EthaneC2H6C2H6 Gas PropaneC3H8C3H8 Gas ButaneC 4 H 10 Gas PentaneC 5 H 12 Gas HexaneC 6 H 14 Liquid The homologous series of alkanes has the general formula: C n H 2n+2

40 Alkanes H HHC H CH H H HC H H HC H H HC H H C H H Propane Ethane Methane

41 Alkanes HC H H HC H H HC H H HC H H C H H C H H C H H C H H C H H Butane Pentane

42 Alkanes and Isomerism Compounds exhibit isomerism when they have the same molecular formula but different structural formulae. All alkanes with more that three carbon atoms have more than one structure.

43 Alkanes and Isomerism HC H H HC H H C H H C H H Butane, C 4 H 10 HC H H HC H H C H HHC H 2-Methylpropane, C 4 H 10

44 Combustion of Alkanes Alkanes burn in plentiful air to form carbon dioxide and water: Eg: Methane + Oxygen  Carbon dioxide + water CH 4 (g) + 2O 2 (g)  CO 2 (g) + 2H 2 O(g) This is known as complete combustion.

45 Combustion of Alkanes Alkanes burn in limited air to form carbon monoxide and water: Eg: Methane + Oxygen  Carbon monoxide + water 2CH 4 (g) + 3O 2 (g)  2CO(g) + 4H 2 O(g) This is known as incomplete combustion.

46 Alkanes and substitution reactions

47 Alkanes, as saturated compounds, can react by substitution. For example, when a mixture of methane and bromine is exposed to ultraviolet light – typically sunlight – a substitution reaction occurs, and the organic product is bromomethane. CH 4 + Br 2  CH 3 Br + HBr methane bromine bromomethane hydrogen bromide

48 Alkanes and substitution reactions One hydrogen atom of the methane molecule is substituted by a bromine atom H H HC H + Br Br  H HC H Br + H Br

49 Lesson 1 a)Introduction b)Alkanes a)Introduction b)3.1 explain the terms homologous series, hydrocarbon, saturated, unsaturated, general formula and isomerism. b) Alkanes 3.2 recall that alkanes have the general formula C n H 2n+2 3.3 draw displayed formulae for alkanes with up to five carbon atoms in a molecule, and name the straight-chain isomers 3.4 recall the products of the complete and incomplete combustion of alkanes 3.5 describe the substitution reaction of methane with bromine to form bromomethane in the presence of UV light.

50 End of Section 3 Lesson 1 In this lesson we have covered: Introduction to Organic Chemistry The Chemistry of Alkanes

51

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