C6.2 Organic Chemistry

Question 1

What are hydrocarbons:

Answer 1

= compounds that contain only hydrogen atoms & carbon atoms

Question 2

Name hydrocarbons:

Answer 2

• alkanes
• alkenes

Derivative hydrocarbons:

• alcohols
• carboxylic acids

Question 3

Homologous series:

Answer 3

a family of hydrocarbons with similar chemical properties who share the same general formula

Question 4

Why do alkenes, alkanes, alcohols & carboxylic acids all form their own homologous series?

Answer 4

• same general formula
• each successive member differs by a CH2 group (ALL)
• same functional group (NOT ALKANES)
• similar chemical reactions

Question 5

Why are all alkanes saturated?

Answer 5

= carbon atoms joined together by single covalent bonds, no atoms can be added
(C-C bonds)

(Part of alkanes homologous series)

Question 6

General formula of alkanes:

Answer 6

= C H

n 2n+2

Question 7

Names of alkanes in order:

Answer 7

Methane
Ethane
Propane
Butane
Pentane 
Hexane 
Heptane
Octane

Question 8

How do alkanes react

Answer 8

= combustion, react with oxygen in air & burn

Question 9

What molecules undergo combustion (complete/incomplete)?

Answer 9

• alkenes
• alkanes
• alcohols

Question 10

Complete combustion:

Answer 10

If there is a plentiful supply of oxygen/air

• carbon atoms oxidised to carbon dioxide
• hydrogen atoms oxidised to water

(Products = CO2 & H2O)

Question 11

Incomplete combustion

Answer 11

If there is a poor supply of oxygen/air

• hydrogen atoms oxidised to water
• carbon atoms oxidised to carbon monoxide, or not oxidised at all

(Products = CO, C, H2O)

Question 12

Why is incomplete combustion not good?

Answer 12

= carbon monoxide (CO) is formed

- it’s a toxic gas & can cause suffocation

Question 13

General formula of alkenes:

Answer 13

= C H

n 2n

Question 14

Why are alkenes unsaturated?

Answer 14

= contain carbon-carbon double covalent bond, more atoms can be added
(C=C bond)

(part of alkene homologous series)

Question 15

Name of alkenes in order:

Answer 15

Ethene 
Propene
Butene 
Pentene 
Hexene 

(NO METHENE)

Question 16

Why does methene not exist?

Answer 16

Because the formula would be CH2, and there can’t be 1 carbon because it has to contain a carbon-carbon double bond so alkenes must contain at least 2 carbons

Question 17

How do alkenes react? (1)

Answer 17

1. = combustion, burn in oxygen/air (incomplete/complete)

Question 18

What allows alkenes to take part in a wider range of reactions?

Answer 18

= alkenes have a functional group = carbon-carbon double bond
It lets alkenes undergo addition reactions

Question 19

What is a functional group?

Answer 19

= an atom, group of atoms, or type of bond in a molecule that determines the chemical reactions of an organic compound

Question 20

What do alkenes react with in addition reactions?

Answer 20

• bromine, to form colourless ‘dibromo’ compounds

- hydrogen, in the presence of a nickel catalyst, to form alkanes

Question 21

What are addition reactions?

Answer 21

= an atom or group of atoms combines with a molecule to form a larger molecule, with no other product

Question 22

Example of an addition reaction between an alkene and bromine:

Answer 22

Ethene + Bromine —> Dibromoethane
C2H4 + Br2 —> C2H4Br2

(C=C bond in ethene, C-C bond in dibromoethane)

Question 23

Example of an addition reaction with an alkene & hydrogen:

Answer 23

Ethene + Hydrogen —> Ethane

C2H4 + H2 —> C2H6

Question 24

How can we test if a substance is an alkane or alkene?

Answer 24

= test for unsaturation: bromine react with alkenes but no alkanes
- bromine water is orange-brown, turns colourless when mixed with alkenes, remains same with alkanes

Question 25

general formula of alcohols:

Answer 25

C H OH

n 2n+1

Question 26

Name alcohols in order:

Answer 26

Methanol
Ethanol
Propanol
Butanol
Pentanol
Hexanol

Question 27

What is the functional group for alcohols?

What extra reactions does it allow alcohols to undergo?

Answer 27

= hydroxyl group, -OH
= can be oxidised to form carboxylic acids
(usually only the hydroxyl group take part in the reactions, not other atoms in alcohol)

Question 28

General formula of carboxylic acids:

Answer 28

C H COOH
n(-1) 2n+1

(-1 from first carbon atom as carbon atom in carboxyl group, eg. Pentane = C4H9COOH)

Question 29

Functional group of carboxylic acids:

Answer 29

= carboxyl group, -COOH

Question 30

name carboxylic acids in order:

Answer 30

= -anoic acid 
Methanoic acid
Ethanoic acid
Propanoic acid
Butanoic acid
Hexanoic acid

Question 31

How are carboxylic acids made?

Answer 31

= formed when alcohols react with oxidising agents

potassium manganate (VII) solution

Question 32

How can you show ethanol can be oxidised to ethanoic acid?

Answer 32

• add some oxidising agent to test tube of ethanol
  (Oxidising agent = potassium manganate(VII) solution, KMnO4(aq), acidified with a little dilute sulfuric acid)
• warm it in a water bath
  = manganate (VII) ions —> reduced to manganese(II) ions
  Colour change = purple —> very pale pink

Question 33

Precautions of ethanol —> ethanoic acid pratical:

Answer 33

• eye protection
• stir reaction carefully, can be violent

both reactions carry hazard warnings

• ethanol = harmful & flammable
• potassium manganate(VII) solution = harmful & stains hands/clothes

Question 34

How do carboxylic acids react?

Answer 34

= weak acids, so reactions typical of acids
React with:
- metals —> salts & hydrogen
- alkalis & bases —> salts & water
- carbonates —> salts & water & carbon dioxide

Question 35

What is crude oil? How is it made?

Answer 35

= a fossil fuel, complex mixture of hydrocarbons (mostly alkanes)
Formed from remains of marine organisms alive millions of year ago, became buried in sea bed, chemical reactions turned them into crude oil

Question 36

What type of source is crude oil & why?

Answer 36

= finite resource, being made extremely slow/no longer being made
- non-renewable source, being used up faster than being formed, will run out one day

Question 37

How are the hydrocarbons in crude oil separated from each other?
Why does it work?

Answer 37

= fractional distillation

- works as different alkanes have different boiling points

Question 38

What if the trend of boiling points in alkane molecules?

Answer 38

More carbon atoms in alkane molecule
= larger molecules
= stronger intermolecular forces
= higher boiling point

Question 39

Describe fractional distillation of crude oil:

Answer 39

• crude oil heated & its vapours piped into bottom of fractionating column
  (Fractionating column has temp gradient, hot at bottom & cold at top 25º-350º)
• vapours cool as they rise through column
• vapours condense to liquid state if reach a part cool enough (depending on boiling point)
  (Separated parts of crude oil = fractions, each contains many substances with similar boiling points)

Question 40

Describe how different substances leave the fractionating column during the fractional distillation of crude oil:

Answer 40

• bitumen has highest boiling points, leaves at bottom of column, solid state at room temp
• refinery gases-LPG(methane, ethane, propane, butane) have lowest boiling points, reach top & leave without cooling & condensing
• other fractions (petrol, paraffin, diesel, heating oil, fuel oil) in liquid state at room temp, fall into trays & leave from middle of column

Question 41

What is cracking?

Answer 41

= chemical reaction that converts large alkane molecules into smaller alkane molecules & alkene molecules

Eg. Octane —> hexane + ethene
C8H18 —> C6H14 + C2H4

Question 42

Describe how cracking works:

Answer 42

Oil fractions are heated to a high temp (600-700ºC) & passed over a hot catalyst of alumina/silica
= some covalent bonds between atoms in large alkane molecules break

Question 43

Conditions needed for cracking

Answer 43

• high temps

- catalyst

Question 44

Where is cracking carried out?

Answer 44

• on huge scale in oil refineries

- on small scale in laboratory using pieces of broken pot as catalyst

Question 45

Why do we not want fractions with relatively large alkanes molecules?

Answer 45

= have high boiling points
= do not flow easily & difficult to ignite
= not useful as fuels

Question 46

Why do we want fractions with relatively small alkane molecules?

Answer 46

= have low boiling points
= flow more easily & easier to ignite
= useful as fuels

Question 47

What does fractionally distillation produce?

Answer 47

• more fractions with large molecules & high boiling points, can be sold
• not enough fractions with small molecules & low boiling points

Question 48

Why is cracking done?

Answer 48

= helps oil refinery match its supply of useful products in demand (petrol)

• as it breaks down the large alkane molecules into small alkane molecules in demand
• produces alkenes = useful for making polymers

Question 49

Why is crude oil important?

Answer 49

• 90% used to produce fuels (LPG, Petrol, Diesel, Paraffin)
• remainder used as feedstock for chemical industry (alkenes make polymers)
  (vital to modern lives, cant be replaces easily)

Question 50

What are addition polymers?

Answer 50

= formed by the addition reactions between monomer molecules joined together

Question 51

Why can all alkene molecules act as monomers for addition polymers?

Answer 51

= they contain a carbon-carbon double bond & are unsaturated

Question 52

Conditions needed for addition polymerisation?

Answer 52

• high pressures & temps

- a catalyst

Question 53

Example of addition reaction with Ethene:

Answer 53

= many ethene molecules join together to form poly(ethene) / polythene
Polymer used to make plastic carrier bags

Question 54

Biological polymers:

Answer 54

• DNA molecules
• Protein molecules
• Carbohydrates

Question 55

DNA molecules:

Answer 55

= polymers made from monomers called nucleotides

• nucleotides join together end to end to form single strand of DNA
• deoxyribose from 1 nucleotide bonds with phosphate group from the next
• 2 strands of DNA spiral round one another in opposite directions
• intermolecular forces = hydrogen bonds form between bases on opposite strands, hold strands together

Question 56

Protein molecules:

Answer 56

= polymers made from monomers called amino acids

• each amino acid has reactive functional group at each end, join end to end to make long protein molecules
• different protein molecules contain different numbers of amino acids joined together in different combinations

Question 57

Carbohydrates:

Answer 57

= compounds of carbon, hydrogen, oxygen, include simple sugars (deoxyribose) & complex carbohydrates (starch)

• sucrose made from 2 sugars (glucose & fructose)
• starch consists of many simple sugar molecules joined together (polymer)

Question 58

What are condensation reactions?

Answer 58

= two molecules react together to form one larger molecule & one smaller molecule
= called condensation as smaller molecules are often water

Question 59

What is the ester group

Answer 59

-COO-

Question 60

What is the amide group

Answer 60

-CONH-

Question 61

Show condensation reactions between carboxylic acids & alcohols:

Answer 61

Carboxylic acid + alcohol —> ester + water

Carboxyl group (-COOH) reacts with hydroxyl group (-OH), remaining parts of carboxylic acid & alcohol joined by ester group (-COO-)

Eg. Ethanoic acid + ethanol —> ethyl ethanoate + water
CH3COOH + C2H5OH —> CH3COOC2H5 + H2O

Question 62

What must a monomer molecule for a condensation polymer have?

Answer 62

= 2 different functional groups, one at each end

Question 63

Why are proteins condensation polymers?

Answer 63

= polymers formed from amino acids
= each amino acid has 2 different functional groups:
- amino group (-NH2)
- carboxyl group (-COOH)
Amino group of 1 molecule reacts with carboxyl group of another, organic product formed still has both functional groups so chain continues
- remaining parts of each monomer joined by amide group (-CONH)

Question 64

What are the 2 main types of artificial condensation polymers?

Answer 64

• polyesters

- polyamides

Question 65

What are polyesters made from?

Answer 65

• a carboxylic acid with 2 carboxyl groups
• an alcohol with 2 hydroxyl groups
  Called polyesters as contain many ester groups (-COO-)

Eg. PET (make clothes, bottles)

Question 66

What are polyamides made from?

Answer 66

• carboxylic acid with 2 carboxyl groups
• amine with 2 amino groups
  Called polyamides as contain many amide groups (-CONH)

Eg. Nylon (make clothing/carpets)

Question 67

Conditions needed for condensation polymerisation:

Answer 67

• no catalyst needed
• room temp & pressure

(So can be made in school, anywhere)

Question 68

Chemical cell:

Answer 68

Eg= batteries used in portable devices (torch)

Question 69

How does a chemical cell work?

Answer 69

• exothermic reactions in cell develop a P.D/voltage between its 2 ends
• when cell is connected to electrical circuit, current flows through cell & components of circuit

Question 70

When do chemical cells stop working?

Answer 70

= one of the reactants is used up

- cell goes flat, can no longer provide a P.D/voltage

Question 71

What was the first chemical cell, who made it, when?

Answer 71

• Daniell cell,
• by John Daniell
• 1836

Question 72

Materials needed to make a Daniell cell:

Answer 72

= 2 metals: Zinc, Copper (strip)

= 2 electrolytes: Zinc Sulfate, Copper(II) Sulfate

Question 73

Making a Daniell cell:

Answer 73

1. Pour zinc sulfate solution into breaker & dip zinc strip into it
2. Pour copper(II) sulfate solution into another breaker & dip copper strip into it
3. Connect the 2 solutions using filter paper soaked with potassium nitrate solution
4. Connect voltmeter to metal strips to measure P.D/voltage

Question 74

How does a fuel cell work?

Answer 74

= produces electricity through a chemical reaction between a fuel and oxygen, without combustion happening

Question 75

Precautions in Daniell cell making:

Answer 75

1. Take care with reactant solutions as can be harmful at some concentrations (zinc sulfate solution, copper(II) sulfate solution)
2. Wear eye protection

Question 76

How does a hydrogen-oxygen fuel cell work, why is oxygen and hydrogen used?

Answer 76

Hydrogen reacts with oxygen in an exothermic reaction to produce water vapour:

2H2(g) + O2(g) —> 2H2O(g)

Same overall reaction happens in a hydrogen-oxygen fuel cell, but its separated into 2 reactions, 1 on each side of cell

Question 77

2 reactions in a hydrogen-oxygen cell:

Answer 77

1. Hydrogen molecules lose electrons & become hydrogen ions
   2H2(g) —> 4H+(aq) + 4e-

Hydrogen ions pass through a ‘proton exchange membrane’ to other side of fuel cell & electrons travel through external circuit to other side of fuels cell

2. hydrogen ions combine with oxygen & electrons at other side to form water vapour
   4H+(aq) + O2(g) + 4e- —> 2H2O(g)