Alkanes

Question 1

What is the general formula for an alkane?

Answer 1

C nH 2n +2

Question 2

What is rude oil?

Answer 2

A mixture of different hydrocarbons

Question 3

Which chains are in higher demand?

Answer 3

Short chains

Question 4

What type of fractions do you find near the top of the distillation column?

Answer 4

Fractions of molecules with lower boiling points and shorter chains

Question 5

Where is LPG found in the fractionation column?

Answer 5

Near the top

Question 6

Give examples of fractions collected before diesel

[2]:

Answer 6

• Kerosene

- Petrol

Question 7

What decreases as you go down the fractionation column [2]:

Answer 7

Flammability and volatility of chains

Question 8

What increases as you go down the fractionation column?

Answer 8

Viscosity

Question 9

Where would you be likely to find bitumen on the fractionational distillation column?

Answer 9

Near the bottom

Question 10

What is petroleum?

Answer 10

Petroleum is a mixture consisting mainly of alkane hydrocarbons

Question 11

What is a petroleum fraction?

Answer 11

Petroleum fraction: mixture of hydrocarbons with

a similar chain length and boiling point range

Question 12

Industrial fractional distillation procedure [4]:

Answer 12

• Oil is pre-heated then passed into column.
• The temperature of column decreases upwards
• The fractions condense at different heights
• The separation depends on boiling point which depends on size of molecules

Question 13

In Industrial fractional distillation the larger the molecule the larger the…

Answer 13

Van der waaals forces

Question 14

Industrial fractional distillation is a process that…

Answer 14

involves the splitting of weak van der waals forces

between molecules

Question 15

Vacuum distillation unit [3]:

Answer 15

• Heavy residues from the fractionating column are distilled again under a vacuum.
• Lowering the pressure over a liquid will lower its boiling
  point.
• Allows heavier fractions to be further separated without high temperatures which could break them down

Question 16

Fractional Distillation in the laboratory [3]:

Answer 16

• Vapours pass up the fractionating column the vapour with the lower boiling point reaches the top of the fractionating column first.
• The vapours with higher boiling points condense
  back into the flask
• Only the most volatile vapour passes into the
  condenser

Question 17

Where should the thermometer be during fractional distillation in the laboratory?

Answer 17

thermometer should be at or below the boiling

point of the most volatile substance

Question 18

What does the condenser do during fractional distillation in the laboratory?

Answer 18

The condenser cools the vapours and condenses to

a liquid and is collected

Question 19

What is fractional distillation in the laboratory used for?

Answer 19

To separate liquids with different boiling points

Question 20

Cracking [definition]:

Answer 20

conversion of large hydrocarbons to smaller hydrocarbon molecules by breakage of C-C bonds

Question 21

Cracking advantages [3]:

Answer 21

• petroleum fractions with shorter carbon chains are in more demand than larger fractions
• make use of excess larger hydrocarbons
• The products of cracking are more valuable than the starting materials

Question 22

What does thermal cracking produce? [2]:

Answer 22

• produces mostly alkenes

- sometimes produces hydrogen

Question 23

Conditions for thermal cracking [2]:

Answer 23

• High pressure (7000 kPa)

- High temperature (400°C to 900°C)

Question 24

What is catalytic cracking used for?

Answer 24

Making motor fuels

Question 25

What does catalytic cracking produce? [2]:

Answer 25

• branched and cyclic alkanes

- aromatic hydrocarbons

Question 26

Advantages of catalytic cracking [2];

Answer 26

• Branched and cyclic hydrocarbons burn more
  cleanly and are used to give fuels a higher octane
  number
• Cheaper than thermal cracking because it saves
  energy as lower temperatures and pressures are used

Question 27

Combustion of alkanes [2]:

Answer 27

• Alkanes readily burn in the presence of oxygen
• This combustion of alkanes is highly
  exothermic

Question 28

What are the harmful products of incomplete combustion [2]:

Answer 28

• CO is toxic

- Carbon (soot) can cause global dimming- reflection of the sun’s light

Question 29

Combustion equation:

Answer 29

x + O2 = CO2 + H2O

Question 30

Catalytic converters [2]:

Answer 30

• Converters have a ceramic honeycomb coated with a thin layer of catalyst metals
• Turn molecules produced in car engines into relatively less harmful ones

Question 31

What are the catalyst metals on catalytic converters?

[3]:

Answer 31

• platinum
• palladium
• rhodium

Question 32

Why do catalytic converters have a large honeycomb structure?

Answer 32

to give a large surface area

Question 33

Catalytic conversions [2]:

Answer 33

• 2 CO + 2 NO → 2 CO2 + N

- S + O → SO2

Question 34

Why is CO harmful?

Answer 34

Toxic

Question 35

Why is CO2 harmful?

Answer 35

Greenhouse gas- contributes to global warming

Question 36

Why is NO2 harmful?

Answer 36

NO is toxic and can form acidic gas NO2 which is toxic and acidic, forms acid rain

Question 37

Why is Sulphur harmful?

Answer 37

Form SO3 in atmosphere which dissolves in water and forms acid rain

Question 38

What happens when alkanes react with bromine/ chlorine under UV light?

Answer 38

• Free radical substitution

- Produces halogenoalkanes

Question 39

Mechanism of greenhouse effect [4]:

Answer 39

• UV wavelength radiation passes through atmosphere to Earth’s surface and heats up surface
• The Earth radiates out infrared long wavelength radiation
• The C=O Bonds in CO2 absorb infrared radiation so the IR radiation does not escape from the atmosphere
• This energy is transferred to other molecules in the atmosphere by collisions so the atmosphere is warmed

Question 40

Free radical [definition]:

Answer 40

A reactive species which possess an unpaired electron, represented by a dot

Question 41

Initiation:

Answer 41

Free radical on products side

Question 42

Propagation:

Answer 42

Free radical on products and reactants

Question 43

Termination:

Answer 43

Free radical on reactants side

Question 44

What are the conditions for free radical substitution?

[3]:

Answer 44

• UV light
• Alkene present
• Halogen present