Formulae
| substance | formula | substance | formula |
| CH4 | bromine | Br2 | |
| ethane | C2H6 | H2 | |
| butane | glucose | C6H12O6 | |
| oxygen | O2 | ammonia | |
| carbon | C | nitric acid | HNO3 |
| carbon monoxide | ammonium nitrate | ||
| carbon dioxide | CO2 | CaCO3 | |
| C2H4 | calcium oxide |
(ethene, CO, C4H10,
methane, NH3, calcium carbonate, CaO, hydrogen, NH4NO3)
Word equations
methane +
---> carbon dioxide + water
methane + oxygen ---> carbon monoxide + water
calcium carbonate --->
+ carbon dioxide
calcium oxide + ---> calcium hydroxide
copper carbonate ---> copper oxide +
ammonia +
---> ammonium nitrate
glucose --->
+ carbon dioxide
ethane ---> ethene +
(oxygen, water, calcium oxide, carbon dioxide, ethanol, nitric acid,
hydrogen)
Balanced chemical equations
CH4(g) + 2O2(g)
--->
+ H2O(l)
---> CaO(s) + CO2(g)
NH3(g) + HNO3(aq) -->
(CO2(g), CaCO3(s), NH4NO3(aq))
ionic equations
H+(aq) + --->
(H2O(l), OH-(aq))
4.01 Crude oil formation
As sea
died, they were immediately covered
by
in seas or swamps. This stopped them decaying aerobically.
Further layers of sediment buried the remains deeper and deeper underground
and after
of pressure and , these remains turned
into coal,
and natural gas.
(crude oil, plants and animals, millions of years, sediment,
heat)
4.02 Hydrocarbons
are compounds which contain only
and hydrogen.
4.03 Crude oil as a mixture
Crude oil is a mixture of lots of substances. It contains
and
alkenes.
4.04 Fractional distillation
distillation separates liquids with close boiling points.
Fractional distillation is lots of little distillations in a
column.
(carbon Hydrocarbons alkanes, Fractional, fractionating,)
4.05 Fractional distillation of crude oil
The fractional distillation of crude oil is the process which
gives us the different fuels made from crude oil. The crude oil is pumped
in to the fractional column from the bottom. The heat is applied at the
bottom of the fractional column. The different fractions are obtained in
different positions in the column.
Top Gas
Naptha
Kerosene
Diesel
Fuel oil
Bottom Bitumen
4.06 Uses of fractions
Fraction |
Use |
| Refinery gas | Bottled gas for gas cookers, boilers |
| Cars, electricity generators | |
| Naptha | Making chemicals |
| Kerosine | |
| Trucks, and some cars | |
| Lubricating Oil | Cars (lubricant) |
| Fuel oil | |
| Covering road surfaces |
(Petrol, Jet aircraft fuel, Bitumen, Diesel, Boilers in ships or buildings)
4.07 Size and properties of fractions
Fraction |
Number of carbon atoms |
Boiling point/oC |
state |
| gas | 1-4 | 40 | gas |
| petrol | 5-9 | 25-70 | liquid |
| kerosene | 10-16 | 180-240 | liquid |
| diesel | 15-19 | 240 - 340 | liquid |
| Lubricating oil | 20-30 | liquid | |
| fuel oil | 30-40 | liquid | |
| bitumen | Over 50 | Over 340 | solid |
4.08 Complete combustion
Happens with plenty of
. All of the carbon and hydrogen in a
hydrocarbon turns to
and
. The things made are
harmless.
4.09 Oxidation
This is a chemical reaction of something with
.
4.10 Incomplete combustion
Happens if there is not enough oxygen. The hydrocarbon turns into soot
or
. The things made are harmful.
4.11 Carbon monoxide
This is a poisonous gas. It has no colour or smell so is hard to
detect. If you breathe it in enough it replaces oxygen in the blood and
suffocates you.
4.12 Dangerous heating appliances
A faulty gas heater can produce
and be dangerous.
Heaters using other fossil fuels can also be dangerous in the same way.
(oxygen, carbon dioxide, water, carbon monoxide,
4.13 Useful hydrocarbons from cracking
C-C-C-C-C-C-C-C-C-C- ----cracking-----> C=C +
C=C-C + C-C=C + C=C
big
molecules
small molecule
alkanes
bonds
bonds
unsaturated
only good for
fuels
can be made into
4.14 Conditions for cracking
For cracking we need a high temperature (800oC) and a catalyst.
4.15 Saturated and unsaturated hydrocarbons
Alkanes are saturated hydrocarbons. They have single C-C bonds only.
Alkenes are hydrocarbons. They have double C=C bonds.
(alkenes,
single, unsaturated, double,
saturated, polymers)
4.16 Formulae and Structures of alkanes
Methane CH4Ethane C2H6
H H
| |
H-C-C-H
| |
H H
Propane C3H8
H H H
| | |
H-C-C-C-H
| | |
H H H
Butane C4H10
H H H H
| | |
|
H-C-C-C-C-H
| | |
|
H H H H
4.17 Formulae and Structures of alkenes
Ethene C2H4
H H
| |
C=C
| |
H H
Propene C3H6
H H H
| |
|
H-C-C=C-H
|
H
4.18 Bromine with alkanes and alkenes
4.19 Addition polymers
lots of monomers add together ---> 1 addition polymer
Each has C=C
bonds
only single bonds
unsaturated
saturated
lots of ethene molecule
---> 1
polyethene molecule
H H H H H
H
H H H H H H H H
| |
| |
|
|
| | | |
| | | |
C=C + C=C + C=C + ....
--->
-(C- C- C- C-C- C- C- C)-n
| |
| |
|
|
| | | |
| | | |
H H H H H
H
H H H H H H H H
4.20 Uses of polymers
| polymer | use |
| poly(ethene) | plastic bags, washing up bowls, toys |
| poly(propene) | car bumpers, rope, fishing nets |
| poly(styrene) | yoghurt pots, throw away cups, packaging |
| poly(chloroethene) polyvinyl chloride PVC |
gutter, drain pipes, window frames |
4.21 The disposal of plastics
| disposal method | what is done | problems |
| landfill | plastic dumped in a hole | unsightly, does not rot because non-biodegradable, waste of plastic, too few sites |
| incineration | plastic is burnt | poisonous gases like hydrogen chloride formed |
| recycling | collect, send to factory, melt, make new plastic objects | hard to sort, public may not separate |
| Reuse | wash and use again e.g bottle | May get damaged, must be sterilised for drinks. |
Biodegradable plastic rot faster than other sorts. They are more expensive to make.
4.22 Uses of enzymes
Enzymes are biological catalysts. They speed up reactions. They work
best around body heat (37oC). They break up (denature) and stop
working if the temperature rises much above above 40oC.
Enzymes
are found in biological washing powder. Enzymes in yeast are used to help
fermentation in making bread and beer.
4.23 Enzymes in the dairy industry
The dairy industry uses milk. In yoghurt making enzymes turn a sugar in
milk called lactose into lactic acid. Rennin is an enzyme used to turn
milk into cheese
4.24 Types of chemical reactions
neutralisation - an acid reacts with an alkali (or base)
oxidation - Something reacts with oxygen.
thermal decomposition - a compound breaks up when heated.
4.25 Neutralisation
nitric acid is neutralised to form salts called nitrates
ammonia + nitric acid ---> ammonium nitrate
NH3(g) + HNO3(aq) --> NH4NO3(aq)
ammonium nitrate is a good fertiliser
sulphuric acid is neutralised to give salt called sulphates
hydrochloric acid is neutralised to give salts called chlorides
4.26 Thermal decomposition
heat
calcium carbonate ---> calcium oxide + carbon dioxide
CaCO3(s) ---> CaO(s) + CO2(g)
limestone lime
heat
copper carbonate ---> copper oxide + carbon dioxide
CuCO3(s) ---> CuO(s) + CO2(g)
4.27 The reaction of water and calcium oxide
calcium oxide + water ---> calcium hydroxide
CaO(s) + H2O(l) ---> Ca(OH)2(aq)
lime
limewater
4.28 Neutralising soil acidity
Plants need soil that is nearly neutral. If soil is too acidic plants
do not grow.
Calcium oxide and calcium hydroxide are bases.
They react with acids so can be used to neutralise acidic soil. e.g.
nitric acid + calcium oxide ---> calcium nitrate + water
acid in soil
base
neutral
4.29 Uses of calcium carbonate
Limestone is calcium carbonate.
Limestone is added to iron ore in blast furnace to make iron.
Limestone is heated with clay in a kiln to make cement.
Limestone is heated with sand and sodium carbonate to make glass