Chemical Reactions Course Content 2024 PDF

Summary

This document contains notes on chemical reactions, including unit outlines, lesson starters, and examples. The document covers topics such as chemical reactions, formulae, and naming compounds, along with various types of reactions such as combination and displacement. It is part of the 2023 Year 10 Science Semester Two course from OCR.

Full Transcript

Chemical
Reactions

Year 10 Science Semester Two 2023
Unit Outline
Chemical reactions
Types
Rates
Equations
States
Predicting products
Rates and changing conditions

Procedure for titration reaction

Assessment
SIS task 2
Unit test
 Lesson 1 Starter

1) IONIC
1) What type of compound is this? (Ionic/Covalent)
2) 3 (Cu, N,
2) How many elements make up this compound? O)
3) Using your ion table, name this compound 3) Copper
Nitrate
4) If a piece of pure Iron was added to a solution of
4) It would
this, what would happen? displace the
ANSWERS NEXT
ANSWERS NEXT: copper to
for Iron 3
Nitrate

Word and Chemical Equations
Learning Intentions

To be able to write word equations
To write correct balanced compounds

4
Word Equations
Word equations tell you the names of the reactants
as well as the names of the products.

It is important to remember that a chemical change
has occurred, you cannot use = but must use  to
show the change from reactants to products.

5
Conservation of Mass
In any chemical equation, no mass can be created or destroyed, it
can only be rearranged.

The bonds between the atoms in the reactants are broken, then
the atoms make new bonds with other atoms to form the products.

https://www.youtube.com/watch?v=2S6e11NBwiw (4:36)

Whatever we started with, must be present at the end.

(Examples of amazing chemical reactions -
6
https://www.youtube.com/watch?v=0Bt6RPP2ANI)
Combination Reactions
Combination reactions generally involve two reactants joining
to make one product. The individual masses of the reactants
will combine to make the new product.

For example, magnesium, a shiny silver metal, burns in air to
form a white powder, magnesium oxide.
Your teacher will now demo a combination
reaction for you; the reaction of Zinc and
Sulphur. Look for evidence that a chemical
reaction has taken place.
Time permitting DEMO 7
 Chemical Formulae
To be able to write balanced chemical equations, you also need to
know some general formulae and recognise what atoms are
present in the formulae.
You will always be given a list of cations (positive) and
anions (negative) for assessments for this unit –see your
Ammonium Barium Aluminium Al 3+

NH
4
+ booklet
Ba for
2+ this
Iron (III)
Hydrogen Calcium Fe3+
H+ Ca2+
Sodium Copper (II)
Na+ Cu2+
Potassium Lead
K+ Pb2+
Silver Magnesium
Ag+ Mg2+
Sodium Zinc
Bromide
Na + Br- Carbonate
Zn 2+ Phosphate
Chloride
Mercury Cl- CO32-(II)
Iron PO43-
Iodide
Hg +
I- Fe 2+
Oxide Nitride 8
Copper (I)
Hydroxide Manganese
O2-2+ N3-
Cu + Mn
OH- Sulphate
Nickel
Nitrate SO 2-
Ni 2+4
What’s the formula?
Last semester, you learnt to work out formulae from
ions
Have some more practice:
For example, sulphuric acid is made up of H+ and SO42-
What is the formula when the following ions
ions.
react?
To decide on the formula, you can either swap and
drop the charges…1.Na+ and O2-
2H+ + SO42-  H2SO4

2.Ba2+ and OH-
Or, balance the charges, in this case by having 2
hydrogen ions for every sulphate ion.
2 x H+ bonded with3.Al 3+
andthe
SO42- gives Clmolecule
-
H2SO4
This method helps you to see that 2 H are needed in
9
the reactants for conservation
4.Ca2+ and of mass.
N3-
Naming Compounds

There are a few general naming rules you need to help you with
this:
1. If there are two atoms of the same element, the name stays
the same. For example, N2 is nitrogen.
2. If there are two elements joined together, the name usually
ends in –ide. For example, MgO is magnesium oxide, KCl is
potassium chloride.
3. If there are more than two elements joined together and one of
them is oxygen, the name usually ends in –ate. For example,
MgCO3 is magnesium carbonate.
4. The ion sheet can help you name a compound, as you join the 10
two names of the ions together.
Chemical Formulae
Task 1: Complete Lesson 1 Worksheet: ‘Naming Ionic
Formulae’ worksheet
Task 2: Complete Lesson 1 Worksheet: ‘Creating
Balanced Ionic Formulae’

11
Lesson 2 - 3
Learning Intentions

To be able to write and balance symbol
equations for chemical reactions and include
state symbols

12
Lesson starter: name these
compounds
KBr
AlBr3
MgSO4
NaNO3
K2CO3
Al(OH)3 13
 Balanced Equations
Balanced equations use formula to represent the reactants and
products

Reminder: In all chemical equations the reactants
are written on the left hand side of an arrow and the
products on the right hand side. An arrow is used to
illustrate a chemical change.

14
 Balancing Chemical
Equations
Chemical equations must be
balanced.
There must be the same number of atoms on the left
and right hand sides of the equation. There must also
be the same number of each type of atom on the left
and right hand sides.

During a reaction, no atoms are lost or made, so the mass of the 15
products must equal
the mass of the reactants.
 Balancing Chemical
Equations
Remember: There must be the same number of atoms on the left
and right hand sides of the equation. There must also be the
same number of each type of atom on the left and right hand
sides.

To balance this equation, we need to multiply the
16
individual atoms by a number that will result in
there being the same number of each type of atom
on each side of the equation.
 Balancing Chemical
Equations
Remember: There must be the same number of atoms on the left
and right hand sides of the equation. There must also be the
same number of each type of atom on the left and right hand
sides.

You can only balance equations by placing numbers in
front of a formula. This multiplies each part of the formula 17
by that number. You cannot alter the subscript numbers as
these tell us the ratio of atoms in a specific molecule.
Worked Example
Na + O2  Na2O
Na = 1 Na = 2
O=2 O=1

I can multiply O on the right hand side by 2…

Na + O2  2 Na2O ……but this now gives me
4 Na
Na = 1 Na = 4
O=2 O=2

So I need to multiply the Na on the left by 4….
4 Na + O2  2 Na2O
Na = 4 Na = 4 The equation is now
balanced. 18
O=2 O=2
Combination Reactions – students
complete in booklet
Use your ion table to complete the combination reactions below

Then try the following combination reactions:
Magnesium + oxygen  magnesium oxide
2Mg + O2  2MgO
Oxygen + carbon  carbon dioxide
O2 + C  CO2
Calcium oxide + water  calcium hydroxide
CaO + H2O  Ca(OH)2
Sodium + chlorine  sodium chloride
2 Na + Cl2  2 NaCl
19
State Symbols
When writing balanced equations, there are four state symbols that
show the physical state of the reactants and products.

l liquid

s solid

g gas

The state symbols should be written in subscript and in
brackets after each reactant
and product as shown:

2Na (s) + Cl2 (g) 
20
2NaCl (s)
NaOH (aq) + HCl (aq)  NaCl (aq) +
H O
Writing equations
1. Start with the word equation and name all of the reactants and
products.
2. Replace the words with formula and write the symbol equation.
3. Check to see if the equation is balanced by counting the number
of each atom on each side of the equation.
4. If the number of each atom is the same on each side, the equation
is balanced. If not, add coefficients in front of the formulae to
balance the equation.
5. Add physical state symbols.

21
Worksheets 1-3 -Balancing Symbol
Equations (stage 1), (stage 2) and
A world of reactions.
Complete Worksheets Lesson 2 Balancing Symbol
Equations 1
If confident move onto Balancing Equations 2 which
follows.Success Criteria:
I can write balanced chemical
equations
22
Knowledge Check
When James dropped a lump of magnesium into a test
tube of hydrochloric acid, a solution of magnesium
A ‘lump’
chloride was formed. James noticed a of
gasmagnesium
being shows it was
formed. a solid.
A solution of magnesium chloride
shows it is aqueous so it is dissolved
For this reaction: in water. There must also have been
water present in the reactants (aq).
1. Write a word equation
2. Write a balanced formula equation
3. Add state symbols

Magnesium + hydrochloric
Success Criteria: acid  magnesium chloride
+ hydrogen
I can write balanced chemical equations with state 23
symbols
Mg (s) + 2 HCl (aq)  MgCl2 (aq)
+ H2 (g)
Extra Practice
Jefferson – choose your difficulty
level in practising balancing
equations games.

Use this Balancing equations link to
learn more about balancing
chemical equations.

Worksheets available from the
24
portal in the “extension” area.
Success Criteria
I can write a word equation
I can write a symbol equation
I can balance a symbol equation
I can include state symbols in a symbol
equation

25
 Different types of
Lesson 3-4:
Reactions
Lesson starter: Balance these equations! (no states
necessary for these)

1) ____ AlBr3 + ____ K  ____ KBr + ____ Al

2) ____ FeO + ____ PdF2  ____ FeF2 + ____ PdO

3) ____ P4 + ____ Br2  ____ PBr3

4) ____ LiCl + ____ Br2  ____ LiBr + ____ Cl2
26
5) ____ PbBr2 + ____ HCl  ____ HBr + ____ PbCl2
ANSWERS NEXT slide
 Different types of
Lesson 3-4:
Reactions
Answers

1) 1 AlBr3 + 3 K  3 KBr + 1 Al

2) 1 FeO + 1 PdF2  1 FeF2 + 1 PdO

3) 1 P4 + 6 Br2  4 PBr3

4) 2 LiCl + 1 Br2  2 LiBr + 1 Cl2

5) 1 PbBr2 + 2 HCl  2 HBr + 1 PbCl2 27
 Different types of
Lesson 3-4:
Reactions
Learning Intentions:

1. To be able to recognise different types of
reactions and work out what the products of
them will be.

2. Construct word and balanced symbol equations
with state symbols for each reaction.

28
A world of reactions
Everything on our planet is involved in a cycle; we
don’t eradicate elements or make new ones, we just
turn them into something else.

Even new, manmade elements are made from ones
that already exist.

So for this to happen, lots of different types of
chemical reactions are constantly happening, to
break down old compounds and make new ones. 29
Types of Reactions
There are many different types of reactions. In this unit we will
look at some examples of these and by the end you should be
able to:

Have an awareness of the safety precautions you need to
take when carrying out an investigation by reading the
symbols on the containers of chemicals.
Recognise the type of reaction by knowing the reactants
and products.
Write a word equation for any type of reaction
Construct a symbol equation for any type of reaction
(you will always be given a list of ions to help you decide
on the formula)
Correctly balance the equation so the number of each
30
type of atom is the same on each side of the arrow.
Add state symbols to the equation.
Types of Reactions
The types of reactions we look at in this unit are below, use the table
in your booklet to record examples, equations and information
regarding these reaction types.

Combination: A + B  AB

Decomposition: AB  A + B

Displacement: AB + C  AC + B (single) and AB + CD  AD + CB (double)

Precipitation: AB (aq) + CD (aq)  AD (aq) + CB (s)

Neutralisation: Acid + Base  Salt + water 31

Combustion: Fuel (containing C and H) + O2  CO2 (g) + H2O (g)
Combination
– don’t forget to complete your table in the booklet
We have already looked at this one
earlier in the unit.

A + B  AB

Two elements combine to form a
new compound

4Ag + O2 → 2Ag2O 32
Decomposition Reactions
– don’t forget to complete your table in the
booklet
If something decomposes, it breaks down.

Therefore, a decomposition reaction is identified by having only one
reactant as this breaks down to become multiple products.

It’s a bit like a food item being broken down into protein/
carbohydrate/fat and micronutrients.

The elements or compounds produced can then go on to be made into
something else.

https://www.youtube.com/watch?v=UTfMrx7275w
33
(students fill table with pre-done equation for balancing and states
only)
Displacement Reactions
– don’t forget to complete your table in the booklet
Displacement reactions are when an element takes the place of
another
Cu O + Zn Cu + Zn O

Single displacement reactions readily occur. The difference between
single and double displacement reactions is illustrated below

Single displacement: A + BC  AC + B

Double displacement: AB + CD  AD + CB
34
https://www.youtube.com/watch?v=2MawIDT5DFU
Precipitation – don’t forget to complete your table in the
booklet

Is a type of displacement reaction where a solid is
formed

Usually visible by a colour change

https://www.youtube.com/watch?v=34d5ofcRhbU

35
Neutralisation - don’t forget to complete your table in
the booklet
Acid and base react to produce water
pH Scale gives us colours to show acidity:
https://www.youtube.com/watch?v=PdprNTwb4Ks

We will be looking at this in more detail later in the unit.

36
Combustion – don’t forget to complete your table in the
booklet
Combination of a fuel with oxygen

Heat and light produced

Fuel (containing C and H) + O2  CO2 (g) + H2O (g)

https://www.youtube.com/watch?v=yl89heCsBpQ

37
Lesson 5 - Pyrophoric Iron
Practical
Using the practical information
sheet in your booklet –
Carry out the decomposition
reaction
Complete the questions that
follow 38
Lesson 6-7 – Precipitation
Reactions
Lesson starter: identify these types of
reactions
A)

B)

C)

39
Answers are on the next slide
Lesson 6-7 – Precipitation
Reactions
Lesson starter: identify these types of
reactions
A)
A) Answer: Decomposition
B)
B) Answer: Displacement
C)
C) Answer: Combination 40
Lesson 6-7 – Precipitation
Reactions
LEARNING OBJECTIVES:
To identify when precipitation reactions will
take place (solubility)
To write correctly balanced chemical equations
for precipitation reactions including state
symbols
Note: solubility table is at the back of the
booklet
41
 Precipitation Reactions
Precipitation reactions are a special type of
displacement reaction; the chemicals in each
compound ‘swap partners’ to form new compounds,
one of which is a solid.

42
Precipitation Reactions
The precipitation reaction involves two aqueous solutions
combining to form a precipitate.
Aqueous; a compound dissolved in water to form a
solution, like sugar water.
Precipitate; a solid. It can be as lumps that sink to the
bottom of a test tube, a fine powder that makes the
solution look like paint or can be suspended in solution to
make it look cloudy at the top.

We know that certain chemicals are soluble in water and
43
others are not, so when we mix them we can work out
which combined to form the insoluble precipitate.
Solubility of ions – for Q2&3 – this
table is included with your test

44
Teacher guided - example for the
following reaction
Calcium Chloride + Potassium Carbonate 

CaCl2 (aq) + K2CO3 (aq) →

45
Practical
Complete Investigation 5.1: Will it precipitate? And complete Q1.
Remember to look at the hazard labels on the chemicals to assess
what risks they may pose to you and decide what reasonable
precautions you need to take to minimise risk.

For Q2, you need to identify which new compound is the
precipitate. To do that, you are not expected to remember the
solubility of ions.
However, you will be given a table of solubility of common
ions and need to interpret it to discern which compound is the
solid.

When you write your symbol equation, you still need to add the
state symbol (s) to identify this as the solid, whereas all other 46
compounds are aqueous (aq).
Knowledge Check
The following compounds are combined: sodium chloride and silver
nitrate. A solid is formed.

1. Write a word equation for the reaction
2. Write a symbol equation for the reaction
3. If necessary, balance your equation
4. Add state symbols.

Silver nitrate + sodium chloride  silver chloride +
sodium nitrate
Success Criteria:
AgNO3(aq) + NaCl(aq)  AgCl(s) +
I can recognise different types of reactions
NaNO3(aq)
Complete Worksheet 5.4 Precipitation 47
Balancing review
For each of the following, balance the
equation,

Original Equation Balanced Equation
Sr + O2  SrO
Fe + O2  Fe2O3
CuO + H2  Cu + H2O
Fe2O3 + CO  Fe+CO2

48
Worksheet 1 –
Lesson 6-7 (Post Practical Worksheet /Homework task)

49
Success Criteria
I can write a word equation for different types of
reactions
I can write a symbol equation for different types of
reactions
I can balance a symbol equation for different types of
reactions
I can include state symbols in a symbol equation for
different types of reactions

50
Lesson 8 - Extracting metals
Lesson starter: can we identify these common
metals?
A) Which metal used in jewelry turns black/tarnished
on exposure to air over time?

B) Which common metal which turns brown/red on
exposure to air over time?

C) Which very unreactive metal turns green over time
51
when exposed to air?
Lesson 8 - Extracting metals
Lesson starter:
A) Which metal used in jewelry turns black/tarnished on
exposure to air over time?
Answer: Silver
B) Which metal which turns brown/red on exposure to
air over time?
Answer: Iron
C) Which metal turns green over time when exposed to
air?
52
Answer: Copper
Lesson 8 - Extracting metals
Learning Intention
To be able to use reactivity to explain why different extraction
techniques are used for different metals.

Part 1: https://youtu.be/NOKzDSwT3_0
Part 2: https://youtu.be/XZ0bWc-eAFo

53
Carbon reduction
A type of displacement reaction

Iron oxide + carbon  Carbon dioxide + Iron

Copper oxide + carbon  Carbon dioxide + Copper

Why do these reactions work?

Would these two chemicals react: Why/Why not?
Aluminium oxide + Carbon 54
Reactivity series (you don’t need
to remember the order)

55
Complete – Worksheet 1 - Lesson
8
Lesson 8 worksheet
regarding - Metal
displacement in your
booklet
56
Success Criteria
I can state that metals less reactive than carbon can
be extracted using carbon reduction
I can explain that carbon would not be able to
displace metals more reactive than carbon.

57
Lesson 9-10 - Rates of reaction
Learning Intention
To be able to explain how a reaction occurs
based on collision theory
To be able to explain what factors can change
the rate of reaction

58
 Rates of Reaction

Reactions can be very fast, like fireworks or explosives, but they
can also be slow – such as an apple turning brown.

59
 Rates of Reaction
Apples go brown when their flesh
reacts with air. Which apple will go
brown the quickest?
Why?
Where does the reaction take
place?
The reaction can only
take place at the surface
of solids, as this is where
the reactants meet.
60
Rates of reaction
What does rate of reaction mean?
How can we measure it?
What could we do to speed up rate of reaction?
Why do these speed up the rate?

Video below is for reference and can be viewed before the
practical to help with understanding or after the practical to help
with writeup.
https://www.youtube.com/watch?v=f5IGpcuQNxo&t=922s
(16min)
This video from the portal page shows an example of how a rates 61
practical can be carried out.
What makes a reaction happen?
https://www.youtube.com/watch?v=SbapBWjDA74

62
Fruitful collisions
Particles must collide with sufficient energy
Particles must collide in the correct orientation

63
Changing rate of reaction
Change the temperature
Change the surface area
Change the concentration

These change the number of successful collisions of particles
that lead to a reaction

Add a catalyst
Increases reaction rate and doesn’t get used up

https://www.youtube.com/watch?v=ExHV_cFWYSM
64
 Rate of Reaction
Rate = change in reaction
time
e.g. Change in volume gas made
time

If the amount of product made is constant then the change in
the reaction is a constant and is given the value 1, so rate =
__1__
time

65
 Calculating rate at regular
intervals
A student running 100m in 12.5 seconds has an
average speed (rate) of 8 m/s.
This is their rate, however it does not provide enough
information to determine if they were faster at the start
or the end of the race.
If you had times for the first 50 m and the second 50 m,
their rate at the start and end could be compared.
Even better would be if you had their rate for each 10
m.

We know that reactions slow over time, so it would be
beneficial to calculate rate at intervals, rather than
average rate for the whole reaction.
 Rate of Reaction Graphs
These show the increasing amount of product or the decreasing amount
of reactant. The graph can indicate when the reaction was occurring
most quickly.

Shallow gradient
Slow reaction

67
 Finding the Rate of reaction from a
curved graph
YouTube video - how to get the ‘Rate of Reaction’ from
the curve of a graph.
https://youtu.be/GCR5xeduq2o?feature=shared&t=171

68
From the booklet - find the rate of
reaction at 40seconds

69
Rate of Reaction Practical –
see Portal page for the chosen
prac sheet

70
Post Practical –
Worksheet/Homework
5.8 – Calculating rates of reaction
using the gradient of the graph

71
Success Criteria
I can state that the rate of reaction can be measured
by change of product or change of reactant over time
I can state the factors that can affect rate of reaction
I can explain why these factors can change rate of
reaction based on particles colliding
I can calculate the rate of reaction from a curved
graph

The SIS task will include content on rates and
calculating rates of reaction. 72
 Lesson 11 - Combustion
reactions
Lesson starter:
calculate the rate of
reaction for this
graph at the time
point of
approximately
30seconds.
Answers next:
Change in g= 3.7-2.2
= 1.5 73
Change in time: 52-
12 = 40
Lesson 11 - Combustion reactions
Learning Intention
To be able to recognise combustion reactions and
work out what the products of these will be.

74
 Combustion Reactions
Combustion requires 3 essential things:
- Fuel
- Oxygen supply
- An ignitions source
When a fuel burns in oxygen, it releases energy in the
form of heat, light and sound.
Fuels are organic compounds, such as wood, coal,
natural gas and petrol (derived from oil). Spirit
burners use alcohol as the fuel
If there is enough oxygen present, complete
Your teacher will now demo 75
combustion takes place.
combustion for you.
Combustion reactions
The products of complete combustion are always carbon dioxide
gas and water vapour.

Incomplete combustion can produce solid carbon (soot), for
example using the safety flame, and sometimes it can produce
carbon monoxide if appliances are not working correctly or if
areas are not ventilated correctly.

Here is the combustion equation for propane gas in sufficient
oxygen supply:
Propane + oxygen  carbon dioxide + water vapour
C3H8 (g) + O2 (g) CO2 (g) + H2O (g)
76

The equation is unbalanced. Can you balance it??
Incomplete Combustion
https://www.youtube.com/watch?v=lMnaLKlVXxo (3:13)

The above is an informative clip aimed at highlighting the dangers
of incomplete combustions in homes, which you have just learnt
about through in the demo.

77
Corrosion and Combustion
Complete Worksheet 1 – Lesson 11 –
Worksheet 5.6 Corrosion and Combustion

78
Success Criteria
I can state the products of complete
combustion
I can state the products of incomplete
combustion
I can write chemical equations for combustion
reactions

79
Lesson 12-13 - Neutralisation
Reactions
Learning Intention
To be able to recognise neutralisation
reactions and work out what the products will
be.

80
Acids & Bases
Acids are chemicals that taste sour, are corrosive, react with
bases and have a low pH.
Bases are chemicals that taste bitter, are caustic, have a slippery
feel, react with acids and have a high pH.

Examples of acids: vinegar, citrus juice, hydrochloric acid,
sulphuric acid.
Uses of acids: cleaning agents, to make fertiliser, to make
carbonated drinks.
Examples of bases: sodium hydroxide, ammonia, sodium
carbonate.
Uses of bases: cleaning products, soap-making, antacids. 81
 These colours are only for universal indicator.
Other indicators can tell you information about pH
with different colours.

A substance with a low pH is a hydrogen donor,
one with a high pH is a hydrogen acceptor. pH
stands for ‘power of Hydrogen’. When you mix the
right amounts/concentrations together, you can 82
balance acids and bases out to make a neutral
substance.
 Neutralisation Reactions
During a neutralisation reaction between an acid and a base, the
pH decreases when acid is added to alkali (alkali = a dissolved
base (aq)).

The solution has been neutralised when a pH of 7 is achieved.

If excess acid is added, then a low pH will be produced and the
solution will be acidic.

When approaching the pH7 end point (colour change), the titrate
(what is in the burette) should be added one drop at a time. It
can take one drop to make it neutral, and one to make it go too 83
far and become acidic.
 tion

Titration
84
Carrying out titrations
When carrying out a simple acid-base titration,
the following procedure is usually followed:
Add the alkali to the conical flask
Add the indicator to the alkali
Add the acid quickly until you approach the
predicted end point
Add the acid slowly (drop by drop) to the alkali
until the end point is reached.

The end point is reached when the indicator
changes to the appropriate colour. Your
indicator will be pink in alkali, colourless in
acid. You’re looking for the pink colour to
permanently disappear. Single colour
indicators are more accurate than universal 85
indicator.
Acid-Alkali titrations – The
Burette
A burette is used to accurately decide on the
volume of solution added.
The scale reads downwards, not upwards, because
as you open the tap at the bottom, the liquid exits.
The reading on the scale tells you how much
solution you have used.
Each small division is worth 0.1mL. This makes it an
accurate volume measurement.
You need to read the volume using the bottom of
the meniscus. This is the curved shape the solution
has in the tube, like a sideways crescent moon.
You also need to make sure you remove the funnel
before you start.
You will be using a pipette you won’t have used
before to fill the conical flask, I will demo this for
you and you should all have a go at using it. 86
Teacher demonstration
Prac 1) Fill a burette with 1 M hydrochloric acid.
If it ends in –ette, rinse it with what
goes in it, everything else is rinsed
with deionised water

2) With a pipette, accurately measure out 20 mL of 1
M sodium hydroxide and place it in the conical flask.

3) Add a few drops of phenolphthalein indicator
to the flask.

4) Slowly add the acid until the mixture in the flask is
no longer pink and record the titre volume (you need to
swirl the flask as you reach the end point and stop as
soon as the loss of pink is permanent). 87
Neutralisation Reactions
Post demonstration activity sheet – on
the portal
Investigation 5.3: Pass the Salt.

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Success Criteria
I can state what is in a neutralization reaction
I can state the general products of a neutralization reaction
I can explain how to carry out a titration

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Lesson 14 -Products of
neutralisation
Learning Intention
OPTIONAL/MAY HAVE BEEN DONE: Complete PART 3 of the
practical to obtain the salt produced
To be able to recognise different types of reactions and work
out what the names of any salts produced.

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Neutralisation – naming salts
1 The first part of the name of the salt comes from the first name of the
To name the base formed in a neutralisation:
salt
So Ammonium hydroxide gives ammonium …………
Magnesium oxide gives magnesium …………...

2 The acid gives the last part of the name of the salt.

So Sulphuric acid make sulphates
Nitric acid makes nitrates
Hydrochloric acid makes chlorides

Eg. Sodium hydroxide + nitric acid forms: Sodium nitrate
Calcium carbonate + sulphuric acid forms: calcium sulphate
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Naming salts - click to reveal
Complete the word equations for the following neutralisation
reactions. If carbon is present in the reactants, carbon dioxide
will be produced as a product in addition to the salt + water

Sodium hydroxide + sulphuric acid  sodium sulphate + water

Calcium carbonate + hydrochloric acid  calcium chloride + carbon
dioxide + water

Copper oxide + nitric acid  copper nitrate + water
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Knowledge Check – click to reveal
Bicarb, or bicarbonate of soda, is a compound called
sodium hydrogen carbonate, with the formula NaHCO3.
Bicarb can be used to neutralise hydrochloric acid.
(remember what is always produced in a neutralisation
reaction)

1. Write a word equation for the reaction
2. Write a symbol equation for the reaction
3. If necessary, balance the equation
4. Add state symbols.
Sodium hydrogen carbonate + hydrochloric acid  sodium chloride + carbon
dioxide + water
NaHCO3(s) + HCl(aq)  NaCl(aq) +
CO2(g) + H2O(l)
5. Rate yourself, in %, for the above task. Have you 93
improved from the last time that you did this?
Success Criteria
I can name salts based on the acid and alkali
that react

94
Revision Activities
Ensure the booklet has been completed fully
Complete A3 Revision sheet
Complete practice tests and revision worksheets from the portal

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