Year 8 Practice Two IB Middle Years Chemistry PDF

Summary

This is a practice paper for year 8 IB Middle Years Chemistry from Aga Khan Academy Mombasa. It features questions on the periodic table and other chemistry concepts.

Full Transcript

Aga Khan Academy Mombasa

year 8 practice two
IB Middle Years
Chemistry
Grade: Grade 9
Criteria: A 124 B 114 C 109 D 25

Total: 372 points
Authors: Fred Machel Bongu

Page 1 of 146
Section 1

No items in this section

Page 2 of 146
Task 1

Q 2.1 The Modern Periodic Table of Elements is arranged by A1

A. atomic mass
B. atomic number
C.valence electrons
D. number of isotopes

A A

B B

C C

D D

Q 2.2 Which is an alkali metal? A1

A. Magnesium
B. Iron
C. Sodium
D. Europium

A A

B B

C C

D D

Page 3 of 146
Q 2.3 Elements in a..................have similar chemical properties. A1

A. period
B. group
C. row

A A

B B

C C

Q 2.4 As you move down a group, atomic radius increases because - A1

A. you add more and more neutrons
B. you add more and more protons
C. you add more and more shells (energy levels)
D. you add more atomic mass

A A

B B

C C

D D

Page 4 of 146
Q 2.5 Elements in the same column of the periodic table always have the same # of A1
_______ as one another.

A. Protons
B. Neutrons
C. Electrons
D. Valence Electrons

A A

B B

C C

D D

Page 5 of 146
The Periodic Table

The periodic table shows the positions of metals, non-metals and metalloids. Metals tend to
lose electrons and so they form cations. Non-metals tend to gain electrons so they form anions.
Elements in a group have the same oxidation state and therefore similar chemical properties.

Page 6 of 146
Q 3.1 A6

Page 7 of 146
Teacher's Explanation

Page 8 of 146
Q 3.2 A2

Teacher's Explanation

Page 9 of 146
Q 3.3 A1

Teacher's Explanation

Q 3.4 A2

Teacher's Explanation

Page 10 of 146
Q 3.5 A3

Teacher's Explanation

Page 11 of 146
Atomic Number

Q 4.1 A1

Teacher's Explanation

Atomic number

Q 4.2 A1

Teacher's Explanation

Page 12 of 146
Page 13 of 146
Q 4.3 A5

Teacher's Explanation

Page 14 of 146
Criterion BC

A group of students wanted to find out the if there is any effect on change of state at different
places. They decided to climb a mountain and did the experiment at 5 diffrent places as they
climbed up. This is how they did the experiment: A sample of pure substance called X was slowly
heated from –5.0 °C, which is below its melting point, to 90 °C, which is above its boiling point. Its
temperature is measured every minute and the results are represented on the graph.

Q 5.1 B2
State a research question for this experiment. {level 1-2

Teacher's Explanation

What is the effect of change in altitude/height in the melting point of substance X?

Page 15 of 146
Q 5.2 B2
Describe the independent variable [level 3-4]

Teacher's Explanation

Change of height or altitude the experiment was done at 5 different locations which had different
height above sea level
At the bottom of the mountain, then 3 other locations each 1000metere or IKm apart going up the
mountain

Q 5.3 B2
Describe the dependent variable

Teacher's Explanation

The DV was the melting point measured using a thermometer in oC
The temperature was recorded when all substance x has melted
This was repeated 3 times at each location
the results were recorded in a table for easy reference and presentation

Q 5.4 B2
Suggest one control variable

Teacher's Explanation

amount of substance used should be constant, say 5g each time. if different amounts are used, it will
not be a fair test

Page 16 of 146
Q 5.5 C2
Suggest an explanation why the temperature stays the same between B and C as
shown in the graph.

Teacher's Explanation

Heat is being absorbed to change state.

Q 5.6 C2
Describe a weakness in this investigation and suggest how it might be improved

Teacher's Explanation

One minute is too long to wait to measure change in temperature. Something might have changed
between the next minute.
It would be better to measure every 30 seconds or use a data logger connected to a laptop so that the
temperature is measures throughout.

Page 17 of 146
Criterion A

Page 18 of 146
Q 6.1 A3
a. Identify the name of the row with the elements Li to Ne in the Periodic Table
above. (level 1-2)

b. State the element with the smallest radius in this row of Li to Ne. (Level 3-4)

c. Suggest the reason this element has the smallest atomic radius. (Level 5-6)

Teacher's Explanation

a. Period 2

b. Neon

c. Due to the increasing effective nuclear charge which increases across the period attracting the shells
more strongly, an electron is added as we move across but goes to the same shell therefore the ENC is
stronger reducing the size of the atom across.

Page 19 of 146
The following poem by Vernon Newton is called
"Mistress Fluorine"
Fervid Fluorine, though just nine
Knows her aim in life: combine!
In fact, of things that like to mingle,
None's less likely to stay single.

Page 20 of 146
Q 6.2 A1
Of the halogens in the periodic table above, state which element has the smallest
radius. (level 1-2)

A Br

B At

C Cl

D F

Teacher's Explanation

D

Q 6.3 Describe the trend of atomic radius from Li to K in the periodic table above. (level 5- A1
6)

Teacher's Explanation

The atomic radius of atoms generally increases from top to bottom within a group.
Li has only two energy levels, 2.1 so it is has a small atomic radius; while K has 4 energy levels 2.8.8.1
hence it has a large atomic radius

Page 21 of 146
Q 6.4 Explain why the halogens in Group VII have similar chemical properties. (Level 7-8) A1

Teacher's Explanation

all have 7 electrons in their outer shell
all react by gaining one electron

Q 6.5 A1
The diagram above illustrated a relationship between electrons in an atom.
Describe the trend in this relationship down a group in the periodic table. (level 5-6)

Teacher's Explanation

The diagram shows shielding effect which increases down a group because the number of energy
level increases hence more repulsion between electrons further down a group.

Page 22 of 146
Q 6.6 A3
Interpret this information to make scientifically supported judgments about the
chemistry of fluorine.
( hint: make as many conclusions as you can form the information given) (level 7-8)

Teacher's Explanation

Has atomic number 9
electron configuration 2.7
very reactive gains 1 electron
most reactive halogen because of small size, therefore, attracts electrons easily.
reactivity decreases down the group

Page 23 of 146
Models (Criterion B)

As a scientist, an industry has requested you to determine the rate of a reaction that is used to
make carbon dioxide.
The industry uses limestone (calcium carbonate) and hydrochloric acid to produce carbon dioxide.
CaCO3 + 2HCl --> CaCl2 + H2O + CO2
You are given a set up of apparatus shown below.

Page 24 of 146
Q 7.1 B1
The limestone (calcium carbonate) used in the factory is brought in from the mine
in different sizes.

State a research question that you can investigate based on a factor that affects the
rate of a reaction. (level 1-2)

Teacher's Explanation

How does change in size of calcium carbonate affects the rate of a reaction with hydrochloric
acid.
How does change in surface area affect the rate of a reaction

Q 7.2 B1
State hypothesis that can be tested in this investigation. (Level 1-2)

Teacher's Explanation

Increasing the sizes of calcium carbonate used in the reaction with hydrochloric acid will reduce the
rate of production of carbon dioxide.

Increasing the surface area of calcium carbonate by reducing the sizes will increase the rate of reaction
with hydrochloric acid.

Page 25 of 146
Q 7.3 B1
Describe the independent variable in this investigation. ( Level 3-4)

Teacher's Explanation

Independent variable is the different sizes of calcium carbonate
Independent variable is change in surface area

Q 7.4 B1
Describe the dependent variable in this investigation. (Level 3-4)

Teacher's Explanation

Dependent variable is the rate of reaction measured by recording the volume of carbon dioxide produce
per second or minute.

Q 7.5 B1
Describe a safety measure you will observe while carrying out the investigation.
(Level 5-6)

Teacher's Explanation

Wear a lab coat or gloves to protect skin from the hydrochloric acid
Wear goggles to protect eye from spillage or particles of calcium carbonate

Page 26 of 146
Q 7.6 B1
Describe an environmental issue you will observe in this investigation. (Level 5-6)

Teacher's Explanation

Carbon dioxide, CO2 produced is a green house gas, so only little amount should be produced. So
I will use small amounts of calcium carbonate
Calcium carbonate is mined, so I will use very little amount.
Waste such as calcium chloride should not be poured directly into the sink but into a chemical
waste container to be disposed properly by laboratory technician or recycled

Q 7.7 B2
Explain why it is important to repeat an investigation several times. (Level 7-8)

Teacher's Explanation

Replication lets you see patterns and trends in your results.
The more times an experiment is repeated, the more anomalies stick out and can be discounted.
Too check for anomalies and to show that the results is not by luck or random.
If you repeat it many times then the data is considered more reliable as the chance of it all being
down to luck or random is reduced.

Page 27 of 146
Q 7.8 B2
Suggest another method you could use to measure the rate in this investigation. (
Level 7-8)

Teacher's Explanation

Use a weighing balance to measure change in mass per second or minute

Page 28 of 146
Patterns

Q 8.1 A1

A Choice A

B Choice B

C C

Teacher's Explanation

B

Page 29 of 146
Q 8.2 A1

A Choice A

B Choice B

C C

Teacher's Explanation

C

Page 30 of 146
Q 8.3 A1

A Choice A

B Choice B

C C

Teacher's Explanation

A

Page 31 of 146
Q 8.4 A1

A Choice A

B Choice B

C C

Teacher's Explanation

A

Page 32 of 146
Q 8.5 A1

A Choice A

B Choice B

C C

Teacher's Explanation

B

Page 33 of 146
Q 8.6 A1

A Choice A

B Choice B

C C

Teacher's Explanation

B

Page 34 of 146
Q 8.7 A1

A Choice A

B Choice B

C C

Teacher's Explanation

C

Page 35 of 146
Q 8.8 A1

A Choice A

B Choice B

C C

Teacher's Explanation

C

Page 36 of 146
Q 8.9 A1

A Choice A

B Choice B

C C

Teacher's Explanation

A

Page 37 of 146
Q 8.10 A1

A Choice A

B Choice B

C C

Teacher's Explanation

B

Page 38 of 146
Q 8.11 A1

A Choice A

B Choice B

C C

Teacher's Explanation

B

Page 39 of 146
Q 8.12 A1

A Choice A

B Choice B

C C

Teacher's Explanation

A

Page 40 of 146
Q 8.13 A1

A Choice A

B Choice B

C C

Teacher's Explanation

B

Page 41 of 146
Q 8.14 A1

A Choice A

B Choice B

C C

Teacher's Explanation

B

Page 42 of 146
Q 8.15 A1

A Choice A

B Choice B

C C

Teacher's Explanation

C

Page 43 of 146
Q 8.16 A1

A Choice A

B Choice B

C C

Teacher's Explanation

C

Page 44 of 146
Periodic table

Q 9.1 C1
Identify a pair of letters which represents elements that are in the same period.

A Choice A

B Choice B

C Choice C

D Choice D

Teacher's Explanation

D

Page 45 of 146
Q 9.2 Identify which row shows the correct number of protons and electrons in the ion of C1
an element in Group II of the Periodic Table.

A Choice A

B Choice B

C Choice C

D Choice D

Teacher's Explanation

B

Page 46 of 146
Q 9.3 C1
State what determines the order of the elements in the Periodic Table.

Teacher's Explanation

atomic number / number of protons
ignore: number of electrons

Periodic trend

Q 9.4 A2
Explain the ionic radii for elements across period 3 shown in the diagram above.

Teacher's Explanation

Ionic radius decreases moving from left to right across a period. This is because metals lose electrons
to form ions hence ending up with more protons so the positively charged nucleus draws in the
electrons more tightly. But, for the non-metallic elements, ionic radius increases because there are
more electrons than protons as non-metals form ions by gaining electrons

Page 47 of 146
Periodic table

Q 10.1 C1
Identify a pair of letters which represents elements that are in the same period.

A Choice A

B Choice B

C Choice C

D Choice D

Teacher's Explanation

D

Page 48 of 146
Q 10.2 Identify which row shows the correct number of protons and electrons in the ion of C1
an element in Group II of the Periodic Table.

A Choice A

B Choice B

C Choice C

D Choice D

Teacher's Explanation

B

Page 49 of 146
Q 10.3 C1
State what determines the order of the elements in the Periodic Table.

Teacher's Explanation

atomic number / number of protons
ignore: number of electrons

Periodic trend

Q 10.4 A2
Explain the ionic radii for elements across period 3 shown in the diagram above.

Teacher's Explanation

Ionic radius decreases moving from left to right across a period. This is because metals lose electrons
to form ions hence ending up with more protons so the positively charged nucleus draws in the
electrons more tightly. But, for the non-metallic elements, ionic radius increases because there are
more electrons than protons as non-metals form ions by gaining electrons

Page 50 of 146
Atomic structure

Q 11.1 A3

Teacher's Explanation

The table shows some information about six particles.

Page 51 of 146
Q 11.2 A1
State the nucleon number for particle A

Teacher's Explanation

85

Q 11.3 A1
Explain why particle B is a negative ion.

Teacher's Explanation

Has more electrons than protons

Q 11.4 A2
Which two atoms are isotopes of the same element?........................... and...........................
Explain your answer.

Teacher's Explanation

C and E (1)
Same number of protons but different number of neutrons (1)

Page 52 of 146
These tasks explores evidence as a related concept

Q 12.1 A1
State what is meant by the term isotopes.

Teacher's Explanation

Atoms with same number of protons and different number of neutrons / atoms with same atomic
number and different mass number

Q 12.2 A3

Number neutrons

Number of protons

Electronic configuration

Teacher's Explanation

number of neutrons 17
number of protons 16
electronic configuration 2.8.6

Page 53 of 146
Q 12.3 A1
Sulfur has a low melting point and does not conduct electricity.
Explain why sulfur has a low melting point.

Teacher's Explanation

Weak intermolecular forces / weak attraction between molecules

Q 12.4 A1
Explain why sulfur does not conduct electricity.

Teacher's Explanation

No free electrons / no delocalised electrons / all electrons used in bonding / no mobile electrons

Page 54 of 146
This question is about bonding, structures and properties. The box gives four types of structure.

The table shows some properties of four substances, A, B, C and D.

Page 55 of 146
Q 12.5 A2
Complete the table by giving the correct type of structure for each substance.
You may use each structure once, more than once or not at all.

A

B

C

D

Teacher's Explanation

A simple molecular
B giant covalent
C giant metallic
D giant ionic

All 3 to 4 correct 2 marks
1 to 2 correct options 1 mark.

Page 56 of 146
A group of students tested electrical conductivity of a range of solids and liquids using the
apparatus below.

The students recorded their results in the table below.

Page 57 of 146
Q 12.6 A2
Explain the difference in conductivity between sodium chloride solution and sodium
chloride solid.

Teacher's Explanation

When sodium chloride is dissolved in water, the solution conducts very well, because
the solution contains ions. The solution of sodium chloride contains sodium ions, which have a
positive charge, and chloride ions, which have a negative charge. However, sodium chloride in solid
state has no free ions. The ions are held tightly by strong electrostatic bonds.

Q 12.7 A1
Explain the observation recorded for graphite.

Teacher's Explanation

Graphite is a good conductor of electricity because it contains delocalised (free) electrons. These
electrons are free to move through the structure of the graphite.

Q 12.8 A1
Suggest the difference in conductivity between distilled water and tap water.

Teacher's Explanation

Tap water contains dissolved salts in it. These salts dissociates into ions when electricity passed
through it which are responsible for the electricity conductivity of tap water. But distilled water
does not contain any dissolved salts, so it does not conduct electricity.

Page 58 of 146
Interaction is the related concept explored in these question

A group of Y9 students conducted an investigation using the information below.

Data Table
Element Group Atomic radius (10-12m)

Li 1 130

Na 1 160

K 1 200

Q 13.1 B1
State a research question that the students used to guide the investigation.

Teacher's Explanation

How does change in atomic radius affect reactivity of alkali metals with water?

Page 59 of 146
Q 13.2 B1
State an hypothesis that the student tested in this investigation.

Teacher's Explanation

Reactivity of alkali metals is directly proportional to atomic radius
As the atomic radius increases, the reactivity of alkali metals with water increases.

Q 13.3 B1
Describe independent variable in this investigation.

Teacher's Explanation

Atomic radius of alkali metals

Q 13.4 B1
Describe dependent variable in this investigation.

Teacher's Explanation

Time taken for 1g of each metal to react completely with water.

Page 60 of 146
Q 13.5 B2
Describe two control variables that the students kept constant for fair test.

Teacher's Explanation

Volume of water used should be the same for a fair test
Mass of alkali metal used

Q 13.6 B1
State a safety precaution that is necessary in this investigation.

Teacher's Explanation

Wear lab coat to protect against accidental spills,
Wear goggles, or safety glasses to protective eyes protect the area surrounding the eye in order to
prevent particulates, water or chemicals from striking the eyes.
Wear gloves to protect against chemicals,

Q 13.7 B3
Describe how the investigation was carried out by the students

Teacher's Explanation

1. Pour a fixed volume of water in the water trough.
2. Place 1g of lithium on the water surface.
3. Time how long it takes for the metal to react completely with water
4. Repeat at least three times
5. Repeat for Na and K

Page 61 of 146
Q 13.8 C1
Suggest an improve that the students could make in order to collect enough data.

Teacher's Explanation

Increase the number of alkali metals to 5 in order to have five data points.

Page 62 of 146
Periodic table

Q 14.1 A2
Use the correct words from the box to complete the sentence.
electrons ions protons neutrons shells
The nucleus of an aluminium atom contains.............................. and...............................

Teacher's Explanation

protons
neutrons

any order
allow proton
allow neutron

Page 63 of 146
Q 14.2 A1
Complete the sentence.

In the periodic table, aluminium is in Group..............................

Teacher's Explanation

three

Page 64 of 146
Q 14.3 A1
The symbol means that aluminium can be recycled. It does not show the correct
chemical symbol for aluminium.
State the correct chemical symbol for aluminium......................................................

Teacher's Explanation

Al

Page 65 of 146
Q 14.4 D2
State two reasons why aluminium should be recycled.

Teacher's Explanation

any two from:
limited resource
expensive in terms of energy / mining
effects on the environment, such as, landfill, atmospheric pollution, quarrying

Q 14.5 D2
Aluminium has a low density, conducts electricity and is resistant to corrosion.
Which one of these properties makes aluminium suitable to use as kitchen foil?
Give a reason for your answer.

Teacher's Explanation

resistant to corrosion
does not react (with water or food)

Page 66 of 146
Atomic Structure

This question is about atomic structure and elements.

Q 15.1 A2
Complete the sentences.
The atomic number of an atom is the number of.............................................................
The mass number of an atom is the number of..........................................................................................................................................................................................

Teacher's Explanation

protons
protons and neutrons

Q 15.2 A2
Explain why an atom has no overall charge.
Use the relative electrical charges of sub-atomic particles in your explanation.

Teacher's Explanation

(because the relative electrical charges are) –(1) for an electron and +(1) for a proton
and the number of electrons is equal to the number of protons

Page 67 of 146
Q 15.3 A2
Explain why fluorine and chlorine are in the same group of the periodic table.
Give the electronic structures of fluorine and chlorine in your explanation.

Teacher's Explanation

(the electronic structure of) fluorine is 2,7 and chlorine is 2,8,7
(so fluorine and chlorine are in the same group) because they have the same number of or 7 electrons
in their highest energy level or outer shell

Page 68 of 146
Q 15.4 C1
What is the chemical symbol of this non-metal?

Teacher's Explanation

S

Q 15.5 A2
When elements react, their atoms join with other atoms to form compounds.
Complete the sentences.
Compounds formed when non-metals react with metals consist of
particles called...................................................

Compounds formed from only non-metals consist of
particles called.........................................

Teacher's Explanation

ions
molecules

Page 69 of 146
Group 1 Metals: Alkalis

Q 16.1 C6
Two elements in group 1 of the periodic table are lithium and sodium.
Very small pieces of lithium and sodium were reacted separately with water.
Describe the similarities and differences in what is seen and in the products of the
reactions.

Teacher's Explanation

Your answer can include any of the following:
Similarities - both:
float/on the surface
move around
effervescence/bubble/fizz
decrease in size/disappear/dissolve
produce hydrogen/H2
produce (metal) hydroxide/LiOH and NaOH
produce alkaline solution/solution with pH greater than 7/add named indicator to the solution
and correct colour change
correct products shown in equations

Differences:
sodium more vigorous/more effervescence/moves faster
melts
forms ball/sphere
produces a flame/catches fire/sparks

Page 70 of 146
Q 16.2 C6
Group 1 of the periodic table contains the alkali metals lithium, sodium and
potassium.
The alkali metals show a pattern in their reactivity with water.
This pattern is shown when small pieces of lithium, sodium and potassium are added
separately to water.
Describe the reactions and explain the pattern in reactivity.

Teacher's Explanation

Your answer can include any of the following:
Description:
effervescence/fizzing/bubbles
float/on surface
move
produce hydrogen (may be shown in word or balanced equation)
an alkaline/metal hydroxide solution (may be shown in word or balanced equation)
gets smaller/disappears/dissolves
reactivity increases with increasing atomic number/down the group/potassium effervesces more
than sodium and lithium/potassium moves faster than sodium or lithium
sodium and potassium melt/form a (silver-coloured) ball
hydrogen burns when potassium/ sodium react
potassium gives a lilac flame/sodium gives a yellow flame
universal indicator added to water turns blue/purple

Explanation:
(group 1 metals) react by losing one electron
electron is more easily lost with increasing atomic number/down the group
electron/ outer shell is further away from nucleus/atomic radius increases/there are more electron
shells with increasing atomic number/down the group
more shielding (of outer electron)/less attraction between nucleus and outer electron/ more
shells between outer electron and nucleus with increasing atomic number/down the

Page 71 of 146
Criterion B

A student is interested in the length of time that glow sticks will glow at different temperatures.
The student placed identical sticks into water at various temperatures and then broke the inner
tube, starting the reaction.

Q 17.1 Identify the variables in this investigation. Independent variable, the dependent B4
variable, and two control variables

Teacher's Explanation

Page 72 of 146
Q 17.2 Formulate a suitable hypothesis for the investigation. If.... then.... because.... B3

Teacher's Explanation

Q 17.3 Using the equipment above design an investigation to determine the conductivity of B3
sugar and table salt.

Teacher's Explanation

Insert the conductivity meter probe into a beaker containing the solution of the sample. Record the
results and repeat 3 times to get at least similar readings.

Page 73 of 146
Patterns

Q 18.1 Describe the atomic radius from Q to T. Then explain the atomic radius trend you C2
have stated from Q to T.

Teacher's Explanation

Atomic radius increases from Q to T.
Atomic radius increases down a group due to increase in energy level.

Page 74 of 146
Q 18.2 C1
State a pair of letters that represents elements that are in the same group.

A Q and T

B R and S

C P and S

D Q and S

Teacher's Explanation

D

Q 18.3 C1
State what determines the order of the elements in the Periodic Table.

Teacher's Explanation

atomic number / number of protons
ignore: number of electrons

Page 75 of 146
Q 18.4 A2
Explain the difference between the ionic radius of Q and R.

Teacher's Explanation

The ionic radius of Q is smaller than that of R. This is because metals lose electrons to form ions hence
ending up with more protons so the positively charged nucleus draws in the electrons more tightly.
But, for the non-metallic elements such as R, the ionic radius increases because there are more
electrons than protons as non-metals form ions by gaining electrons

Page 76 of 146
Q 18.5 State which group of the periodic table should this element be placed. Give a reason C2
for your answer.

Teacher's Explanation

Group 8
the element has 8 electrons in the outer energy level/shell

Q 18.6 Lithium, sodium, and potassium are in Group 1. All these elements react with water. C2
In terms of electronic structure, explain why elements in the same group of the
periodic table have similar chemical properties

Teacher's Explanation

elements in same group have the same number of electrons in outer shell accept energy level for shell
accept a correct reference to a specific group eg (all) have one electron in outershell / (all) lose one
electron (when they react)

Page 77 of 146
Criterion A

Q 19.1 A3
Name Charge Relative mass

Proton

Neutron

Electron

Teacher's Explanation

proton, positive, 1
neutron, neutral, 1
electron, negative, zero or 1/1840,

Page 78 of 146
Q 19.2 State the name of the gas produced when lithium reacts with water. A1

Teacher's Explanation

Hydrogen

Q 19.3 Lithium + Chlorine --> Lithium chloride A1
Balance the equation below
Li + Cl2 --> LiCl

Teacher's Explanation

2Li + Cl2 --> 2LiCl

Q 19.4 The alkali metals are in group 1 of the periodic table. Explain in terms of electrons A1
why the alkali metals are in group 1.

Teacher's Explanation

Alkali metals have one electron in the last energy level/shell.

Page 79 of 146
Q 19.5 State the period of the periodic table in which this element should be placed in. A2
Explain your answer.

Teacher's Explanation

Period 6
It has 6 energy level or shells

Page 80 of 146
Criterion B

Content type: Video

This item includes interactive content. Please refer to the digital version of this assessment to view this
item.

Q 20.1 A group of Y9 students watches the video above to investigate how changes in atomic B2
radius affect the reactivity of the alkali metals down the group.
State the independent and the dependent variable in this investigation.

Teacher's Explanation

IDV = atomic radius
DV = reactivity of the metals

Q 20.2 Suggest two control variables in this investigation. B2

Teacher's Explanation

(i) The volume of water should be the same
(ii) The size/mass of the metal used should be the same

Page 81 of 146
Q 20.3 Suggest two apparatus that can be used to measure to measure the control variable B2

Teacher's Explanation

((i) measuring cylinder
(ii) weighing balance

Q 20.4 Suggest two safety precautions that should be observed when reacting Alkali metals B2
with water in a school laboratory.

Teacher's Explanation

(i) wear safety goggles to protect the eyes
(ii) wear the gloves to protect their hands from the alkali solution
(iii) wear the laboratory coat to protect the clothes and skin

Page 82 of 146
Criterion B

Content type: Video
Displacement reactions of the halogens
As the outer shell becomes further from the nucleus. the force of attraction between the
nucleus and the outer shell decreases. As a result, the halogen becomes less reactive.

This item includes interactive content. Please refer to the digital version of this assessment to view this
item.

Q 21.1 State a research question that can be investigated using the information in the video B1
and the statement above.

Teacher's Explanation

How does a change in atomic radius affect the reactivity of the halogens?

Page 83 of 146
Q 21.2 Describe the independent and dependent variables in your research question. B2

Teacher's Explanation

IDV = the change in atomic radius which increases down the group
DV = reactivity of the halogens which decreases as the atomic radius increases

Q 21.3 Suggest two control variables in this investigation B2

Teacher's Explanation

Use the same volume of the halogens in the reaction
Use the same concentrations of the halogens

Q 21.4 State the name of the apparatus that can be used to measure the control variable B1
mentioned above.

Teacher's Explanation

Measuring cylinder to measure the volume of solution

Page 84 of 146
Q 21.5 Suggest safety precautions that should be observed while carrying out displacement B2
reactions.

Teacher's Explanation

Carry out the reactions in a fume cupboard or an open area that is well-ventilated because halogen
fumes are poisonous.
wear gas mask to prevent the inhaling of the halogen fumes
Wear safety goggles to protect your eyes from objects or spillage
wear gloves to protect hands and skin from halogen solutions which are corrosive
wear lab coat to protect clothing and skin from halogen spillage

Page 85 of 146
Criterion C

Q 22.1 Explain improvements or extensions to the method that would benefit the scientific investigation C2
carried out as shown in the video in criterion B above.

Teacher's Explanation

Repeating an experiment more than once helps determine if the data was a fluke, or represents
the normal case.

Q 22.2 State and explain the trend of atomic radius down group 17, the halogens. C2

Teacher's Explanation

The atomic radius (atomic size) of the halogens increases gradually down the group. Reason:
The number of shells occupied with electrons increases down the group.

Page 86 of 146
Q 22.3 Suggest a relationship between atomic radius and reactivity of the halogens down C2
the group.

Teacher's Explanation

As you go down the group the reactivity of the halogens decreases because they increase
in electron shells; so the atoms are larger as you go down the group. Therefore, the
attraction of the outer electron to the nucleus decreases as you go down group 17

Page 87 of 146
Criterion C

Q 23.1 Explain improvements or extensions to the method that would benefit the scientific investigation C2
carried out as shown in the video in criterion B above.

Teacher's Explanation

Repeating an experiment more than once helps determine if the data was a fluke, or represents
the normal case.

Q 23.2 State and explain the trend of atomic radius down group 17, the halogens. C2

Teacher's Explanation

The atomic radius (atomic size) of the halogens increases gradually down the group. Reason:
The number of shells occupied with electrons increases down the group.

Page 88 of 146
Q 23.3 Suggest a relationship between atomic radius and reactivity of the halogens down C2
the group.

Teacher's Explanation

As you go down the group the reactivity of the halogens decreases because they increase
in electron shells; so the atoms are larger as you go down the group. Therefore, the
attraction of the outer electron to the nucleus decreases as you go down group 17

Page 89 of 146
Criterion B and C

Metals react with dilute acids to form a salt and hydrogen gas.
A student investigated how changing the concentration of hydrochloric acid affected how fast
the reaction between hydrochloric acid (HCl) and Magnesium ribbon takes to produce Magnesium
chloride ( MgCl2 ) and hydrogen gas (H2)

Page 90 of 146
Q 24.1 Calculate the mean for the 1.2 mol/dm3 concentration of hydrochloric acid, in the third C2
row.

Teacher's Explanation

51 + 49 = 100
100/2 = 50 seconds [2 mks]
but if 68 = 51 + 49 = 168
168/2 = 84 [1mk only]

Q 24.2 State three apparatus that are not shown in the diagram that was used in this B3
investigation

Teacher's Explanation

measuring cylinder for measuring volume of the acid
weigh balance for weighing magnesium ribbon
stop watch for recording the time

Q 24.3 State a research question that could be used to guide the investigation B1

Teacher's Explanation

Does an increase in the concentration of hydrochloric acid affect the time taken to produce 30 cm3 of
hydrogen gas?

Page 91 of 146
Q 24.4 Describe the independent and dependent variables. B2

Teacher's Explanation

IDV = Change in concentration
DV = time taken

Q 24.5 Suggest two control variables B2

Teacher's Explanation

The volume of hydrochloric acid
Mass of magnesium ribbon

Q 24.6 Describe two safety precautions that could be observed during the investigation. B2

Teacher's Explanation

Acids are corrosive hence one should wear gloves and a lab coat
Wear goggles to protect the eye from acid spillage and objects

Page 92 of 146
Q 24.7 One weakness in this investigation is hydrogen gas escaping immediately after the C2
metal is added to the acid before the stopper is fixed.
Another student made a different apparatus set up as a way to improve the
investigation. The set is shown below

Explain how the reaction will be started in this second set up.

Teacher's Explanation

The thread is pulled to mix the magnesium ribbon and acid. The stopwatch is started at
the same time.

Page 93 of 146
Section 6

Applying Science
The global context is globalization and sustainability with a focus on human impact on
environment. This task (Section 6-7) addresses the key concept of system and assesses criterion
D (reflecting on the impacts of Science).

Hydroelectricity, or hydroelectric power, is electricity produced from hydropower

Displacement in water resources development occurs as a result of three categories of dams,
irrigation dams, hydropower dams, dams and reservoirs for potable water supplies (multipurpose
dams combine two or all three functions), by adversely affecting people whose lands or house, or
both, are submerged (in full or in part), or people whose place of employment disappears

Page 94 of 146
Image 6.1

Page 95 of 146
List of Hydroelectric Power station failures
Plant Country Year Power Loss Cause
/ Deaths
Möhne Germany 1943 5.1 MW Destroyed during WWII by RAF
Reservoir Lancaster
Schoellkopf United 1956 One worker Destruction of the plant as it fell from
Power Station States was killed the Niagara Gorge wall and collapsed
into the Niagara River, caused by water
seeping into the back wall of the
power station.
Vajont Dam Italy 1963 1917 Overtopping due to landslide caused
deaths by instability of the rock around, with
the evidence of the instability
suppressed by the Government.
Mangla Dam Pakistan 1971 1000 MW The power house was damaged due to
an Indian Air Force raid during
the Indo-Pakistani War of 1971.
Banqiao Dam China 1975 26000 dead Flood
Lawn Lake Dam United 1982 Three lives Failed in fair weather due to a
States lost combination of poor construction, age,
and neglect.
Sayano- Russia 2009 75 Fatalities Turbine Failure
Shushenskaya
Dam
Dhauliganga India 2013 280 MW Unprecedented flash floods in June,
hydroelectric 2013 in the State of Uttarakhand
station. causing the complete submergence of
power house.

Page 96 of 146
Q 25.1 Using the information from the task, discuss and evaluate implications of using D 13
hydroelectric power plant for electricity.
In your answer you should include:
Ethical Impacts on the local community while getting displaced and losing their
land due to construction of hydroelectric power
Economic impact of hydropower plant for State Govt.
Wider Impact on the ecosystem
Sustainability of Hydroelectric power plant in comparison with other renewable
source of energy
A concluding appraisal of all the points discussed above

Page 97 of 146
Teacher's Explanation

Use this to award marks

Either an economical or ethical impact is 1-2
stated
Impact on ecosystem is stated

A statement of one economical impact on 3-4
State Govt
A statement of one ethical impact on local
community
Environmental impact stated
Sustainability of hydropower plant stated

Two economical implications for State Govt 5-8
Two ethical implications on local community
Two environmental impact on ecosystem
Sustainability of hydropower plant compared
with one renewable resources

Two economical implications for State Govt, 9 - 13
with justification for one (2)
Two ethical implications on local community,
with justification for one (3)
Two environmental impact on ecosystem,
with justification for one (3)
Sustainability of hydropower plant compared
with two other renewable resources, with
justification for one (3)
A concluding appraisal (2)

Page 98 of 146
Section 3

Investigating Skills
This task (Sections 3-4) addresses the key concept of systems and focuses on Criterion B
(Inquiring and Designing) and Criterion C (Processing and Evaluating).

A group of students investigated reactions between metals and hydrochloric acid to confirm their
positions on the reactivity series.

Page 99 of 146
The rate of production of hydrogen gas is a consequence of the reactivity of the metal present
during the reaction. They were provided with the following.

Equipment
Freshly polished pieces of metal of equal surface area (2 cm × 2 cm) including copper,
zinc, tin, magnesium, aluminium, and iron.
1.0 mol dm-3 hydrochloric acid
250 cm3 conical flask
Glass gas syringe
Rubber bung
Stopwatch

Diagram

Page 100 of 146
Q 26.1 Help them design an experiment to investigate the effect the reactivity of a metal has B 10
on the initial rate of production of hydrogen gas. In your design you must:
State a hypothesis. 1 mk
Identify a control variable. Describe how to control this variable. 2mks
Explain how the method you have designed will enable the students to
examine the initial rate of reaction and hence make a comparison between the
reactivity of the metals. 5 mks
Describe any two safety measures 2mks

Teacher's Explanation

How does IV affect DV, keeping CV constant. 3 marks

IV-metal, CV-Surface area, DV-Volume of
3 marks
hydrogen

Using gas syringe-measure the volume -stop
3 marks
watch

Safety glasses, gloves etc 3 marks

State a hypothesis. 1 mk
A more reactive metal will produce the largest volume of hydrogen gas in a given time
Identify a control variable.
the volume of HCl, time taken for the reaction
Describe how to control this variable. 2mks
Measure the volume of HCl using a measuring cylinder, time using a stopwatch when the
reaction starts and stops
Explain how the method you have designed will enable the students to examine the initial rate
of reaction and hence make a comparison between the reactivity of the metals. 5 mks
Using a syringe attached to the conical flask as shown in the diagram, record the volume of the
gas produced every 15 seconds for 4 minutes
repeat 3 times for each metal
calculate the average and use the results to plot a graph.
Describe any two safety measures 2mks
wear lab coat to protect against corrosive acid
wear goggles to protect the eye from objects and spillage
wear gloves to protect hands from corrosive acid

Page 101 of 146
Criterion A

Strand (i) Describe Scientific knowledge

1. The description below represents the development of atomic theory from Dalton’s
indivisible atom to the modern atomic model.

As per Dalton’s atomic theory:
Atoms are smallest indivisible particles
All atoms in the same element are identical
Atoms can neither be created nor destroyed
All atoms share identical properties including weight within an element.

Q 27.1 "Atoms are smallest indivisible particles" This statement can be modified, by A1
identifying the 3 subatomic particles. Name these 3 subatomic particles

Teacher's Explanation

All the protons, neutrons and electrons

Page 102 of 146
Q 27.2 All atoms in the same element are identical A1
Outline a reason for modification of this statement.

Teacher's Explanation

atoms can have isotopes which have different number of neutrons

Page 103 of 146
Criterion B

Make Meals in the Mountains
A celebrity chef from Hyderabad is well known for her cooking skills. Hyderabad Biryani is her
signature dish, which is usually made with spices, vegetables, rice, and meat. On special occasions
and festival seasons, people stand in the long queue to taste her signature dish. Her competitors
wanted to challenge her cooking skills, so they asked a chef to do a cooking show in different
parts of India and make her signature dish “Hyderabadi Biryani”. Particularly they choose all the
places located at high altitudes (1000-3000 meters above the sea level).

High altitude presents several challenges when preparing certain foods. While doing her cooking
shows, she noticed it takes much longer to cook dishes in the hills which are at high altitudes than
in the plain areas which are at low altitudes. It also significantly affected her dish quality. She
thought this problem was due to the raw materials, vegetables, and meat being from different
areas. So, she brought all the raw materials and ingredients from Hyderabad, however, it did not
solve the issue. Bringing her kitchen crew from Hyderabad also did not resolve the cooking issue.

After hearing this problem, her friend working at the university mentioned that in higher altitudes
the air pressure will drop, which lowers the boiling point of the water. Vegetables and meat
cooked with moist heat take much longer to cook at high altitudes because water cannot achieve a
higher temperature than its boiling point which is eventually low. Then she made slight
adjustments in the cooking method and brought the original flavours of the “Hyderabad Biryani”.
To understand the science behind the story, design a suitable experiment to investigate the
boiling of the water in different altitudes.

Page 104 of 146
Q 28.1 State the research question to be tested in this investigation. [AL 1-2] B1

Teacher's Explanation

Does an increase in the altitude affect the boiling point of water?

Q 28.2 Outline the independent variable used in this study. [AL 3-4] B1

Teacher's Explanation

The change in altitude: 5 data points should be chosen between 1000 - 3000 meters above sea level

Q 28.3 State the dependent variable in the experiment. [ AL 1-2] B1

Q 28.4 State the units of the dependent variable in the experiment. [ B1
AL 1-2]

Teacher's Explanation

The boiling point of water was measured using a thermometer (using 0C as units)

Page 105 of 146
Q 28.5 Outline two controlled variables relevant to the experiment. [AL 3-4] B2

Teacher's Explanation

The volume of water used should be the same = 100 ml
Use distilled water because it is pure. Impurities affect the boiling point of water
The amount of heat used should be the same = bunsen burner / portable gas burner

Q 28.6 Formulate and explain a suitable hypothesis that could be tested. [AL 5-6] B1

Teacher's Explanation

An increase in altitude will result in a decrease in the boiling point of water because there is less or
decrease in air pressure at higher altitude

Q 28.7 Describe two relevant safety considerations to carry out the experiment [AL 5-6] B1

Teacher's Explanation

Wear a lab coat to protect clothing and skin from any water spillage
Use heat prove gloves for handling hot apparatus
Wear goggles to protect the eye from any water splattering
Use a pair of tongs to hold the hot apparatus

Q 28.8 Explain how sufficient and relevant data will be collected in the experiment. [AL 7-8] B1

Teacher's Explanation

choose 5 altitudes as data points between 1000 - 3000 meters above sea level
Repeats temperature measurements 5 times or 3 times at each altitude do obtain concordant values

Page 106 of 146
Q 28.9 Explain how two controlled variables were kept constant in the experiment [AL 7- B1
8]

Teacher's Explanation

measure the volume of water using a 100 ml measuring cylinder
Use distilled water as different waters might have some solutes in them that affect the boiling point

Page 107 of 146
Criterion B

Things taste and smell nice because they have lots of sugar dissolved in them and they give out
perfume. Perfume is a liquid but we manage to smell it when we are some way away.

A group of Y9 students decided to design an investigation to find out if the distance from the
source of perfume like food or flower affects the time taken to detect the smell.

Q 29.1 State a research question that the students could use in the investigation. B1

Teacher's Explanation

How does the increase in the distance from the source of the perfume affect the time taken to detect
the smell?

Q 29.2 State and explain the hypothesis that would guide the students to carry out the B3
investigation.

Teacher's Explanation

Hypothesis: As the distance between a person and the source of a perfume increases, the time taken
to detect the scent of the perfume will increase.
Explanation: The distance between a person and a source of perfume affects the time taken to detect
the scent. As the distance increases, it will become more challenging for a person to perceive the
fragrance. This is because the movement of perfume molecules in the air takes time as one moves away
from the source, the further the distance the more time it takes before one can smell the perfume.

Page 108 of 146
Q 29.3 Explain how the variables will be manipulated to collect sufficient relevant data. B6
Independent variable....
Dependent variable....
Two control variable....

Teacher's Explanation

Independent variable: distance in metres
To investigate this hypothesis, the students could design an experiment where they place a person at
various distances (1m, 2m, 3m, 4m, and 5m) from a controlled source of perfume, such as a cooking
food.

Dependent variable: time taken in seconds
They would then ask the person to start and stop a stopwatch as soon as the perfume is sprayed, or
food lid opened and when they smell the perfume or food. By repeating the process 5 times and
recording data, the students can analyze whether their hypothesis is supported by data.

Control variable
Amount of perfume sprayed each time. If the amount is different, then the rate of movement of the
molecules will be different.
The position/height at which the perfume is sprayed should be kept constant. position and direction of
the spray will affect the movement of the perfume molecules.
The room should be closed and fans switched off to prevent drought or wind. The movement of air will
affect the speed at which perfume molecules move.

Page 109 of 146
Criterion A

Knowing and understanding

This task (questions 1 to 2) addresses the key concept of systems and focuses on criterion A
(Knowing and understanding).

The arrangement of the elements in the periodic table comes from the electronic configuration of
the elements.

Periodic table, in full periodic table of the elements, in chemistry, the organised array of all the
chemical elements in order of increasing atomic number—i.e., the total number of protons in the
atomic nucleus.

Page 110 of 146
Q 30.1 A1

Select the correct terms from the given options and fill in the blanks.

1. There are 7 Periods and Groups in the periodic table.

Teacher's Explanation

There are seven periods and eighteen/(eight) groups in the periodic table.

Q 30.2 State the family names of the following elements - A2
1. Calcium
2. Chlorine

Teacher's Explanation

1. Alkaline earth metals
2. Halogens

Page 111 of 146
Q 30.3 From the given elements, identify the element which has similar physical and A1
chemical properties of that of Magnesium - 12.

Calcium -20, Sodium- 11, Aluminium- 13, Potassium- 19

Teacher's Explanation

Calcium, since they are in the same group.

Page 112 of 146
Q 30.4 A3

Teacher's Explanation

Page 113 of 146
Q 30.5 A2

Use at least four points to describe this.

Teacher's Explanation

Page 114 of 146
Q 30.6 A1

Teacher's Explanation

Page 115 of 146
Criterion D

Applying science

The global context is scientific and technical innovation. This task (questions address the key
concept of change and assesses criterion D (Reflecting on the impacts of science).

Each element possesses unique properties and characteristics, making them valuable and
essential for various applications.

Carbon also does an excellent job of removing trihalomethanes (THMs) from the water. THMs are
a class of chlorinated chemicals which result from the interaction of chlorine and decaying organic
matter in the public water supply. These chemicals are known carcinogens, and the high levels
found in local water supplies have been a cause for concern in recent years. Our Carbon
Adsorption Towers are in series – meaning water has to pass through both towers before moving
on to the next step. We routinely change out all of the carbon in each of the tanks on an annual
basis.
Many will recognize the term “granular activated carbon” as it is the most common technology
used in home filter systems, refrigerator filters and ice maker filters. The technology is designed
primarily to remove the chlorine taste found in tap water. Unfortunately, these home systems are
often poorly maintained and neglected. They will work for a while but then what happens next
can be kind of scary. If the filter isn’t changed at the appropriate interval, the effectiveness of the
chlorine removal will decrease and, in some cases, the contaminants in an over-loaded filter
actually begin to discharge back into the water. That’s not good. And furthermore, there have
been numerous instances of bacterial contamination associated with poorly maintained home
filter systems. Once the chlorine is gone – there’s the risk of bacteriological growth downstream
of the filter.

As you answer the questions, do not copy-paste, use your own words.

Page 116 of 146
Q 31.1 State how often is the carbon in each of the tanks changed out. D1

Teacher's Explanation

Yearly, carbon in each of the tanks on an annual basis.

Q 31.2 Explain why chlorine is used in Swimming pools. D2

Teacher's Explanation

Disinfection: Chlorine is a disinfectant that sanitizes the water in swimming pools by
killing bacteria, viruses, and other microorganisms that can cause diseases and infections.
Preventing the growth of bacteria and algae: Chlorine also prevents bacteria and algae
growth in swimming pools.

Q 31.3 Suggest the risks associated with poorly maintained home filter systems. D2

Teacher's Explanation

Poorly maintained home filter systems can decrease the effectiveness of chlorine removal
and, in some cases, the contaminants in an over-loaded filter can actually begin to
discharge back into the water. There have also been numerous instances of bacterial
contamination associated with poorly maintained home filter systems.

Page 117 of 146
Q 31.4 Low-cost activated carbon has been the focus of research in recent years. Agricultural C2
waste such as coconut shell, orange and banana peels are getting much attention
these days. Use of the waste as a low-cost adsorbent will provide several
advantages.
Suggest two advantages of using this agricultural waste for activated carbon in
water treatment.

Teacher's Explanation

recycling of waste material
secondly economical – its affordable to many

Q 31.5 Discuss and evaluate the implications of using carbon filters for removing chlorine D3
taste in drinking water, interacting with economic factors.

Teacher's Explanation

carbon filters are effective for removing chlorine taste in drinking water.
They remove TMS compounds from water from water. This is good since they are
carcinogenic and reduce the chance of one getting cancer, which is expensive to treat.
Carbon filters may not be effective in removing all contaminants
However, because they are removed yearly, carbon filters can be expensive

Page 118 of 146
Criterion B

Investigation skills

This task addresses the key concept of systems and focuses on criterion B (Inquiring and
designing) In this task you will investigate how temperature is related to the solubility of
salts.

Solutions are important in many areas of chemistry, as they play a critical role in a variety of
processes, such as chemical reactions, purification, and separation.

When a solute is added to a solvent, the kinetic energy of the solvent molecules generally
overcomes the attractive forces among solute particles. The solute particles leave the surface
of the solid and move into the liquid phase. If we heat the solvent, the average kinetic
energies of its molecules increase. Hence, the solvent is able to dislodge more particles from
the surface of the solute.

The solubility of KCl in g/100 ml of water at different temperatures (in 0 °C) is given below.

Temperature (°C) Solubility of KCl (g/100ml H2O)
0 3.3

20 7.3
40 13.9
60 23.8

80 37.5
100 56.3

Page 119 of 146
Q 32.1 State a research question for the given data B1

Teacher's Explanation

Any reasonable RQ linking solubility with only one independent variable which is Temperature.

Q 32.2 Formulate a suitable hypothesis with appropriate scientific reasoning. B2

Teacher's Explanation

A hypothesis that explains IV and DV are directly proportional with a scientific explanation.
More specifically
"As the temperature of the solution increases, the solubility of KCl in water also increases." This
hypothesis suggests that there is a positive correlation between temperature and solubility, meaning
that as the temperature of the solution increases, more KCl can dissolve in the water

Q 32.3 Identify the dependent, independent, and controlled variables. B4

Teacher's Explanation

IV is Temperature, DV is solubility and any two controlled variables like Pressure, concentration ,
volume of the water 100ml, etc.

Q 32.4 Design a scientific investigation to test the hypothesis mentioned. Write a safe and B3
logical method you will follow and the materials and equipment required.

Teacher's Explanation

Complete method fully explained and could be replicated and A relevant safety precaution linked to
heating hazard

Page 120 of 146
Criteria B and C

Source https://www.researchgate.net/figure/Fig-1-Electrical-conductivity-meter_fig1_320427865

Conductivity is the measure of the ease at which an electric charge or heat can pass through a
material.

Page 121 of 146
 Solutions that contain dissolved salts conduct electricity because they release charged particles
into solution that are capable of carrying an electric current.
Drops of NaCl Conductivity of 15cm3 of Drops of Conductivity of
−1
solution in μS cm CaCl2 solution in μS cm−1

0 110 0 110
1 132 1 150
2 155 2 282
3 245 3 404
4 340 4 518

Q 33.1 State a research question for some investigation that could test the conductivity of B1
NaCl.

Teacher's Explanation

How does the conductivity of solution depend on the number of drops of NaCl ?

Q 33.2 Using the data in the table above, formulate a suitable hypothesis that could be B2
tested. Use the sentence
If........... then........ because.........

Teacher's Explanation

If the number of drops of NaCl solution increases, then the conductivity of the solution increases
because there are more charged particles in the solution.

Page 122 of 146
Q 33.3 Identify the variables : B3
Independent variable
Dependent variable
Control variable

Teacher's Explanation

Independent variable: Number of drops
Dependent variable: Conductivity of the solution
Control variable: Concentration of salt, temperature, volume of soluton

Page 123 of 146
Q 33.4 From the data in the table, plot a suitable graph and give appropriate title to the C5
graph and label X and Y axis.

Teacher's Explanation

Page 124 of 146
Q 33.5 Explain which salt shows steeper graph. Justify your answer. C3

Teacher's Explanation

will have a steeper graph. NaCl will give two mole ion on dissociation whereas CaCl2 will give 3
mole of ion on dissociation.

Q 33.6 State one improvement in the method for collecting this data. C1

Teacher's Explanation

Increase the number of drops / Use concentration instead of number of drops

Page 125 of 146
Criterion C

Processing and evaluating
This section addresses the key concept of relationships and focuses on criterion C (Processing and
evaluating).

Chemists look for patterns in the periodic table to discover relationships and
trends that help them to predict physical and chemical properties.

Page 126 of 146
A class of MYP 9 students experimented to investigate the relationship between atomic radius
and boiling points of elements, focusing on the halogen family.

They obtained liquid samples of the halogens and heated them until they vaporized, recording the
following data:
1. Group one heated bromine and the result was 58.8°C
2. Group two heated fluorine and the result was -188.11°C
3. Group three heated iodine and the result was 184.3°C
4. Group five heated chlorine: and the result was -34.04°C

Page 127 of 146
Q 34.1 Draw a table to present the results. C3

Teacher's Explanation

Table title and column heading

Page 128 of 146
Q 34.2 Plot a graph using the results. C3

Teacher's Explanation

atomic radius versus the boiling points of the halogens

Q 34.3 Using the graph drawn, explain the relationship between the boiling point and atomic C3
radius.

Teacher's Explanation

The graph between boiling point and atomic radius shows a general trend where the boiling point
decreases as the atomic radius increases. This trend suggests that atoms with larger radii tend to have
weaker intermolecular forces. As the atomic radius increases, the outermost electrons are farther from
the nucleus, weakening the bond to the neighboring atoms and thus lowering the temperature at which
the substance transforms from liquid to gas.

Page 129 of 146
Q 34.4 Evaluate the validity of the hypothesis based on the outcome of the as presented by C2
the students.

Teacher's Explanation

The Validity of a Hypothesis Based on Investigation Outcomes

In this case, the data supports the hypothesis.
The hypothesis is valid because it is supported by data.

Q 34.5 Evaluate the validity of the method based on the outcome of the as presented by the C3
students.

Teacher's Explanation

The method is valid as it enabled the students to collect data that supported the hypothesis and is
based on the expected. However, the method should have included at least 5 trials. This would
eliminate the chance that it could just be a coincidence. Having 5 trials increases the reliability of the
data.

Q 34.6 Suggest extensions to the method that would help the students understand the C1
relationship between atomic radius and boiling points of elements in the periodic
table.

Teacher's Explanation

To facilitate a deeper understanding of the relationship between atomic radius and boiling points
within the periodic table, the students could investigate the trend of boiling points across a period.

Page 130 of 146
Criterion C

Page 131 of 146
Q 35.1 A group of students reacted metals with water using the apparatus above to measure C4
the volume of gas produced.
Explain improvements to the method to enable the students to measure the volume
of the gas accurately.

Teacher's Explanation

Use a Graduated Cylinder: Instead of the boiling tube, use a graduated cylinder to collect the gas. This
will allow for more precise measurement of the gas volume. The graduated markings on the cylinder
will provide an accurate reading of the volume in milliliters or cubic centimeters.
Ensure an Airtight Seal: Make sure the connection between the test tube and the delivery tube is
completely airtight. Any leaks will result in inaccurate gas volume measurements. Use a rubber stopper
or other sealant to create an airtight seal.

Measure Water Displacement: As the gas collects in the graduated cylinder, it will displace an equal
volume of water. By measuring the volume of water displaced, you can determine the volume of gas
produced. This method is more accurate than measuring the gas directly.

Control Temperature and Pressure: Temperature and pressure can affect the volume of gas produced.
Try to maintain a constant temperature throughout the experiment. If possible, conduct the experiment
at standard temperature and pressure (STP) conditions for the most accurate results.

Repeat Trials: Perform multiple trials of the experiment and take the average gas volume. This will help
account for any experimental errors or variations in the reaction. Consistent results across trials will
increase confidence in the accuracy of the measurements.

Page 132 of 146
Q 35.2 Plot a graph using the data above and the atomic number of the alkali metals. Use C4
the periodic table to find the atomic number of the alkalis.

Teacher's Explanation

Atomic number versus atomic radius of the alkali metals

Q 35.3 Describe and explain the trend in atomic radius down the group. C2

Teacher's Explanation

Atomic radius increases down because of the increase in number of shells or energy levels

Page 133 of 146
Q 35.4 Suggest the relationship between Atomic radius and reactivity of the Alkali metals C2
down the group

Teacher's Explanation

As the atomic radius increases down the group, the reactivity also increases.

Content type: Video

This item includes interactive content. Please refer to the digital version of this assessment to view this
item.

Q 35.5 Suggest evidence of reactivity of elements with other substances. C1

Teacher's Explanation

production of gas
formation of precipitate
change in colour

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Q 35.6 Describe the trend in trend in boiling point from fluorine to iodine C1

Teacher's Explanation

Increases from fluorine to iodine

Q 35.7 Suggest an explanation for the trend of boiling point from fluorine to iodine, C1

Teacher's Explanation

As the atomic mass increases from fluorine to iodine, the boiling point increases

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Criterion Band C

Processing and evaluating
This section addresses the key concept of relationships and focuses on criterion C (Processing and
evaluating).

Chemists look for patterns in the periodic table to discover relationships and
trends that help them to predict physical and chemical properties.

The periodic table, also known as the periodic table of the elements, is a rows and columns
arrangement of the chemical elements.

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Lothar Meyer, a Geman chemist proposed that on arranging elements in the increasing order of
their atomic weights, similarities appear in physical and chemical properties at regular intervals.
Robert, a student of St. Peter’s school wanted to check for the validity of the hypothesis and
compiled a data of Atomic Mass and Atomic Volume of some elements.
Element Atomic Mass Atomic Volume ( )
Hydrogen 1 19
Helium 4 40
Lithium 7 18
Beryllium 9 9
Boron 10 8
Carbon 12 4
Nitrogen 14 22
Oxygen 15 21
Fluorine 19 22
Neon 20 22
Sodium 23 29
Magnesium 25 21.5
Aluminium 26 17
Chlorine 35 40
Argon 40 41
Potassium 41 53
Calcium 40.08 41
Iron 56 11
Bromine 80 35
Rubidium 85 60
Strontium 87 40

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Q 36.1 Select the most appropriate graph to present the periodic trend of these C1
elements.

A Scattered graph

B Bubble graph

C Bar graph

D Line graph

Teacher's Explanation

D line graph

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Q 36.2 Use the compiled data of atomic mass and atomic volume and present the data in C 10
a graph. Label the x and y-axis.

Teacher's Explanation

Graph title - 1 mark
Type of graph - 1 mark
At least five points plotted correctly - 1 mark
Ten points plotted correctly - 2 marks
All points plotted correctly- 4 marks.

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Q 36.3 Using the data in the table, state why alkali metals occupied the peak position. C2

Teacher's Explanation

Q 36.4 Suggest one way to improve the validity of the data. C2

Teacher's Explanation

pH is a scale used to specify the acidity or basicity of an aqueous solution. Acid solutions are
measured to have lower pH values than basic or alkaline solutions.

Content type: Video

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Q 36.5 State a research question that can be used to study the effect of pH on plants. B1

Teacher's Explanation

"How does varying soil pH levels affect the growth and health of plant species X over a period
of Y weeks?"
How does changing soil pH levels affect the growth and health of plant species X over a period
of Y weeks?"

a.

Q 36.6 Identify the independent variable and describe how you will manipulate it to B3
investigate the ideal pH for plant growth

Teacher's Explanation

The independent variable in this investigation is the pH level of the soil. To manipulate this variable,
you can prepare several soil samples with different pH levels within and outside the ideal range. For
example:
Sample A: pH 5.5
Sample B: pH 6.0
Sample C: pH 6.5
Sample D: pH 7.0
Sample E: pH 7.5
Sample F: pH 8.0

Ensure to keep other variables such as temperature, light, and water supply constant for all samples.
Monitor and measure the plant growth in each sample over a set period, and analyze the data to
determine the optimal pH range for plant growth. This manipulation will allow you to observe the
effects of different pH levels on plant growth and identify the ideal soil pH conditions.

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Q 36.7 You are planning to design a method to investigate the pH of the soil of your garden, C5
playground, neighbourhood park, nearest construction site, and nearby farming area.
Design a table for recording and processing your data. You should select the number
of rows and columns and add labels. The table should include:
indication of more than one trial
column for independent variable: type of soil
column for dependent variable: pH of soil.
column for average: pH of soil.

Teacher's Explanation

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Criterion A: Knowing and Understanding

Q 37.1 When a substance dissolves, it: A1
A changes into a completely new substance that can disappear in all liquids
B breaks apart into smaller particles that are invisible to the naked eye
C melts into a new chemical that is invisible
D undergoes a chemical change

A changes into a completely new substance that can disappear in all
liquids

B breaks apart into smaller particles that are invisible to the naked
eye

C melts into a new chemical that is invisible

D undergoes a chemical change

Q 37.2 Solutions can contain a solid and a liquid. sometimes they can contain two liquids. A1
An example where a solution contains two liquids is:
A. a cup of instant coffee
B. an ocean of saltwater
C. cleaning wet paintbrushes with turpentine or water
D. a mixture of cooking oil and milk

A a cup of instant coffee

B an ocean of saltwater

C cleaning wet paintbrushes with turpentine or water

D a mixture of cooking oil and milk

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 Heating curves show how the temperature changes as a substance is heated up.

Q 37.3 Answer the questions using this heating curve. A3
a. Suggest the boiling point temperature of the substance
b. Suggest a letter representing the range where the solid is being warmed
c. Suggest the letter that represents the range where the vapor/gas is being
warmed

Q 37.4 Define atomic number and mass number A1

Q 37.5 A1
Explain why an atom has no charge. Hint. use the charges of subatomic particles
in your work

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Q 37.6 an atom X has the electron arrangement 2.8.1. Describe its position in the periodic A1
table.

Q 37.7 Plant leaf pigments can be separated using paper chromatography. The Rf values A2
can then be used to identify the pigments.
The Rf value is the ratio of the solute’s distance travelled to the solvent’s distance
travelled. Using the diagram below, calculate the Rf value.

From the diagram:
Distance travelled by the solute = 2.1 cm
Distance travelled by the solvent = 2.8 cm

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Q 37.8 A3

Q 37.9 Analyse and evaluate the effectiveness of using a separating funnel to separate A2
immiscible liquids.

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