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Year 10

OCR

Foundation

Predicting states of matter

I can predict the state of matter of a substance at different temperatures using the particle model.

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New

Year 10

OCR

Foundation

Predicting states of matter

I can predict the state of matter of a substance at different temperatures using the particle model.

Download all resources

Share activities with pupils

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Lesson details

Key learning points

There are changes in arrangement, movement and energy of particles during state changes.
There are two types of change, physical and chemical, and these can be explained in terms of the particle model.
The physical state of a substance can be predicted at specified temperatures.
Forces of attraction between particles have a role in determining the amount of energy needed for state changes.

Keywords

Physical change - A change in which no new substances are formed, such as a change in state, e.g. melting.
Chemical change - When a reaction takes place and atoms or ions in the reactants are rearranged to make new products/substances.

Common misconception

Pupils often confuse physical and chemical changes. Also, pupils do not appreciate that substances can exist in any state of matter depending on temperature.

Use the phrasing 'substances in a solid state' rather than solids to avoid pupils thinking that the substance only exits in one specific state.

Use different strength magnets to help pupils understand forces of attraction having varying strengths.

Teacher tip

Equipment

Optional : pair of magnets that have different magnetic strengths.

Licence

This content is © Oak National Academy Limited (2024), licensed on Open Government Licence version 3.0 except where otherwise stated. See Oak's terms & conditions (Collection 2).

Lesson video

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Worksheet

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Starter quiz

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6 Questions

Q1.

Which of the following statements can correctly finish this sentence?: Substances in a solid state...

Correct answer: cannot be compressed.

Correct answer: do not take the shape of the container they are in.

have larger particles than all substances in a liquid state.

have particles which have no energy at all.

Correct answer: have particles which vibrate around their fixed positions.

Q2.

Which of the following statements can correctly finish this sentence? Substances in a liquid state…

Correct answer: at boiling point can form bubbles of the substance anywhere in the liquid.

can be compressed.

Correct answer: have particles at the surface which may have enough energy to leave.

Correct answer: have particles which can move around and over each other.

take the shape of the whole of the container they are in.

Q3.

Which of the following statements can correctly finish this sentence? Substances in a gas state…

Correct answer: are formed in the bubbles inside a liquid at boiling point

Correct answer: can be compressed

have particles which are not attracted to each other at all, ever

Correct answer: have particles which can escape an open container to fill all the space

Correct answer: take the shape of the container they are in

Q4.

As particles gain energy, they are able to overcome the between them.

Correct Answer: forces of attraction, force of attraction

Q5.

Which aspects of a particle change when a substance’s state of matter changes?

Correct answer: arrangement relative to other particles

Correct answer: energy of particle

Correct answer: movement of particle

shape of particle

size of particle

Q6.

Match the following terms to their definitions.

Correct Answer:boiling point,temperature where substance changes from liquid state to gas state

temperature where substance changes from liquid state to gas state

Correct Answer:condensing point,temperature where substance changes from gas state to liquid state

temperature where substance changes from gas state to liquid state

Correct Answer:freezing point,temperature where substance changes from liquid state to solid state

temperature where substance changes from liquid state to solid state

Correct Answer:melting point,temperature where substance changes from solid state to liquid state

temperature where substance changes from solid state to liquid state

Exit quiz

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6 Questions

Q1.

Changes of state, such as when a substance in the solid state becomes a substance in the liquid state, do not involve the formation of new substances, so these are changes.

Correct Answer: physical

Q2.

In the main image, the important information has been replaced with grey boxes. Which of the three images below is the best representation of a chemical change of substances in the same state?

Correct answer: image 1

image 2

image 3

Q3.

Starting from a substance in the gas state, sort the states and the temperatures at which changes of state happen in order?

1 - substance in the gas state

2 - condensing point

3 - substance in the liquid state

4 - freezing point

5 - substance in the solid state

Q4.

In the image below, what indicates that substance A has a lower melting point than substance B?

the colour of the particles: green is a colder colour than pink

the direction of the arrows: different arrows going in all directions

the shading of the particles: darker means stronger

Correct answer: the thickness of the arrows: thinner means weaker

Q5.

Three balloons are filled with neon, methane and oxygen, respectively. Why would you expect the substance in the methane filled balloon to have the highest boiling point?

it has more than one type of atom in its molecules

it has strong covalent bonds in the molecules

Correct answer: it has stronger intermolecular forces between the particles

it has the biggest particles and they do not move

Q6.

At which temperature are all these substances in a liquid state?

at -200$$^o$$C

at 25$$^o$$C

at 1500$$^o$$C

between 0 and 100$$^o$$C

Correct answer: never

Q5 "Relating Pressure, Volume, Amount and Temperature" Source: Openstax (https://openstax.org/books/chemistry-2e/pages/9-2-relating-pressure-volume-amount-and-temperature-the-ideal-gas-law) licensed under CC BY 4.0