📖 Lesson 17 ⏱ ~30 min Year 7 · Unit 2 ⚡ +85 XP

Solutions — Solute, Solvent, Concentration

In 1884, Australian chemist Archibald Liversidge measured Sydney Harbour water and found it held approximately 35 g of dissolved salts per litre — the first precise seawater concentration measurement recorded in Australia.

Today's hook: In 1884, Archibald Liversidge at the University of Sydney measured exactly 35 g of dissolved salt in every litre of Sydney Harbour water. That salt is invisible — you can't filter it out, and the water looks clear — yet 35 g is in every litre. Stir 5 spoons of sugar into iced water and you'll see grains at the bottom; stir the same 5 spoons into hot water and they vanish completely. Why does temperature change how much dissolves — and where does the sugar actually go?

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Warm-up

Think First

+5 XP each

Q1 · When you stir sugar into tea and it disappears, where do you think the sugar actually goes? Is it gone forever?

Q2 · A bottle of "concentrated cordial" tells you to add 1 part cordial to 4 parts water. What does "concentrated" mean here, and what would "dilute" mean for the finished drink?

Cross-lesson links: This lesson connects to Lesson 3 (Physical Properties), where you first met solubility, and to Lesson 18 (Factors Affecting Solubility), where you'll investigate what makes substances dissolve faster or in greater amounts.

Core learning

Learning objectives

What you'll master

3 areas

● Know

Solute = what dissolves; solvent = what does the dissolving
Dilute vs concentrated; saturated solution
An aqueous solution has water as the solvent

● Understand

Dissolving at the particle level — solute particles slip between solvent particles
Why dissolving is a physical change, not a chemical one
Why hot water dissolves more sugar than cold water

● Can do

Label the solute and solvent in any solution you're shown
Describe a solution as dilute, concentrated or saturated
Draw a quick particle-level sketch of dissolving

Quick check — when you stir salt into water, which is the solute and which is the solvent?

Vocabulary · tap to flip

Words You Need

5 terms

Core term Concept Skill Reference

Solute

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Solute

The substance that dissolves in a solvent — usually the smaller amount (e.g. salt in salt water).

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Solvent

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Solvent

The substance that does the dissolving — usually the larger amount (e.g. water in salt water). The "universal solvent" is water.

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Aqueous

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Aqueous

A solution where the solvent is water. Written as (aq) in chemistry. Most school chemistry uses aqueous solutions.

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Concentration

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Concentration

How much solute is dissolved in a given amount of solvent. Dilute = a little; concentrated = a lot.

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Saturated

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Saturated

A solution that holds the maximum amount of solute that will dissolve at that temperature. Any extra solute will sit on the bottom undissolved.

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Match each word to its meaning.

Solute
Solvent
Aqueous
Concentration
Saturated

How much solute is dissolved in a given amount of solvent
The substance that dissolves
Holding the maximum solute at that temperature
A solution where water is the solvent
The substance that does the dissolving

The two parts of any solution

Solute + Solvent = Solution

+5 XP

Stir a spoonful of sugar into warm water and watch — the white crystals slowly disappear until the liquid is completely clear. The sugar hasn't vanished; it's spread among water molecules in a new kind of mixture called a solution. Every solution has two roles:

Solute — the substance that dissolves (usually the smaller amount).
Solvent — the substance that does the dissolving (usually the larger amount).

Solution	Solute	Solvent
Salt water	Salt (NaCl)	Water
Sweet tea	Sugar	Water (tea)
Fizzy drink (before going flat)	CO₂ gas + sugar	Water
Brass (alloy)	Zinc	Copper
Air	Oxygen + other gases	Nitrogen

When the solvent is water, the solution is called aqueous. Water dissolves so many different substances that it's nicknamed "the universal solvent". Most of school chemistry happens in aqueous solutions.

Click a word, then click the blank where it goes.

In a solution, the is what dissolves and the is what does the dissolving. When the solvent is water, the solution is called . Water dissolves so many substances it is nicknamed the universal .

What's happening with the particles

Dissolving at the Particle Level

+5 XP

The sugar doesn't disappear when it dissolves — it just gets spread out so much you can't see it.

The solid sugar grain is packed full of sugar particles held tightly together.
Water particles bump into the sugar grain from all sides.
The water particles knock individual sugar particles loose, one at a time.
The freed sugar particles slip into the gaps between water particles.
Eventually every sugar particle is surrounded by water — they're now spread evenly through the whole drink.

This is why dissolving is a physical change, not a chemical one. Each sugar particle is still a sugar particle — it's just no longer stuck to its neighbours. If you boil the water away, the sugar particles will come back out and form crystals again.

True or false? "When sugar dissolves, the sugar particles change into water particles."

How much is dissolved?

Dilute, Concentrated, Saturated

+5 XP

Three words you have to keep straight:

Dilute — only a small amount of solute dissolved in lots of solvent (weak cordial).
Concentrated — a lot of solute dissolved in not much solvent (strong cordial straight from the bottle).
Saturated — the solvent is holding the maximum amount of solute it can dissolve at that temperature. Any extra solute will sit undissolved at the bottom.

Solution (200 mL water)	Sugar dissolved	Type
A	1 g	Very dilute
B	50 g	Concentrated
C	~200 g (at 20°C, max ~204 g)	Almost saturated
D	250 g, but 50 g sits at the bottom	Saturated (with excess undissolved)

Concentration is about amount; saturation is about reaching the limit.

Two are true, one is a lie. Pick the lie.

Heads-up · common traps

Spot the Trap

3 myths

✗

Wrong: "When sugar dissolves, it disappears and is gone." The sugar is still there — it's just spread out as individual particles between the water particles. Taste the water and you'll still taste sweetness; boil it off and the sugar comes back as crystals.

✓

Right: Dissolved sugar is still sugar — it's just too spread out to see. Dissolving is a physical change, so the solute can always be recovered.

✗

Wrong: "Concentrated and saturated mean the same thing." Concentrated just means there's a lot of solute, but you might still be able to add more. Saturated means you have hit the limit and no more can dissolve.

✓

Right: Concentrated = a lot of solute. Saturated = the maximum the solvent can hold. A saturated solution is always concentrated, but a concentrated solution isn't always saturated.

✗

Wrong: "Water can only be a solvent for solids." Water dissolves solids (salt), liquids (vinegar) AND gases (oxygen — that's how fish breathe). Don't limit "dissolving" to solids only.

✓

Right: A solvent can dissolve solids, liquids and gases. Fizzy drinks contain dissolved CO₂; rivers contain dissolved oxygen.

Which one doesn't belong? (Pick the example that is NOT a solute being dissolved.)

Why temperature matters

Hot Water Dissolves More

+5 XP

Most solids dissolve more in hot water than in cold water. At 20°C, about 204 g of sugar dissolves in 100 mL of water. At 80°C, about 360 g dissolves. That's nearly double.

The particle-level reason: in hot water the water particles are moving much faster. They bump into the sugar grains harder and more often, knocking solute particles loose more easily. They also leave bigger gaps between themselves that the solute particles can slip into.

This is why a barista can pack a lot more sugar into a hot coffee than an iced coffee — and why iced drinks are usually sweetened with syrup (already dissolved) instead of grains.

Warning — this rule is for solid solutes. Gas solutes behave the opposite way (you'll meet that in Lesson 18).

At the particle level, why does hot water dissolve more sugar than cold water?

Predict then reveal+8 XP

1 · Predict

2 · Reveal

3 · Compare

A student dissolves 50 g of sugar in 100 mL of hot water. They then let it cool to room temperature without stirring. Predict: what do you think will happen to the dissolved sugar as the water cools? Will it stay dissolved or come back out?

Confidence 50%

A friend stirs sugar into iced water and a layer of sugar stays on the bottom. They say "this sugar is broken — it won't dissolve!" Write a 3–4 sentence explanation telling them what's actually going on. Use the words solute, saturated and temperature.

Reflect

Revisit your thinking

reflect

Earlier you were asked: Where does sugar go when it dissolves? What do "concentrated" and "dilute" mean?

Now write a fuller answer using the words solute, solvent and particles.

Quick check

In a cup of sweet tea, which is the SOLVENT?

+10 XP

Quick check

A solution that holds the maximum amount of solute it can at that temperature is called:

+10 XP

Quick check

Dissolving sugar in water is a:

+10 XP

Quick check

Which solution is the MOST concentrated?

+10 XP

Quick check

Why does hot water dissolve more sugar than cold water?

+10 XP

Short answer · explain in your own words

Show your reasoning

3 questions

Recall Core 3 marks

Q1. Define solute, solvent and aqueous solution. Use one everyday example to illustrate each. (3 marks)

Apply Core 4 marks

Q2. Explain at the particle level what happens when sugar dissolves in water. Use 3–4 sentences and refer to both solute and solvent particles. (4 marks)

Evaluate Core 4 marks

Q3. A student says: "If I keep adding sugar to my coffee, it will keep dissolving forever." Evaluate this claim. Use the words saturated and temperature, and describe what would happen if the coffee then cooled. (4 marks)

From the lesson

Answers

▾

MCQ 1

B — Water (tea) is the solvent (the larger amount, doing the dissolving). Sugar is the solute.

MCQ 2

D — Saturated. Dilute = small amount of solute; aqueous = water solvent.

MCQ 3

A — Dissolving is a physical change. Sugar particles spread out between water particles but stay as sugar. Boil the water away and they reappear.

MCQ 4

C — 20 g per 100 mL = 200 g per litre. That's far more solute per unit solvent than any other option.

MCQ 5

B — In hot water, particles move faster and have bigger gaps. They knock solute particles loose more easily and have more room to hold them.

Short Answer 1

Model answer: A solute is the substance that dissolves (e.g. salt). A solvent is the substance that does the dissolving (e.g. water). An aqueous solution is one where water is the solvent — for example, salt water or sugary tea.

Short Answer 2

Model answer: When sugar is added to water, the water particles bump into the sugar grain from all sides. Each collision knocks individual sugar particles loose from the grain. The freed sugar particles slip into the gaps between the moving water particles. Eventually every sugar particle is surrounded by water, spread evenly through the cup — the sugar is dissolved.

Short Answer 3

Model answer: The claim is wrong. At any given temperature, the solvent can only hold a certain maximum amount of solute — once you reach that limit the solution is saturated and no more sugar will dissolve. Extra sugar will sit undissolved at the bottom. However, raising the temperature increases the limit, so hot coffee can hold more sugar than cold coffee. If the coffee then cools, the limit drops and some of the dissolved sugar will crystallise back out of solution.

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