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Chemistry Solutions and pHIntroStarter track

Concept module

Concentration and Dilution

Use one beaker to separate how concentration changes when you add solvent from how it changes when you add more solute.

Interactive lab

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Featured setups

Crowded beaker

Open a concentrated mixture with density cues visible.

Dilute without losing solute

Open the same solute amount in more liquid and compare the new concentration.

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Stable links

Starter track

Step 1 of 40 / 4 complete

Solutions and pH

Next after this: Solubility and Saturation.

1. Concentration and Dilution2. Solubility and Saturation3. Acid-Base / pH Intuition4. Buffers and Neutralization

This concept is the track start.

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Why it behaves this way

Explanation

Concentration becomes easier to trust when the amount of solute and the amount of liquid stay visible together. This bench keeps one vessel, a concentration readout, and a particle view in the same frame so crowding and dilution do not turn into slogans.

The key distinction is that adding solvent changes concentration without adding solute, while adding solute changes concentration in a different way.

Key ideas

01Concentration is about how much solute is present in how much liquid.

02Dilution lowers concentration by increasing the amount of liquid while keeping the solute amount the same.

03Adding solute and adding solvent can both change concentration, but for different reasons.

Frozen walkthrough

Step through the frozen example

Frozen walkthrough

Use the current beaker state rather than a detached ratio problem.

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Frozen valuesUsing frozen parameters

For the current mixture, how concentrated is the beaker?

n

Solute amount

V

Solvent volume

1.4

1. Read how much solute is present

The beaker currently holds 8 units of solute.

2. Read how much liquid is present

The same solute is spread through 1.4 units of solvent.

3. Read the concentration and density cue together

That gives a concentration of about 5.71, with roughly 29 visible particles in the beaker.

Current concentration

c \approx 5.71

With less liquid in the beaker, the same solute occupies a tighter space and the concentration rises.

Common misconception

If the beaker looks fuller, that must mean there is more solute in it.

A fuller beaker can simply mean there is more solvent present.

Dilution changes concentration even when the solute amount does not change.

Mini challenge

Make the beaker clearly less concentrated without removing any solute.

Make a prediction before you reveal the next step.

Decide whether to change the amount of solute, the amount of solvent, or both before you try it.

Check your reasoning against the live bench.

You need to add solvent while keeping the solute amount fixed.

That is the cleanest way to model dilution rather than simply making a different mixture.

Quick test

Misconception check

Question 1 of 2

Answer from the live beaker story, not from a memorized slogan.

What is the cleanest description of dilution on this bench?

Use the live bench to test the result before moving on.

Accessibility

The simulation shows a beaker with dissolved particles, a concentration readout, and controls for solute amount and solvent volume.

Graph summary

One graph shows how concentration changes with solvent volume, and a second shows how concentration changes with solute amount.

Keep this idea moving

Open the next concept, route, or track only when you want the current model to widen into a larger branch.

Carry the same beaker story into dissolving limits and visible saturationSolutions and pH