Younger students may be satisfied with the idea that solutes ‘disappear’ when they dissolve

When the process of dissolving is appreciated, students may not expect the mass of the solute to register in any measurements.

Sugar and water

Some water was placed in a beaker, and its mass was measured using a balance. The mass of beaker and water was 200 g. Then 10 g of sugar was weighed out. The sugar was added to the water, and sank to the bottom. 10 minutes later the sugar could not be seen.

sugar and water diagram

  1. Fill in the boxes to show what you think the mass of the beaker and its contents would be when the sugar was first added, and then after it could no longer be seen.
  2. Where did the sugar go? Explain your answer.

Salt and water 

Some water was placed in a beaker, and its mass was measured using a balance. The mass of beaker and water was 150 g. Then 10 g of salt was weighed out. The salt was added to the water, and sank to the bottom. 10 minutes later the salt could not be seen.

salt and water

  1. Fill in the boxes to show what you think the mass of the beaker and its contents would be when the salt was first added, and then after the salt could no longer be seen.
  2. Where did the salt go?

Copper sulfate and water 

Some water was placed in a beaker, and its mass was measured using a balance. The mass of beaker and water was 250 g. Then 5 g of blue crystals of copper sulfate was weighed out. The copper sulfate was added to the water, and sank to the bottom. 20 minutes later the copper sulfate could not be seen, but the liquid had turned blue.

copper sulfate and water

  1. Fill in the boxes to show what you think the mass of the beaker and its contents would be when the copper sulfate was first added, and when it could no longer be seen.
  2. Why did the water turn blue?
  3. Where did the copper sulfate go?

Particles in sugar and water

The diagrams below represent the particles present at the different stages when sugar is dissolved in water. Not all the particles are shown.

Particles in sugar water

  1. Why does the liquid taste sweet when sugar is added to water?

Build a lesson around this resource

This activity can be used as part of an entire lesson plan for 11–14 year olds on observing and explaining what happens when something dissolves.

Answers

Sugar and water

  1. 210, 210
  2. The sugar dissolved - it is still present, but as part of the solution.

(The molecules of sugar, which are much too small to be seen, are mixed with the molecules of water.)

Salt and water

  1. 160, 160
  2. The salt dissolved, and is now part of the solution. The salt particles are mixed with the water particles in the solution.

Note:If students have studied ionic bonding, then it is worth emphasising that the sodium ions and chloride ions are separate in the mixture.

Copper sulfate and water

  1. 255, 255
  2. The blue colour is a property of the particles in the copper sulfate. The water turned blue as the copper sulfate dissolved to give a solution. The copper sulfate particles are mixed with the water particles. As the copper sulfate particles are spread throughout the solution the whole solution looks blue.
  3. The copper sulfate dissolved - it is still present, but as part of the solution. (The particles of copper sulfate, which are much too small to be seen, are mixed with the molecules of water.)

Note 1. Students commonly believe that the properties of a substance are due to its particles having that same property. This idea is usually not correct, so although in this case the colour may be seen to be a property of both the particles and the bulk material, the teacher should consider emphasising that this is unusual, and that most bulk properties are not shared by the particles.

Note 2. If students have studied ionic bonding then it is worth emphasising that the copper ions and sulfate ions are separate in the mixture. (The colour is due to the hydrated copper(II) ions.)

Particles in sugar and water

  1. The liquid tastes sweet because the molecules of sugar are dissolved in the solution. Sugar has a sweet taste, so the solution tastes sweet because it contains the sugar molecules.

Notes

For the full version of this chapter, see downloads below.

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