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• Help I'm Drowning
• How Dense Can You Get?
• Sort It Out!
• The Denser You Are, The Harder You Fall
• What Was Up ... Must Come Down!
• How Do The Densities of Earth's Layers Compare?
• How Many Licks Does It Take To Get To The Center?
• Let's Build the Earth!
• What's Wrong With It?
• Science Language

Earth's Structure - What Was Up ... Must Come Down!

Have you ever come across a smooth pond like the one above? It just seems to ask you to "skip a rock on the surface!" You know that when the rock stops skipping, it will sink beneath the surface. What makes rocks sink while leaves or twigs float in water? It's density!

Remember the properties of moving water. Dense objects like large rocks stay at the bottom while lighter objects like silt and dirt can be carried away by the flow. Density affects the sorting of naturally occurring materials in a mixture.

In this activity, you will demonstrate how materials can naturally sort based on their density.

Materials:

• Container with a lid
• Various naturally occurring objects of different densities (e.g. sand, gravel, leaves, twigs, etc. Make sure that you try not to include any man-made materials!)
• Water

Procedure:

1. Put all of the objects in the container.
2. Fill your container with water until it is almost full.
3. Tightly put the lid on your container.
4. Shake your container up!
5. Let your container sit without you touching it.
6. Observe the settling pattern of the objects.

Safety concerns: Be sure to follow all glassware, and chemical object safety rules that are specified by your teacher in all general laboratory experiences. As with all science lab activities, the most important safety rule is to follow all teacher directions.

Observations:

1. Draw a picture the container just after you finish shaking it.
2. Carefully observe your experiment.
3. Record your data.

4. Draw a picture of the jar after it has finished settling.

Analysis:

1. How much faster did the first layer settle than the last layer settle?
2. Are there objects which move to the top?
   • How would you describe these objects?
3. How does this activity relate to the structure of a riverbed?
4. In a riverbed, where would you expect to find the biggest rocks?
   • Explain your answer.
5. In a river, why do you find sand and mud around slow moving water?