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Will a mountain last forever?

Will a mountain last forever?

Lesson narration:
Scroll for prep
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DISCUSS:
Here’s a close-up of one of the trees before they removed it. What do you think is going on here? What do you think happened to the pyramid?
treebeforeremoval

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DISCUSS:

Has anyone ever told you not to put a can of soda in the freezer? Why do you think people say this?

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DISCUSS:

Can you think of some experiments you could do to figure out what happens to a rock as it tumbles downhill?

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Anchor Connection

DISCUSS:

Look at the "Wonder" column of your class See-Think-Wonder chart. Have any questions been answered by this lesson?

If you have any new questions after this lesson, add them to your class See-Think-Wonder chart.

In the next slides you will add to your "Ashfall Fossil Beds Evidence Chart."

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Demonstration: The Mighty Beans

beansbefore

Use dried beans to demonstrate the power of seeds. Put beans into a paper or plastic cup until it’s about one quarter full. Add water until all the beans are completely covered. Set another cup on top, and add pennies (or other weights) so the cup presses down on the beans. Make a line with a marker to show the cup’s position.

Wait an hour, then check on your beans. (For the “after” photo, see next slide.)

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Demonstration: The Mighty Beans (after)

beansafter

Dried beans are seeds — you can plant them and grow a bean plant. When you add water to dried dried beans, they start soaking up the water and swelling as they get ready to grow.

This is the first step in root wedging -- getting bigger and pushing against the surrounding rock. The beans in this cup lifted the weight of many pennies when they swelled.

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Slide Image

mountain


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a high area of land with steep sides
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weathering


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the process of breaking rocks into smaller pieces
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root wedging


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a process where a root growing causes rock to break apart
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freeze


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when a liquid turns into a solid, such as when water turns to ice
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ice wedging


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a process where water freezing and expanding causes rock to break apart
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erosion


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when tiny bits of rock are moved from one location to another by water, wind, ice, or gravity
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model


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a pretend version of something that scientists use when the real thing is too big, small, or complicated to work with
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experiment


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a test used to discover new information about a question
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Image & Video Credits

Mystery Science respects the intellectual property rights of the owners of visual assets. We make every effort to use images and videos under appropriate licenses from the owner or by reaching out to the owner to get explicit permission. If you are the owner of a visual and believe we are using it without permission, please contact us—we will reply promptly and make things right.

Lesson Image
El Capitan by Octagon , used under CC BY
Exploration
Everest by Luca Galuzzi , used under CC BY-SA
space view by NASA
Halfdome by Scott Catron , used under CC BY-SA
Mt. San Jacinto by Wattewyl , used under CC BY
Great Pyramid of Giza by Wknight94 , used under CC BY-SA
Chichen Itza by Christine Zenino , used under CC BY
light brick wall by Titus Tscharntke
Complejo Danta by Ronyrocael , used under CC BY-SA
El Mirador by Geoff Gallice , used under CC BY
Copan ruins by Matthias Hiltner , used under CC BY
Puna lava flow by DVIDSHUB , used under CC BY
Annona Atemoya seeds by takoradee , used under CC BY-SA
cement texture by Titus Tscharntke
El Tigre pyramid by Dennis Jarvis , used under CC BY-SA
Temple of Nohoch Mul by Vin Crosbie , used under CC BY-ND
pavement by Simon Law , used under CC BY-SA
sidewalk & tree roots by Doug Caldwell , used under CC BY
cracked brick wall by debs-eye , used under CC BY
refrigerator by Juan de Vojníkov , used under CC BY-SA
soda can by Ryan McGilchrist , used under CC BY-SA
frozen soda can by William Brawley , used under CC BY
explosion in freezer by mrsparks , used under CC BY-SA
frozen bottle by baronsquirrel , used under CC BY
broken rock by Till Niermann , used under CC BY-SA
weathered rock by Natursicilia , used under CC BY-SA
rock parts by Lamiot , used under CC BY
Mount Hood by Thomas Shahan , used under CC BY
Mont Saint Honorat by Zil , used under CC BY-SA
jagged rocks by Peretz Partensky , used under CC BY-SA
Nuna Island by Kim Hansen , used under CC BY-SA
Activity
horses by Ben Salter , used under CC BY
pencil by Charm
Other
pebble beach by Paul Allison , used under CC BY-SA
Lesson narration:

Activity Prep

Print Prep
In this lesson, students will explore how solid rock breaks apart into smaller pieces through a process called weathering (including root-wedging and ice-wedging). In the activity, Sugar Shake, students use sugar cubes as a model for rocks. They perform an experiment with this model to understand the process of weathering and how this process explains why rocks at the tops of mountains are jagged, while those at the bottom are rounded.
Preview activity

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