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• 8th Grade Home
• Rocks and Minerals
• What's My Story?
• Rock Types
• Test Your Knowlege!
• Change is the Name Of The Game
• A Chip Off the Old Rock!
• Weathering and Erosion
• Gravity an Agent of Erosion
• Weathering and Soil Formation
• You Don't Look a Day Over 2000 Years!
• The Laying of Sedimentary Rocks Over Time
• Relative Dating
• Move Over, I'm Coming Through!
• Were You There?
• Hide And Seek or ... Where Am I Now?
• Rock and Roll
• Transferring Energy
• Make Your Own Earthquake
• Dams, Road Building and the Environment
• Need a Little Change?
• Science Language

Rocks & Minerals - Rock and Roll

The solid crust that we stand on seems very strong and stable. The plates we live on are constantly in motion. Normally we don't feel this motion, but every once in a while Earth reminds us how dynamic it actually is.

An earthquake is the vibrations we feel when Earth's crust suddenly moves. What causes these sudden, larger movements of the crust? You have probably played with a rubber band, even shooting it at your brother or sister. When you stretch the rubber band, you know that it will normally snap back. If you pull it too far, it will break. The earth's crust act much in the same way. The plates can stretch so far, but if they stretch farther than their elastic limit, they will break and release huge vibrations that can be felt large distances away.

The crust moves along cracks called faults. A fault is a break in Earth's crust. Earth can move in different directions depending on the type of fault. The more energy that is released, the stronger the earthquake. Strong earthquakes cause major damage. The USGS provides data on earthquakes that have happened in the past week. The earthquake locations have their longitude and latitude data given. Use a map and plot these earthquakes to see where they are happening. What kind of a trend do you see happening?

Another method for energy to escape from inside Earth is through volcanoes.

A volcano is formed when magma reaches Earth’s surface before it has a chance to cool. When a volcano explodes really thin lava can flow down the sides like a river. Sometimes the lava is really thick and it is ejected as chunks.

Some volcanic eruptions are quiet. The lava oozes down the side of the volcano, like Mt. Kilauea in Hawaii or the Parcutin volcano pictured here. (All photos courtesy of the USGS)

Hawaii Volcanoes National Park
April 1986, Pu'u O'o Eruption, Kilauea Volcano, Hawaii

Others are explosive like Mt. St Helens.

The Smithsonian Institution provides a weekly report about the volcanic activity throughout the world. This data also includes the latitude and longitude for each volcano. Add these locations to your map - which already has the earthquakes on it.

Analysis:

1. What kind of relationship do you observe when you see current volcanoes and earthquakes plotted together?
2. Are there more volcanoes or earthquakes that happen in the same week?
3. From the data you saw, which were more disruptive this week earthquakes or volcanoes?