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Earthquakes Pages B104-B127. Faults are classified by how rocks move. The blocks of rock along different types of faults move in different directions,

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Presentation on theme: "Earthquakes Pages B104-B127. Faults are classified by how rocks move. The blocks of rock along different types of faults move in different directions,"— Presentation transcript:

1 Earthquakes Pages B104-B127

2 Faults are classified by how rocks move. The blocks of rock along different types of faults move in different directions, depending on the kinds of stress they are under. There are three types of faults: – Normal Faults – Reverse Faults – Strike-Slip Faults

3 Normal Faults – Movement of the plates causes tension – Rocks above the fault surface move downward in relation to the rocks below the fault surface – Common near boundaries where tectonic plates are moving apart – Great Rift Valley of Africa.

4 Normal Fault

5 Reverse Faults – Compression forces are applied because Earth’s plates are coming together – Causes rocks to bend and break – Rocks above the fault surface are forced up and over the rocks below the fault surface – The Himalayas Mountains have many earthquakes along reverse faults

6 Reverse Faults

7 Strike-Slip Faults – Earth’s plates move sideways to one another – Creates a shear force – Rocks on either side of the fault surface are moving past each other without much upward or downward movement – San Andreas Faults is a strike-slip fault

8 Strike-Slip Fault

9 Seismic Waves – Primary waves Energy waves that cause rocks to move back and forth in the same direction Compression and stretching forces are created – Secondary waves Energy waves that cause rocks to move at right angles to the wave – Surface waves Energy waves that reach the Earth’s surface Energy waves that move rocks in an elliptical motion

10 Locating an Epicenter Seismic waves do not travel through earth’s surface at the same speed – Primary waves are the fastest – Surface waves are the slowest Seismograph stations – Record the information from the earthquake by recording the different types of waves as they reach the station

11 Using Seismic Waves to Map Earth’s Interior Structure of Earth – Inner core Solid and very dense Composed of mostly nickel and iron – Outer core Liquid layer that surrounds the inner core Composed of nickel and iron

12 Using Seismic Waves to Map Earth’s Interior – Mantle Largest layer located above the inner core Composed of silicon, oxygen, magnesium, and iron – Crust Outermost layer Solid and similar in composition to the mantle

13 Seismograph Seismograph is an instrument that constantly records ground movements. The recording of an earthquake looks like a group of wiggles in a line. The height of the wiggles indicates the amount of ground movement. If it measures from side to side it has a heavy weight hanging from the wire. If it measures from up and down movements it has a heavy weight hanging from a spring

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