1. You’re stressing me OUT!
Stress-a force that acts on rock to change its shape or volume.

2. Earthquakes and Plate Boundaries
Earthquakes result from the buildup and release of stress along active plate boundaries.
The deepest earthquakes occur where plates collide along a convergent plate boundary.
Shallow earthquakes are common where plates separate along a divergent plate boundary. They also occur along transform plate boundaries.
Earthquakes occur of varying depths where continents collide.

3. Rock Deformation

4. Kinds of Faults
Most faults occur along plate boundaries, where the forces of plate motion push or pull the crust so much that the crust breaks.
There are three main types of faults:
Strike-slip faults
Normal faults
Reverse faults

5. Types of Stress There are three basic types of stress…
1) Tension- This stress pulls on the crust where plates are moving apart, stretching rock to become thin in the middle.
2) Compression- This stress squeezes rock together where plates are moving toward one another, causing them to fold or break.
3) Shearing- This stress pushes rock in different directions, causing them to slip apart or change shape.

7. Strike-slip Faults
In places where plates move past each other, shearing creates strike-slip faults. That is, the rocks on either side slip past each other sideways.
Location: transform boundaries

8. Normal Fault
The fault is at an angle, so one block of rock lies above the fault while the other block lies below the fault.
Location: divergent plate boundaries

9. Reverse Faults
A reverse fault has the same structure as a normal fault, but the blocks move in the opposite direction.
Location: convergent plate boundaries

10. Earthquakes

11. The Earth is never still.
Everyday there are several thousand earthquakes.
That means, somewhere right now, there is shaking and trembling that results from the movement of rock beneath Earth’s surface.
Did you just feel that?

12. Focus

13. The terms
P Waves: the first to arrive. These seismic waves compress and expand the ground like an accordion. They can travel through solids and liquids.
S Waves: secondary waves. These seismic waves vibrate from side to side as well as up and down. They shake the ground back and forth. They cannot move through liquids.
Surface Waves: R Waves and Love Waves. When some P & S waves reach the surface they become surface waves. Love waves roll like an ocean wave and R waves move the land side to side.

14. Monitoring Earthquakes
Seismic waves cause the seismograph's drum to vibrate. But the suspended weight with the pen attached moves very little. Therefore, the pen stays in place and records the drum’s vibrations.

15. Determining Magnitude and Intensity
Richter Scale1-10 : Ground motion at a given distance from an earthquake to determine magnitude:
Largest ever: 9.5 in Chile in 1960
Modified Mercalli Scale I-XII: measures earthquake intensity based on descriptions of the earthquake’s shaking and how it effects people and structures.

16. Earthquake Safety
Causes of earthquake damage include shaking, liquefaction, aftershocks, and tsunamis.
The best way to protect yourself is to drop, cover, and hold.