5 Must Know Facts For Your Next Test

1. Elastic rebound theory was first proposed by geologist Harry Fielding Reid after the 1906 San Francisco earthquake, providing a scientific explanation for how earthquakes occur.
2. When tectonic plates interact at their boundaries, stress builds up over time until it exceeds the strength of the rocks, causing them to rupture.
3. The sudden release of stored energy during an earthquake results in seismic waves that travel outward from the point of rupture, leading to ground shaking.
4. Elastic rebound occurs along fault lines where rocks can bend without breaking until they reach their elastic limit and snap back to their original shape.
5. Understanding elastic rebound theory is essential for assessing earthquake risk and developing strategies for mitigation and preparedness in seismically active regions.

Review Questions

• How does elastic rebound theory explain the process leading up to an earthquake?
  • Elastic rebound theory explains that rocks accumulate elastic energy when subjected to tectonic stress along faults. As the stress increases, the rocks deform elastically until they can no longer withstand the strain, resulting in a sudden fracture. This fracture releases the stored energy in the form of seismic waves, which generates the shaking felt during an earthquake.
• Discuss how understanding elastic rebound theory can aid in risk assessment and mitigation efforts for earthquakes.
  • By applying elastic rebound theory, scientists can better understand where and how stress builds up along fault lines. This knowledge allows for improved risk assessments in regions prone to earthquakes by identifying potential areas of weakness. Effective mitigation strategies can then be implemented, such as reinforcing infrastructure and planning for emergency responses based on where future seismic activity is likely to occur.
• Evaluate the implications of elastic rebound theory on predicting seismic events and its limitations.
  • While elastic rebound theory provides a solid foundation for understanding the mechanics of earthquakes, its predictive capabilities are limited. The timing and exact location of an earthquake cannot be precisely forecasted due to the complex interactions between tectonic plates and varying geological conditions. Therefore, while it helps identify potential areas at risk, it cannot determine when an earthquake will happen, highlighting a crucial area for ongoing research in geology and seismology.

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