1. Section 19.3 – Measuring and Locating Earthquakes
8th Grade Earth and Space Science
Class Notes

2. Earthquake Magnitude and Intensity
Richter scale – measures the magnitude (energy) of an earthquake.
Determined by the amplitude (height) of the seismic wave
Each number on the Richter scale corresponds to an amplitude increase of 10x
Each increase in magnitude corresponds to a 32x increase in energy

3. Earthquake Magnitude and Intensity
Moment magnitude – measures the energy released by an earthquake, taking into account the size of the fault rupture, the amount of movement along the fault, and the rocks’ stiffness
Used most often by seismologists
This is what is often reported by news outlets

4. Earthquake Magnitude and Intensity

5. Earthquake Magnitude and Intensity
Modified Mercalli – measures the intensity of the earthquake by the type and amount of damage it causes

6. Earthquake Intensity
The intensity of an earthquake depends primarily on the amplitude of the surface waves generated.
Intensity is highest closest to the epicenter and decreases as you travel further from the epicenter.

7. Depth of Focus
Earthquakes are classified as shallow, intermediate, or deep, depending on the location of the focus.
Shallow-focus earthquakes are the most damaging.

8. Locating an Earthquake
An earthquake’s epicenter’s location, as well as the time of occurrence, can be determined using seismograms and travel-time curves.

9. Locating an Earthquake – Distance to an Earthquake
The distance to an earthquake’s epicenter can be determined by measuring the separation on any seismogram and identifying that same separation time on the travel-time graph.

10. Locating an Earthquake – Distance to an Earthquake
Scientists identify the seismic stations on a map, and draw a circle with the radius of distance to the epicenter from each station.
The point where all the circles intersect is the epicenter.

11. Locating an Earthquake – Time of an Earthquake
Seismologists can use a seismogram to gain information about the exact time that an earthquake occurred at the focus.
The time can be determined by using a table similar to a travel-time graph.

12. Seismic Belts
The majority of the world’s earthquakes occur along narrow seismic belts that separate large regions with little or no seismic activity.
The locations of most earthquakes correspond closely with tectonic plate boundaries.