Earthquake Measurement PDF

Summary

This document discusses earthquake measurement, differentiating between magnitude and intensity. It relates these concepts to a lightbulb and light emission. It also explains when to use different types of earthquake magnitude measurements.

Full Transcript

Measurement
of Earthquakes
Earthquakes are complex phenomena that require
scientific measurement. Magnitude quantifies the
energy release, while intensity measures the shaking at
a specific location.
Earthquake magnitude and intensity
are analogous to a lightbulb and the
light it emits.

Magnitude
Lightbulb’s Wattage

Intensity
Light Intensity measured in footcandles
Earthquake Magnitude
a measure of the “size,” or
amplitude, of the seismic
waves generated by an
earthquake source and
recorded by seismographs
frequently described using the
Richter scale
To calculate magnitude, the
amplitude of waves on a
seismogram is measured,
correcting for the distance
between the recording
instrument and the
earthquake epicenter
Local Magnitude, 𝑴𝑳
Introduced by Charles F. Richter 𝑴𝑳 =local Magnitude

defined for Southern California 𝑨= peak amplitude in µm, measured from a

determined from the logarithm of seismogram

the amplitude of waves recorded by 𝑨𝒐 = peak amplitude of a zero-magnitude

seismographs earthquake in µm, which is used to adjust the

variation of ground motion amplitude for
𝑀𝐿 = 𝑙𝑜𝑔𝐴 − 𝐿𝑜𝑔𝐴𝑜 epicentral distances other than 100 km
Surface Wave
Magnitude, 𝑴𝒔

used for observations near the 𝑴𝒔 =Surface wave magnitude
earthquake epicenter where the 𝑬𝒔 =total energy in ergs
surface wave is larger than the body
wave.

log10 𝐸𝑠 = 11.8 + 1.5𝑀𝑠
Body Wave
Magnitude, 𝒎𝒃
calculated from the body waves and are 𝒎𝒃 =body wave magnitude
usually used at larger distance from the
𝑴𝒔 =Surface wave magnitude
earthquake epicenter
Since body wave travels the fastest, the
body wave magnitude is normally the
earliest available earthquake magnitude

𝑚𝑏 = 2.5 + 0.63𝑀𝑠
Moment 𝑴𝒘 =moment magnitude
Magnitude, 𝑴𝒘 𝑴𝒐 =Seismic Moment (dyne cm)

for very large earthquakes, moment magnitude gives the
most reliable estimate of earthquake size
Moment is a physical quantity proportional to the slip on
the fault multiplied by the area of the fault surface that 𝜇=material shear modulus
slips; it is related to the total energy released in the
earthquake
A=area of fault plane rupture
D=mean relative displacement between
log 𝑀𝑜 = 1.5𝑀𝑤 + 16.0 the two sides of the fault (the averaged
𝑀𝑜 = 𝜇𝐴𝐷 fault slip)
 Earthquake
Intensity

The intensity of an earthquake is a subjective,
nonempirical approach for estimating the size
of an earthquake based on the subjective
assessment of human observations of the
effects of earthquake shaking on buildings
(amount of damage sustained by structures
and land surface) and on people.
Earthquake
Intensity

Modified Mercalli Intensity (MMI)
is a subjective scale defining the
level of shaking at specific sites
on a scale of I to XII
 Modified Mercalli Intensity Scale,
and Comparison to Magnitude and PGA
ACTIVITY:

1. In 3-4 sentences, differentiate magnitude from intensity
2. Relate earthquake magnitude and intensity to the
lightbulb and the light it emits
3. Explain when to use local magnitude, surface wave
magnitude, body wave magnitude, and moment
magnitude