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- What are the different types of seismic waves?
What are the different types of seismic waves?
There are four main types of seismic waves, each characterized by its specific particle motion:
- Compressional or “p” waves are identical to sound waves – the particle motion is parallel to the propagation direction:
p-wave animation by L.W. Braille, Purdue University, http://web.ics.purdue.edu/~braile/edumod/waves/Pwave.htm
- Shear or “s” waves are characterized by particle motion that is perpendicular to the propagation direction:
s-wave animation by L.W. Braille, Purdue University, http://web.ics.purdue.edu/~braile/edumod/waves/Swave.htm
Taken collectively, p- and s-waves are known as “body” waves. The velocities of both can be measured via seismic refraction.
- Surface waves, as the name implies, travel primarily along the ground surface; amplitudes decrease rapidly with depth. There are two types of surface waves. Like body waves, they are characterized by particle motion.
"Rayleigh" waves are characterized by elliptical motion perpendicular to the surface:
Raleigh-wave animation by L.W. Braille, Purdue University, http://web.ics.purdue.edu/~braile/edumod/waves/Rwave.htm
In the near surface, this motion is “retrograde”, meaning that it is counter-clockwise when the propagation is left-to-right. At depth, the motion can reverse to prograde.
Particles affected by "Love" waves vibrate perpendicular to the propagation direction:
Love-wave animation by L.W. Braille, Purdue University, http://web.ics.purdue.edu/~braile/edumod/waves/Lwave.htm
While the particle motion is similar to that of shear waves, Love wave amplitude is much higher and decreases rapidly with depth. Love waves are the most destructive waves in earthquakes because of their high amplitude and transverse particle motion.
While the various wave types shown above have been isolated for illustration purposes, all are present to some degree whenever seismic energy is travelling through a solid medium. Hence actual particle motion is extremely complex.