P waves typically cause little to no damage when it comes to buildings, because buildings are usually built to withhold a back-and-forth motion (being the most common motion). I hope this helps. :)
S waves generally cause more damage than P waves during an earthquake. S waves have a stronger shaking motion that can lead to more destruction of buildings and infrastructure. P waves, on the other hand, are faster and usually less damaging than S waves.
Surface waves generally cause the most damage during an earthquake as they travel along the Earth's surface and can produce strong shaking. In contrast, P-waves (primary waves) cause the least damage as they are the fastest seismic waves and are typically not as destructive as the slower-moving surface waves.
A p wave because it can move so fast with more force. P waves cause little damage, they are compressional waves. They are at a higher frequency and a lower amplitude than surface waves which are shear waves. S-waves cause the most damage because they are slow moving and have an amplitude much greater than P-waves.
Surface waves typically cause the most damage in an earthquake. These waves travel along the Earth's surface and have longer periods, resulting in strong shaking that can cause buildings and other structures to collapse. Secondary waves, on the other hand, are faster but typically cause less damage compared to surface waves.
First of all, P stands for primary and S stands for secondary. P waves move in a compressional motion, similar to a slinky. S waves move in a shear motion perpendicular to the direction the wave is travelling.
S waves generally cause more damage than P waves during an earthquake. S waves have a stronger shaking motion that can lead to more destruction of buildings and infrastructure. P waves, on the other hand, are faster and usually less damaging than S waves.
P waves (primary waves) are the first waves generated by an earthquake and travel faster than other seismic waves. These waves push and pull on structures in a back-and-forth motion, causing buildings to move horizontally. While they may not cause as much damage as other seismic waves, such as S waves or surface waves, P waves can still contribute to structural damage and shaking of buildings during an earthquake.
There are P waves, S waves, and Surface waves [coming in that order]. The P waves are that half second jolt, the S waves are the 2-10 second rumbles, and the Surface waves go crazy and cause the most damage.
P-waves are the first seismic waves generated by an earthquake and are generally considered the least damaging. They are compressional waves that cause rock particles to move back and forth in the direction of the wave's movement. P-waves rarely cause significant damage to structures but can still be felt as a sudden jolt.
Surface waves generally cause the most damage during an earthquake as they travel along the Earth's surface and can produce strong shaking. In contrast, P-waves (primary waves) cause the least damage as they are the fastest seismic waves and are typically not as destructive as the slower-moving surface waves.
A p wave because it can move so fast with more force. P waves cause little damage, they are compressional waves. They are at a higher frequency and a lower amplitude than surface waves which are shear waves. S-waves cause the most damage because they are slow moving and have an amplitude much greater than P-waves.
S-waves are stronger, but travel slower and can only travel through solids.
S-waves cannot travel through the earth's outer core as it is liquid. Surface (Love and Rayleigh) waves cause the most damage to buildings. P-waves are the first to arrive at seismograph stations.
Because surface waves have a larger amplitude and thus more energy and so can cause more damage than P and S waves. they are more destructive because they are on the suface and because they are slowerRate This Answer
p-waves because they have more forcce and they are faster hope it helped :)
False. S waves (secondary waves) move through the ground by shearing the rock particles side to side, creating a horizontal motion that is perpendicular to their direction of travel. This shearing motion can cause the ground to move in a wave-like pattern, but not compress and then expand as with compressional waves (P waves).
No, P waves are the fastest seismic waves, but they do not shake structures violently. They cause a push-pull motion in the direction of wave propagation, which is less damaging compared to the side-to-side motion caused by S waves or surface waves.