Siesmic
Seismic waves
S waves
Love and Rayleigh waves which are collectively known as surface waves cause the most damage during earthquakes.
S waves, or Secondary waves, are earthquake waves during an earthquake. They crash after P waves ( Primary waves) and are less stronger than surface waves
It is cause by the Mojo Discontinuity. It is a zone that differs in density.
The L- Wave or the Love and Rayleigh waves (collectively known as surface waves) cause most of the damage during an earthquake.
seismic waves
No they ARE caused by the recession of the first wave which IS caused by an earthquake.
The L- Wave or the Love and Rayleigh waves (collectively known as surface waves) cause most of the damage during an earthquake.
Seismic waves cause vibrations which leads to earthquakes
Seismic waves
Seismic waves move outward from the source of an earthquake. These waves carry the energy released during the earthquake and can cause shaking and damage as they propagate through the Earth's crust.
The highest waves in the ocean are usually caused by a storm or earthquake. An earthquake at sea can cause mass destruction if the waves crash into land.
Earthquake waves are vibrations that travel through the Earth's crust when an earthquake occurs. There are three main types of earthquake waves: primary (P) waves, secondary (S) waves, and surface waves. These waves can cause the ground to shake and can be detected by seismographs.
These are known as seismic surface waves. They travel along the Earth's surface and cause the ground to move in a rolling motion. They are responsible for the most damage during an earthquake as they can generate strong shaking and displacement of structures.
The wave of an earthquake, known as seismic waves, travel through the Earth's crust and cause the ground to shake. These waves can result in damage to buildings, infrastructure, and the environment. They are key to understanding the intensity and impact of an earthquake.
S waves