Table of Contents
- 1 What causes seismic waves to change speeds?
- 2 What happens to the speed of the earthquake waves in the asthenosphere?
- 3 What causes seismic waves?
- 4 Why do seismic waves travel faster in the mantle than the crust?
- 5 Which seismic waves are the least destructive?
- 6 Why do seismic waves travel faster in cratonic roots?
- 7 Which seismic wave have higher velocity?
- 8 Why does a seismic wave travel faster through solid rock than through water?
- 9 How are seismic waves slow down the Earth?
- 10 How does loss of pressure cause the asthenosphere to melt?
What causes seismic waves to change speeds?
Seismic Wave Speed Seismic waves travel fast, on the order of kilometers per second (km/s). Temperature tends to lower the speed of seismic waves and pressure tends to increase the speed. Pressure increases with depth in Earth because the weight of the rocks above gets larger with increasing depth.
What happens to the speed of the earthquake waves in the asthenosphere?
Because the earth’s mantle becomes more rigid and compressible as the depth below the asthenosphere increases, P-waves travel faster as they go deeper in the mantle. The density of the mantle also increases with depth below the asthenosphere. The higher density reduces the speed of seismic waves.
What are the slower seismic waves?
Surface waves are the slowest of all seismic waves. They travel at 2.5 km (1.5 miles) per second. There are two types of surface waves. Love waves move side-to-side, much like a snake.
What causes seismic waves?
Seismic waves are caused by the sudden movement of materials within the Earth, such as slip along a fault during an earthquake. Volcanic eruptions, explosions, landslides, avalanches, and even rushing rivers can also cause seismic waves.
Why do seismic waves travel faster in the mantle than the crust?
Why do seismic waves travel faster or slower as they pass through a certain layer Brainly?
Seismic waves travel more quickly through denser materials and therefore generally travel more quickly with depth. Anomalously hot areas slow down seismic waves. Molten areas within the Earth slow down P waves and stop S waves because their shearing motion cannot be transmitted through a liquid.
Which seismic waves are the least destructive?
Primary (P) waves are longitudinal, the fastest, the least destructive (lowest amplitude) and they can travel through water, air and solids. Secondary (S) waves are transverse, medium speed (relative to the others), second most destructive and can only travel through solids.
Why do seismic waves travel faster in cratonic roots?
Cratons are known to be colder and less dense than the surrounding mantle, which would in turn yield slightly faster sound waves, but not quite as fast as what has been measured.
Which type’s of seismic waves tend s to cause the greatest destruction to buildings?
Although surface waves travel more slowly than S-waves, they can be much larger in amplitude and can be the most destructive type of seismic wave. There are two basic kinds of surface waves: Rayleigh waves, also called ground roll, travel as ripples similar to those on the surface of water.
Which seismic wave have higher velocity?
The direction perpendicular to any point on the wave front is named the ray path. There are two main seismic waves generated by seismic sources as well as earthquakes, termed body waves and surface waves. Body waves are of higher frequency and propagation velocity than surface waves.
Why does a seismic wave travel faster through solid rock than through water?
Seismic waves travel more quickly through denser materials and therefore generally travel more quickly with depth. Seismic waves move more slowly through a liquid than a solid. Molten areas within the Earth slow down P waves and stop S waves because their shearing motion cannot be transmitted through a liquid.
How does a seismic wave form in the asthenosphere?
A seismic wave may be produced by natural (e.g. earthquakes) or artificial (e.g. explosions) means. pressure exerted on the asthenosphere beneath it is reduced, melting begins to occur, and the asthenosphere begins to flow upward. If the lithosphere has not separated, the asthenosphere cools as it rises and becomes part of the lithosphere.
How are seismic waves slow down the Earth?
One way to solve this mystery is by investigating the boundary between the lithosphere and asthenosphere with seismic waves rippling through Earth. Seismic waves slow down significantly by 5 to 10 percent between the lithosphere and asthenosphere.
How does loss of pressure cause the asthenosphere to melt?
In addition to loss of pressure on the asthenosphere, another factor that can bring about melting is an increase in temperature. The asthenosphere is heated by contact with hot materials that make up the mesosphere beneath it.
What happens to the asthenosphere in Zone of convergence?
In zones of convergence, where two plates are moving toward each other, the asthenosphere may be exposed to increased pressure and begin to flow downward. In this case, the lighter of the two colliding plates slides up and over the heavier plate, which is subucted into the asthenosphere.