S waves usually travel through most things and are felt as the massive shocks after an earthquake. At times the radiation caused by these s waves may cause green pigmentation in your skin. Therefore, s waves are able to travel through skin. On one occasion, s waves were observed to have travelled through dirt, and the endoplasmic reticulum of the element water. In response to your question, s waves seem to generally be able to travel on earth. But due to the gravitational inertia of the Earth's spin, s-waves can travel in symmetric circular paths meaning that dipoles of the magnetic field on Earth will cancel and results in a non-polar s wave.
sound waves, waves in a slink, tsunami waves, vibrations in gases, oscillations in springs, internal-water waves, ultra sounds, earthquake P-waves.
The P wave (primary wave).
Solids because in solids the velocity of sound is not unique, for example a shear wave will travel at a different velocity (higher) than a pure compression wave. As a matter of fact flexural waves do not have a well defined velocity as they are dispersive ... the frequency of the wave changes with displacement. Furthermore in two and three dimensional waves in solids the propagation area changes with distance so that a characteristic impedance cannot be defined and the wavelelength (but not the frequency) change during propagation. Therefore you will need to define the type of wave in solid before you can ask if a faster wave is possible.
P= PressureS= SurfaceL= Rollingthe 3 main types of earthquakes- they go in order from less to more damaging.The below is from SCI 3 (science text book) and if your talking about earthquake waves:P waves are Primary waves and come firstS waves are secondary waves and come secondP and S waves goes through the earthL waves are Love waves and comes lastR waves are Rayleigh waves and comes thirdL and R waves travel on the surface
S-waves cannot travel through liquids, but they can travel through solids and gases. P-waves can travel through solids, liquids and gases. Hope this helped! :D
P waves travel through solids, liquids, and gases. it is the fastest of all the waves.
No. S-waves (also known as secondary waves) can only travel through solids, not liquids or gases unlike the P-waves.
P-waves are type of elastic wave, also called seismic waves, that can travel through gases (such as sounds), elastic solids and liquids, including the Earth. P-waves can be produced by earthquakes and recorded by seismometers. The name P-wave stands for primary wave, as the P-wave is the fastest among the elastic waves, compared to the S-waves.(Sources Wikipedia). Hope that helps! :D
S waves usually travel through most things and are felt as the massive shocks after an earthquake. At times the radiation caused by these s waves may cause green pigmentation in your skin. Therefore, s waves are able to travel through skin. On one occasion, s waves were observed to have travelled through dirt, and the endoplasmic reticulum of the element water. In response to your question, s waves seem to generally be able to travel on earth. But due to the gravitational inertia of the Earth's spin, s-waves can travel in symmetric circular paths meaning that dipoles of the magnetic field on Earth will cancel and results in a non-polar s wave.
P waves can travel through all types of matter. S waves can only travel through solids.
P-waves are type of elastic wave, also called seismic waves, that can travel through gases (such as sounds), elastic solids and liquids, including the Earth. P-waves can be produced by earthquakes and recorded by seismometers. The name P-wave stands for primary wave, as the P-wave is the fastest among the elastic waves, compared to the S-waves.(Sources Wikipedia). Hope that helps! :D
Yes. Compressional waves (P-waves) can travel through solids, liquids, and gases. They can propagate through every layer of earth's interior. In contrast, shear waves (S-waves) can pass through solids but not liquids or gases. As they propagate toward the center of the earth they pass through the crust, refract through the crust-mantle interface, pass through the mantle, but cannot pass through the mantel-outer core interface because the outer core is liquid.
P-waves are faster than s-waves. Both can pass through solid rock, but only p-waves can pass through gases and liquids === ===
In relation to seismic body waves, an "S-wave" is a type of transverse wave that travels through the interior of the Earth. When this type of wave is formed, it travels 40% slower than compressional "P-waves", so their effect is recorded secondary to the initial P-wave. Horizontally polarized S waves create a condition in which the ground moves alternately from one side and to the other, perpendicular to the direction of energy propagation. S-waves can travel only through solids because liquids and gases cannot support shear stresses.
There are two types of waves ; P waves and S waves . P waves can travel through solids , liquids , and gases . S waves can only travel through solids . The mantle is pure solid rock ; the outer core is made of liquid-iron and nickel . In other words , only P waves can travel through both the mantle and the core . Hope this helps ! Give thanks to 7th grade Earth science ! :D
P waves or primary waves.