in fluid and gas
The next type of seismic wave to arrive after the P-wave is the S-wave.
Transverse
Rayleigh waves travel at a speed of about 2-4 km/s, depending on the material properties of the medium through which they are propagating. This type of surface wave is a common seismic wave that can cause significant ground shaking during earthquakes.
no a p wave is faster than s wave
These are known as the seismic waves or the s waves. They will reach the earthquake location second after the first shock.
An S wave will disappear in a liquid or gas, as these mediums do not transmit shear waves. Instead, only P waves can travel through liquids and gases.
An absorbed wave that may disappear is called an attenuated wave. Attenuation occurs when a wave loses energy as it passes through a medium or encounters obstacles, causing the wave to decrease in intensity or disappear.
The p wave is a pressure wave after a earthquake and it travels the fastest. An s wave is a wave that moves side to side and is second fastest. Bouth types of waves can go though all material but at different speeds. The denser the material the faster is gose generally. The last wave type is a L wave and it is a rolling wave that is also the slowest wave.
you wave
The opposite of disappear is appear.
The material through which a wave travels is called the medium.
When a wave is absorbed by a material or medium, the energy of the wave is transferred to the particles of the material, causing them to vibrate and increase in temperature. This results in the wave losing its energy and eventually disappearing.
absorption
You must go to the ninja hideout and get the cloud wave bracers.
Reflection: The wave can bounce back off the material boundary. Refraction: The wave can bend as it enters a new material with a different wave speed. Absorption: The wave can be partially or completely absorbed by the material, converting the wave's energy into heat.
That is related to the speed of the electromagnetic wave in the material.
S waves disappear in liquid materials because they cannot propagate through fluids. This phenomenon occurs due to the inability of S waves to transmit shear stress in liquid mediums.