Surface waves have the highest amplitude because they travel along the boundary between two mediums, allowing for energy to be concentrated near the surface. As a result, surface waves experience less spreading and attenuation compared to bulk waves that travel through a medium. This concentration of energy near the surface leads to higher amplitudes in surface waves.
Surface waves, specifically Love waves and Rayleigh waves, typically show the highest amplitude on a seismograph during an earthquake. These waves travel along the Earth's surface and cause the most shaking and ground displacement, leading to larger amplitudes being recorded.
The highest amplitudes on a seismogram are typically associated with the strongest seismic waves, such as surface waves. These waves have the most energy and cause the largest vibrations in the ground, resulting in the highest amplitudes recorded on the seismogram.
Surface waves show the highest amplitudes on a seismograph as they are slower-moving and have longer wavelengths, causing more pronounced shaking of the ground during an earthquake compared to body waves.
The highest points on standing waves are called antinodes. These are points where constructive interference occurs, leading to maximum amplitude in the wave.
Mechanical waves such as sound waves and ocean waves have amplitude. Amplitude refers to the maximum displacement of a wave from its rest position. It determines the intensity or loudness of the wave.
Surface waves, specifically Love waves and Rayleigh waves, typically show the highest amplitude on a seismograph during an earthquake. These waves travel along the Earth's surface and cause the most shaking and ground displacement, leading to larger amplitudes being recorded.
The highest amplitudes on a seismogram are typically associated with the strongest seismic waves, such as surface waves. These waves have the most energy and cause the largest vibrations in the ground, resulting in the highest amplitudes recorded on the seismogram.
Surface waves show the highest amplitudes on a seismograph as they are slower-moving and have longer wavelengths, causing more pronounced shaking of the ground during an earthquake compared to body waves.
No, the surface wave magnitude or Ms measures the amplitude of ground motion but does not directly measure the movement of seismic waves underneath the Earth's surface. It is used to quantify the size of earthquakes based on the amplitude of surface 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.
physics
The highest points on standing waves are called antinodes. These are points where constructive interference occurs, leading to maximum amplitude in the wave.
Yes. P-waves have the highest velocity of all seismic waves and surface waves have the lowest.
Love and Rayleigh waves are also known as surface waves as they travel along the surface of the earth. As the earth's surface is a free boundary, these surface waves have a larger amplitude than P and S (or body waves)which travel through the earth's interior. The amplitude of a wave is related to the amount of energy it has, where high amplitude waves have more energy! This means that the high amplitude high energy surface waves are capable of transferring more energy into structures or other objects on the surface and so can do more damage.
Because the vibrations of both the waves travel parallel to the direction of propagation of waves. For eg: both the waves have amplitude, frequency etc.
Because of their low frequency, long duration, and large amplitude
Mechanical waves such as sound waves and ocean waves have amplitude. Amplitude refers to the maximum displacement of a wave from its rest position. It determines the intensity or loudness of the wave.