When a wave hits rocks, it can create a phenomenon known as "wave erosion" or "wave-cutting action," where the force of the wave breaks down the rocks over time. This process can lead to the formation of sea caves, arches, and other coastal landforms.
The speed at which a wave travels is called its velocity. This velocity is typically determined by the frequency and wavelength of the wave.
When a wave hits a barrier, two wave interactions that can occur are reflection, where the wave bounces off the barrier and returns in the opposite direction, and diffraction, where the wave bends around the barrier and spreads out.
When a wave hits the shore, it is called breaking or crashing. This can lead to erosion of the coastline and deposition of sediment.
A compressional or longitudinal wave, also known as a P-wave, causes particles in rocks to move back and forth in the same direction that the wave is traveling. This type of wave involves particles moving in a push-pull motion parallel to the direction of energy propagation.
When a wave hits a free boundary, it reflects back in the opposite direction. The wave's amplitude and phase may change depending on the nature of the boundary.
The reaction force when a wave hits a rocky shore is easily visible when the wave breaks up and some of its water is pushed back.
iceberg storm enemy/pirate ship tidal wave rocks/mountain
They call it the Primary wave or a P-wave
It is breaks
A primary wave is a strong vibration or wave that hits earths surface (P) and a secondary wave (S) is a wave that hits soon after but not nearly as big.
rocks
The speed at which a wave travels is called its velocity. This velocity is typically determined by the frequency and wavelength of the wave.
I would call it an electromagnetic wave, or electromagnetic energy.
The rocks at the bottom of a cliff that help protect it from wave erosion are called wave breakers or riprap. They absorb and dissipate the energy from the waves, reducing their impact on the cliff face and helping to prevent erosion.
When a wave hits a barrier, two wave interactions that can occur are reflection, where the wave bounces off the barrier and returns in the opposite direction, and diffraction, where the wave bends around the barrier and spreads out.
Hydrochloric action refers to the chemical reaction that occurs when hydrochloric acid reacts with a substance, typically causing dissolution or decomposition. In natural environments, hydrochloric action can contribute to the weathering of rocks and minerals. In industrial settings, it is used in processes such as metal cleaning and pickling.
That is called a breaker.