advantages:it cleans out pee :D
When waves are absorbed by a material, some of their energy is converted into thermal energy due to the interactions between the wave's energy and the particles in the material. This conversion process causes the material to heat up as a result of the absorbed wave energy being transformed into heat energy.
some negatives of wave power is that the devices built to harness the energy of the waves are not adiquite enough to do so. So lots of energy is lost and some is gained. some negatives of wave power is that the devices built to harness the energy of the waves are not adiquite enough to do so. So lots of energy is lost and some is gained.
Examples of wave energy include ocean waves, tidal currents, and underwater currents. These natural sources of energy can be harnessed to generate electricity using technologies such as wave energy converters and tidal turbines.
Absorption
Not all countries have access to the ocean, or to large lakes.
it is a wave that is formed by energy
Absorption of wave energy refers to the process where a wave's energy is taken in by a medium and converted into another form of energy, such as heat or sound. This can happen when a wave interacts with particles in the medium, causing them to vibrate and dissipate the energy. Materials vary in their ability to absorb wave energy, with some being highly absorbent (e.g., foam) and others reflecting or transmitting waves more effectively.
The amplitude of a wave is the factor that determines a wave's energy. Amplitude is the measure of the height of the wave, which correlates with the energy the wave carries. Waves with larger amplitudes have more energy.
Absorption. -Apex
When a sound wave hits a wall, the amplitude of the wave decreases due to reflection. Some of the sound energy is absorbed by the wall, some is transmitted through it, and some is reflected back into the original space. This results in a decrease in the overall energy and amplitude of the sound wave.
In the sea or near the shoreline for some wave energy devices.
When a wave is totally reflected at a boundary, its energy is mostly reflected back in the opposite direction. Some of the energy may be absorbed by the boundary or transmitted through it, but the wave largely maintains its energy as it reflects.