amplitude
In the case of waves on liquids like water, for example, it's very easy. We know that it requires energy to lift objects. If you place an object that floats in the path of a series of waves you will notice that the object moves up and down more or less in step with the waves. If the waves did not carry energy then they would not be capable of making the object move.
figure it out yourself and stop cheating/this is your teacher speaking and i now who you are.
True. A wave is a disturbance that carries energy through a medium without carrying matter.
The amplitude of a wave is the top or bottom half of a wave. The middle of the wave is considered the "zero position" so the top of every peak tells how much energy is left in the wave.
A wave pulse is a single disturbance or variation that travels through a medium, carrying energy without carrying matter. It is a single, non-repeating wave that can be produced by a single event or source.
A medium that can carry energy from one location to another is known as a wave. Examples include light waves carrying energy from the Sun to Earth, and sound waves transporting energy through the air.
The change in amplitude does not affect the frequency of the wave, which is determined by factors like wind speed and water depth. However, the increase in amplitude means the wave is carrying more energy, proportional to the square of the amplitude change. This means the wave is now carrying four times the amount of energy it was before.
the answer is : energy
The amplitude of a wave is the top or bottom half of a wave. The middle of the wave is considered the "zero position" so the top of every peak tells how much energy is left in the wave.
The amplitude of a wave is the top or bottom half of a wave. The middle of the wave is considered the "zero position" so the top of every peak tells how much energy is left in the wave.
It is a seismic wave.
A specific type of mechanical wave known as a seismic wave.
Wave energy has the potential to produce a significant amount of energy, with estimates suggesting it could contribute to a substantial portion of global energy needs. The exact amount of energy produced depends on factors such as wave intensity, local geography, and technology efficiency. With advancements in wave energy technology, its energy production capacity is expected to increase in the future.
how much energy the wave is transporting
20
When a wave travels through water, it causes the water molecules to move in a circular motion in the direction of the wave propagation. This circular motion transfers energy from molecule to molecule as the wave passes by, eventually carrying the water molecules along with it. This is how water molecules are transported from the source of the vibration by the wave.
The energy and the amplitude are related in such a way that, the greater the amplitude the greater is the energy. The sound pressure amplitude tells about how loud the tone will be.
It means that the sound wave goes toward the canyon wall, and then a wave carrying part of the energy comes back from the canyon wall. The remaining energy will be absorbed or will pass through.
Wave power has the potential to provide a significant amount of energy, with estimates suggesting that it could potentially generate up to 10% of the world's electricity. However, the actual amount of energy harnessed from wave power can vary depending on factors such as the location of the wave energy device and the intensity of the waves.