When the amplitude of a wave is cut in half, the energy of the wave decreases by a factor of four.
If the amplitude of a wave changes, the energy and intensity of the wave also change.
wellllll energy of the wave controls the amplitude of a wave
The increase in amplitude does not affect the wave's frequency, which is determined by the wave source. However, the energy transported by the wave is proportional to the square of the amplitude, so increasing the amplitude from 3m to 6m quadruples the energy transported by the wave.
When a wave is reflected, the amplitude remains the same if there is no energy loss in the reflection process. However, if there is energy loss during reflection, the amplitude may change as some of the energy is absorbed or dissipated.
The amplitude of a wave is directly proportional to the energy it carries. A higher amplitude wave carries more energy compared to a wave with a lower amplitude. This means that the larger the wave's amplitude, the more energy it can transfer.
amplitude is equal to one half of the wave height the greater the energy of the wave the greater its amplitude
If the amplitude of a wave changes, the energy and intensity of the wave also change.
wellllll energy of the wave controls the amplitude of a wave
As a seismic wave grows larger, the energy it carries remains constant. The amplitude (height) of the wave increases, but the total energy the wave carries does not change. The energy is redistributed within the wave to accommodate the larger amplitude.
The increase in amplitude does not affect the wave's frequency, which is determined by the wave source. However, the energy transported by the wave is proportional to the square of the amplitude, so increasing the amplitude from 3m to 6m quadruples the energy transported by the wave.
When a wave is reflected, the amplitude remains the same if there is no energy loss in the reflection process. However, if there is energy loss during reflection, the amplitude may change as some of the energy is absorbed or dissipated.
The amplitude of a wave is directly proportional to the energy it carries. A higher amplitude wave carries more energy compared to a wave with a lower amplitude. This means that the larger the wave's amplitude, the more energy it can transfer.
A low amplitude wave carries less energy compared to a high amplitude wave. The energy of a wave is proportional to the square of its amplitude. Therefore, a wave with a low amplitude will have lower energy.
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 energy of a wave is directly proportional to its amplitude. This means that as the amplitude of a wave increases, so does its energy. Conversely, if the amplitude decreases, the energy of the wave will also decrease.
The intensity will increase if the energy increase. The intensity is proportional to the square of the amplitude of a wave.
The energy of a wave is directly proportional to the square of its amplitude. This means that as the amplitude of a wave increases, its energy also increases quadratically. A wave with greater amplitude carries more energy.