the answer is : energy
A sound wave that has a large amplitude carries a lot of energy because the higher the waves amplitude the louder (more powerful or energetic) the wave will be. apex answer: high amplitude
The amplitude of a wave measures the height of a wave, as commonly depicted on a 2-D graph. However, amplitude tends to measure purely the absolute value of the distance from 0 or the baseline. So a wave with a height of 2 would not be said to have an amplitude of 4 due to the height above and below 0, but rather just an amplitude of 2. Hope this helps.
The main characteristics of waves are: 1. Amplitude or height of the wave. 2. Wavelength, or the distance between crests. 3. Period or the length of time for a wave to pass a point. 4. Frequency or the number of complete waves passing a point. 5. Speed or the horizontal speed of the wave as it grows.
You seem to be talking about a light wave. If you increase the amplitude the light gets brighter, and if you decrease it gets dimmer. Amplitude has no effect on colour.
Amplitude is the energy of a sound wave, which we also call Loudness
The amplitude of a wave is the maximum displacement of a wave from its rest position. It relates to the intensity or energy carried by the wave. The greater the amplitude, the more energy the wave carries.
The amplitude of a wave is the maximum displacement from the equilibrium position of a particle in the wave. It represents the height of the wave in the case of a transverse wave or the amount of compression or rarefaction in the case of a longitudinal wave. Amplitude is a measure of the energy carried by the wave.
The amount of energy in a sound wave is related to its amplitude, which is the height of the wave from its baseline. The larger the amplitude, the more energy the sound wave carries.
Height OR amplitude.
The term that refers to the amount of energy a mechanical wave carries is "wave intensity." It is related to the amplitude of the wave and is determined by the square of the amplitude.
The amplitude of a wave is related to the energy it carries. In general, a wave with higher amplitude carries more energy than a wave with lower amplitude. This is because the amplitude represents the maximum displacement from equilibrium, which correlates with the energy of the wave.
The energy of a wave can be measured using the wave's amplitude and frequency. The higher the amplitude (height of the wave), the more energy it carries. Additionally, waves with higher frequencies (more waves passing a point in a given amount of time) also carry more energy.
In a wave, the amplitude is directly related to the energy the wave carries. The greater the amplitude, the more energy the wave carries. This is because the amplitude measures the maximum displacement of particles in the medium through which the wave travels, and this displacement represents the amount of energy transferred by the wave.
The amount of energy in a wave is determined by its amplitude, which is the height of the wave from the equilibrium position. Waves with greater amplitude carry more energy.
A high amplitude wave carries more energy because the amplitude of a wave is directly related to the wave's energy. The higher the amplitude, the more energy the wave has, as it represents a greater amount of mechanical energy being transferred through the medium. Thus, a high amplitude wave can cause more displacement and disturbances in the medium, resulting in the transmission of more energy.
The amplitude of a wave is a measure of its maximum displacement from the equilibrium position. As the height of a wave increases, the maximum displacement of the particles creating the wave also increases, resulting in a larger amplitude. Therefore, the height of a wave directly affects its amplitude.
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.