When the amount of energy in an S wave increases, the amplitude of the wave also increases. This means that the S wave will have a greater maximum displacement from its resting position as it carries more energy.
If the energy of a wave increases, the amplitude of the wave also increases. This is because amplitude is directly proportional to energy - as energy increases, more energy is imparted to the wave causing it to oscillate with greater magnitude.
When the amplitude of a sound wave increases, the volume or loudness of the sound also increases. This is because amplitude is directly related to the amount of energy in a sound wave, and a higher amplitude means more energy is being transferred, resulting in a louder sound.
When the amplitude of a wave increases, the energy of the wave also increases. This is because the amplitude is directly proportional to the energy carried by the wave. A higher amplitude means that the particles of the medium are oscillating over a greater distance, resulting in a transfer of more energy.
The amplitude of a wave increases as more energy is added to it. This means that the displacement of the particles or the height of the wave increases, resulting in a larger motion.
Increasing the amplitude of a light wave increases the intensity or brightness of the light. This is because the amplitude of a light wave corresponds to the amount of energy carried by the wave. So, a higher amplitude means more energy is being carried, resulting in a brighter light.
If the energy of a wave increases, the amplitude of the wave also increases. This is because amplitude is directly proportional to energy - as energy increases, more energy is imparted to the wave causing it to oscillate with greater magnitude.
When the amplitude of a sound wave increases, the volume or loudness of the sound also increases. This is because amplitude is directly related to the amount of energy in a sound wave, and a higher amplitude means more energy is being transferred, resulting in a louder sound.
When the amplitude of a wave increases, the energy of the wave also increases. This is because the amplitude is directly proportional to the energy carried by the wave. A higher amplitude means that the particles of the medium are oscillating over a greater distance, resulting in a transfer of more energy.
The amplitude of a wave increases as more energy is added to it. This means that the displacement of the particles or the height of the wave increases, resulting in a larger motion.
Increasing the amplitude of a light wave increases the intensity or brightness of the light. This is because the amplitude of a light wave corresponds to the amount of energy carried by the wave. So, a higher amplitude means more energy is being carried, resulting in a brighter light.
If the amplitude of a wave is increased, the energy that the wave carries also increases. Amplitude is directly proportional to energy in a wave, so as the amplitude grows, the energy of the wave increases.
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 amplitude of a wave increases as the wave's energy increases. Amplitude refers to the maximum displacement of a wave from its equilibrium position. A higher energy wave will have a greater amplitude compared to a lower energy 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 exponentially. Conversely, decreasing the amplitude of a wave will result in a decrease in its energy.
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.
When energy increases, the frequency increases.Source(s):my brain7th grade science textbook
The answer depends upon the conditions of the environment. If the available energy to the wave generator is unbounded, then there is no impact on amplitude as frequency increases. However if total energy rate is constant, then the amplitude must decrease as frequency increases in order to maintain the same energy output.