When a wave runs out of energy, it will gradually diminish in amplitude and eventually dissipate. This process occurs as the wave transmits its energy to the surrounding medium, causing the wave to fade away.
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 energy is absorbed by a wave, the wave's amplitude decreases and its intensity weakens. This can cause the wave to lose momentum and eventually dissipate.
Correct. Waves transport energy from one place to another, and if the energy runs out, the wave will dissipate and stop traveling.
When the energy of a wave is increased, the frequency remains the same. Frequency is determined by the source of the wave and does not change with energy.
Transverse wave. In a transverse wave, the particles of the medium oscillate perpendicular to the direction of the wave's propagation. This causes the energy to be transmitted perpendicular to the wave's movement.
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 energy is absorbed by a wave, the wave's amplitude decreases and its intensity weakens. This can cause the wave to lose momentum and eventually dissipate.
energy increases, and the wave length decreasespicture the difference between alpha and gamma rays :)
it gets smaller and then there is no more energy to make it travel
Correct. Waves transport energy from one place to another, and if the energy runs out, the wave will dissipate and stop traveling.
When the energy of a wave is increased, the frequency remains the same. Frequency is determined by the source of the wave and does not change with energy.
Transverse wave. In a transverse wave, the particles of the medium oscillate perpendicular to the direction of the wave's propagation. This causes the energy to be transmitted perpendicular to the wave's movement.
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.
When a wave is being absorbed, its amplitude decreases as energy is transferred to the absorbing medium. This results in a reduction of the wave's intensity and amplitude as it loses energy.
As energy is added to a wave, its amplitude and frequency increase, causing it to become more intense and travel faster.
If a wave gains energy, its amplitude may increase because energy is directly proportional to amplitude. The wave may become more intense or pronounced as a result.
The total energy in a seismic wave remains constant as the wave grows larger. The energy is spread out over a larger area, resulting in lower energy concentration at any specific point.