I think it is the crest that has exhibits energy strength
wellllll energy of the wave controls the amplitude of a wave
The strength of a wave is typically measured by its amplitude, which is the height or intensity of the wave. Greater amplitude indicates a stronger wave. Additionally, the energy carried by a wave is another measure of its strength.
One factor of course would be how fast the wave is moving.
The amplitude of the wave determines how much energy it is carrying. A wave with a greater amplitude carries more energy than a wave with a smaller amplitude.
The part of the wave that is considered the ridge is the very point that is falling. The part that is falling and is usually white is the ridge of the wave.
Intensity (brightness) and energy (frequency).
Light is considered a wave because it exhibits properties of a wave, such as interference and diffraction, and can be described using wave equations.
The largest amplitude in a wave represents the maximum displacement of the wave from its rest position. It is significant because it indicates the maximum energy carried by the wave and can affect the intensity and strength of the wave's effects.
The energy of a wave moves forward, causing the disturbance in the medium to propagate. This can be seen as the wave pattern moving through space.
Light exhibits characteristics of both waves and particles, known as wave-particle duality. This means that light can behave as both a wave, showing interference and diffraction patterns, and as a particle, with discrete energy packets called photons. Its behavior depends on the experimental setup and observation.
Yes dude the energy of wave depends upon the amplitude The more the trough ( upper part of wave) moves away from the peroendicular distance the more it spends energy i.e. energy is inversely proportional to ampltitude
Yes, light exhibits properties of both a wave and a particle, known as wave-particle duality.