The velocity of the wave
Its wavelength (or frequency).
the two things that determine the color of a light wave are its wavelength and the material it reflects from.
The wavelength of a sound wave affects the diffraction of a sound wave through an open window because the wavelength can determine how fast the diffraction is moving; therfore, causing the sound to be either lower or higher.I think :)
The amplitude of a light wave shows the light's brightness relative to waves of similar wavelength.
by dividing wavelength by frequency
The velocity of the wave
Its wavelength (or frequency).
the two things that determine the color of a light wave are its wavelength and the material it reflects from.
The wave speed equation proposes that: v = fw; where "v" is the wave's velocity, "f" is the wave's frequency, and "w" (more notably used as lambda) is the wave's wavelength. Manipulating the equation and solving for wavelength yields: w = v/f. Thus, if one knows both the velocity and frequency of a wave, he/she can divide velocity by frequency to determine the corresponding wave's wavelength.
The wavelength of a sound wave affects the diffraction of a sound wave through an open window because the wavelength can determine how fast the diffraction is moving; therfore, causing the sound to be either lower or higher.I think :)
The amplitude of a light wave shows the light's brightness relative to waves of similar wavelength.
The frequency. Or alternatively, the wavelength.
speed = wavelength x frequency
4m
Wave Length. Abbr. WL (:
Wavelength. The shorter the wave (= the higher the frequency) the greater the penetration.