Lights of different frequencies are perceived as different colors.
the higher the frequency, the higher the energy
Frequency is the characteristic of light that gives rise to our experience of color. It is analogous to the relationship of frequency and pitch for sound.
the higher the energy, the higher the frequency
Frequency controls the color of the light.
The relationship v = T * λ (speed = frequency * wavelength) is true for all waves. For anything with a constant speed, higher frequency means shorter wavelength.
The color of an object is the frequency/wavelength of the light it reflects. The light it reflects is the light it receives minus the light it absorbs.
the higher the frequency, the higher the energy
Frequency is the characteristic of light that gives rise to our experience of color. It is analogous to the relationship of frequency and pitch for sound.
the higher the energy, the higher the frequency
The color, the frequency, and the wavelength.
Wavelength and frequency are inversely proportional.
Wavelength, or alternatively its frequency.
Frequency controls the color of the light.
The relationship v = T * λ (speed = frequency * wavelength) is true for all waves. For anything with a constant speed, higher frequency means shorter wavelength.
Frequency can be found in sound, light, and line current. An example of frequency is, the frequency wave of light will determine what color the light is.
The color of light is related to its frequency or wavelength.
freq x wavelength = c (light speed)