Frequency is directly related to color in terms of light waves. Higher frequency waves appear as colors on the violet end of the spectrum, while lower frequency waves appear as colors on the red end of the spectrum. The frequency of light waves determines the specific color that is perceived by our eyes.
The color of light is related to its frequency or wavelength.
Each colour of visible light has a different frequency. Red has the lowest frequency, meaning it has a long wavelength. Purple has the highest frequency and has a very short wavelength. The order is: red, orange, yellow, green, blue, purple. I hope this helps you!
The color of the rainbow with the highest frequency is violet.
As far as visible light is concerned violet has highest frequency and shortest wavelength where as red has lowest frequency and so longest wavelength VIBGYOR is the order of colours in the visible spectrum
The only reasonable way to relate a frequency or wavelength (the two are related by a very simple equation, so they're effectively the same information) to a color is by looking at a table or chart; there's no mathematical equation that you can put a number in and get out "red" as the answer. Intensity has nothing to do with color, frequency, or wavelength, so there's no way to relate it to any of those properties.
Wavelength, or alternatively its frequency.
Yes. Every different frequency (wavelength) of light is perceived as a different color by the human eye. Except in colorblind people, that is.
The color of light is related to its frequency or wavelength.
Each colour of visible light has a different frequency. Red has the lowest frequency, meaning it has a long wavelength. Purple has the highest frequency and has a very short wavelength. The order is: red, orange, yellow, green, blue, purple. I hope this helps you!
Every color has a different frequency. That's why it appears to our eyes as a different color.
The color of the rainbow with the highest frequency is violet.
Frequency determines color. Frequency is determined by the origin of the photon, i.e. emitted from an excited atom.
As far as visible light is concerned violet has highest frequency and shortest wavelength where as red has lowest frequency and so longest wavelength VIBGYOR is the order of colours in the visible spectrum
The only reasonable way to relate a frequency or wavelength (the two are related by a very simple equation, so they're effectively the same information) to a color is by looking at a table or chart; there's no mathematical equation that you can put a number in and get out "red" as the answer. Intensity has nothing to do with color, frequency, or wavelength, so there's no way to relate it to any of those properties.
Frequency and amplitude are two key characteristics of waves. In general, higher frequency waves have a shorter wavelength and carry more energy. Meanwhile, amplitude refers to the height of a wave and is not directly related to frequency.
Period = 1 / frequency
The color of light is determined by its frequency, with higher frequencies corresponding to bluer colors and lower frequencies to redder colors. Wavelength is inversely related to frequency, so shorter wavelengths correspond to higher frequencies and bluer colors, while longer wavelengths correspond to lower frequencies and redder colors.