Light, being a vibrating electro-magnetic wave, has a frequency of vibration.
Inversely frequency = speed of light / wavelength
Yes.
Color is the frequency of visible light. The visible light wave range in frequency from 430 trillion hertz, which is red light, to 750 trillion hertz, or violet light.?æ
Color light is determined by the frequency of the light waves. Different colors of light correspond to different frequencies of light waves. For example, red light has a lower frequency than blue light. The relationship between color light and frequency is that higher frequencies are associated with colors towards the violet end of the spectrum, while lower frequencies are associated with colors towards the red end.
The energy of a single photon is directly proportional to its frequency.Specifically, E=hf, where h is the Planck constant.
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 period are mutual reciprocals.
The energy of a single photon is directly proportional to its frequency.Specifically, E=hf, where h is the Planck constant.
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Wavelength and frequency are inversely related to each other when it comes to the speed of light. As the wavelength of light increases, the frequency decreases, and vice versa. However, the speed of light remains constant in a vacuum at approximately 3.00 x 10^8 meters per second.
The product of (wavelength) times (frequency) is the speed.
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.