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.
Each colour has different wavelengths....For example: In VIBGYOR It is in the order of increasing wavelength i.e Compared to red violet is having the shorter wavelength..... The frequency and wavelength are related by the equation: In vaccum: frequency= c/wavelengthwherec is the velocity of light in free spaceWhereas in any medium,frequency= Velocity of light in that medium/wavelength So, it is clear from the formula that the wavelength and frequency are inversely proportional to each other.... As the wavelength changes with colour the frequency also changes according to that.............. If the frequency is high, the wavelength will be low and viceversa....
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!
I assume you are asking in regard to the photoelectric effect. The intensity of the photons can be viewed as the brightness of the light. However, the frequency is the number of wavelengths that pass a certain point in a second. The frequency is also used to determine the energy of the photon (E=hf).
Wavelength = 3 x 108 / 6.9 *1014 lambda = 4.35*10-7 m Almost the colour seems to be violet.
It is a visible colour with a wavelength of 620-750 nanometres or frequency in the range 400-484 TeraHertz.
Each colour has different wavelengths....For example: In VIBGYOR It is in the order of increasing wavelength i.e Compared to red violet is having the shorter wavelength..... The frequency and wavelength are related by the equation: In vaccum: frequency= c/wavelengthwherec is the velocity of light in free spaceWhereas in any medium,frequency= Velocity of light in that medium/wavelength So, it is clear from the formula that the wavelength and frequency are inversely proportional to each other.... As the wavelength changes with colour the frequency also changes according to that.............. If the frequency is high, the wavelength will be low and viceversa....
c=lamda*f c is a constant, which is the speed of light, lamda is the wavelength which the light is traveling at, and f is the frequency of the light. All light travels at the speed of light no matter what colour, however ever colour tavels at different wavelengths and frequencies.
colour blue ------> red frequency drops, wavelength increases, because speed remains constant and speed=frequency*wavelength
Pitch is related to the frequency of Sound. So the subjective property is Pitch. Colour is related to the wavelength of Light. So the subjective property of Light is Colour.
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!
I assume you are asking in regard to the photoelectric effect. The intensity of the photons can be viewed as the brightness of the light. However, the frequency is the number of wavelengths that pass a certain point in a second. The frequency is also used to determine the energy of the photon (E=hf).
Wavelength = 3 x 108 / 6.9 *1014 lambda = 4.35*10-7 m Almost the colour seems to be violet.
It is a visible colour with a wavelength of 620-750 nanometres or frequency in the range 400-484 TeraHertz.
It is a visible colour with a wavelength of 620-750 nanometres or frequency in the range 400-484 TeraHertz.
Shortest wavelength means the highest frequency, meaning the photons have the highest energy. That is color violet. The violet light colors the skin brown. Red light with lower energy photons cannot do that.
The frequency or wavelength (whether what would you prefer, it is the same thing in inverse form) is what determined the colour of the light.
Both, because frequency and wavelength are locked together. If you know one, then you know the other. Knowing both doesn't give you any more information than knowing only one. In that respect, they're interchangeable.