Can light be split by colour accurately?

In summary: A spectrometer produces a band of light with the spectral colours spread out over it. If you use a narrow slit, a narrow band of wavelengths can be selected.
  • #1
cwinhall
6
0
Dear Physicists,

My understanding of physics is at the utmost basic level. Let me apologise in advance for what is probably a dumb question.

What I do know (I think):
When white light hits a prism, it comes through the other side, showing the colours of the rainbow. It is my udnerstand that this is based off several laws of physics depending on the material and the refractive index.

What I want to know:
Can you accurately separate colours out and what are the effects on the "quality" of the output of that separated light?

Example:
If I shine white light through a prism/material (or multiple prisms/materials), can I separate all colours and only let red shine through?
 
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  • #2
Are you thinking of measuring the "quality" of a light source using a spectrometer?
 
  • #3
The spectrum of light is continuous so if you define one frequency as "red" there is another frequency infinitely close either side that you want to define as "not red" and to be blocked. Does that help you answer your question?
 
  • #4
jbriggs444 said:
Are you thinking of measuring the "quality" of a light source using a spectrometer?

After typing out a long explanation of my idea I suddenly came to the embarassing realisation of what I was "inventing". A projector.
 
  • #5
cwinhall said:
After typing out a long explanation of my idea I suddenly came to the embarassing realisation of what I was "inventing". A projector.
Actually, the design of a "Projector" attempts to eliminate the 'splitting' of light forming an image into it's different wavelengths. That would give all the images fuzzy / coloured edges. It's called Chromatic Aberration. To do what you are asking for requires loads of chromatic separation - such as with a prism.
 
  • #6
sophiecentaur said:
Actually, the design of a "Projector" attempts to eliminate the 'splitting' of light forming an image into it's different wavelengths. That would give all the images fuzzy / coloured edges. It's called Chromatic Aberration. To do what you are asking for requires loads of chromatic separation - such as with a prism.
Can the same separation of light occur as effectively with a prism/ multiple prisms?
 
  • #7
cwinhall said:
Can the same separation of light occur as effectively with a prism/ multiple prisms?
I'm not sure what you mean by "effectively" when the purpose of a 'projector' is to restrict the direction of light from each point on an object (slide) to a specific point on the screen. If it happens, the lens is not good enough - but there will always be some aberration at some wavelengths. If you want to split light into its spectrum then you use an appropriate device - prism or diffraction grating (best).
cwinhall said:
Can the same separation of light occur as effectively with a prism/ multiple prisms?
 
  • #8
cwinhall said:
What I want to know:
Can you accurately separate colours out and what are the effects on the "quality" of the output of that separated light?

Example:
If I shine white light through a prism/material (or multiple prisms/materials), can I separate all colours and only let red shine through?

Yes, absolutely. Though, instead of using colors, you'd instead choose a range of wavelengths you want to end up with.
 
  • #9
cwinhall said:
If I shine white light through a prism/material (or multiple prisms/materials), can I separate all colours and only let red shine through?
A spectrometer produces a band of light with the spectral colours spread out over it. If you use a narrow slit, a narrow band of wavelengths can be selected. Would that be what you wanted?
 

1. How is light split into different colors?

The splitting of light into different colors is known as dispersion. This occurs when light passes through a medium, such as a prism or a droplet of water, and is refracted or bent at different angles based on its wavelength. This results in the separation of the white light into its individual colors.

2. Can light be split into an infinite number of colors?

No, light cannot be split into an infinite number of colors. The visible spectrum of light is made up of seven main colors: red, orange, yellow, green, blue, indigo, and violet. These colors correspond to different wavelengths of light, and beyond the visible spectrum, there are other wavelengths such as ultraviolet and infrared that cannot be seen by the human eye.

3. Can light be split by color accurately every time?

Yes, light can be split by color accurately every time. This process is based on the scientific principles of physics and optics, and it is a reliable method for separating white light into its component colors. However, the accuracy of the separation may vary depending on the quality of the medium used, such as the material and shape of the prism.

4. Is there a limit to how precise light can be split by color?

Yes, there is a limit to how precise light can be split by color. This limit is determined by the wavelength of light itself. The smaller the wavelength, the more difficult it is to accurately separate it from other wavelengths. This is why the visible spectrum has a finite number of colors, as there are limits to how small a wavelength can be.

5. What is the practical application of splitting light into different colors?

The splitting of light into different colors has many practical applications in various fields such as photography, astronomy, and telecommunications. For example, prisms are used in cameras to create a rainbow effect, and in telescopes to analyze the light emitted by celestial objects. In telecommunications, fiber optic cables use the principle of dispersion to transmit information through different wavelengths of light.

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