How does the surface of a refracting prism become reflective?

In summary, the speaker discusses their experience using a telescope and mirror to align crosshairs and later using a refracting prism for the same purpose. They express a lack of understanding about the theory behind this phenomenon, which is identified as total internal reflection. They are seeking resources to learn more about it.
  • #1
Browntown
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Homework Statement
How does the surface of a refracting prism become reflective?
Relevant Equations
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In my physics lab, we placed a mirror in front of a telescope with built in crosshairs and crosshairs that were shining out the front of the telescope which reflected against the mirror and allowed us to see them and then adjust the level of the telescope until the two were aligned. Later we had to do the same but with the surface of a refracting prism where once the telescope was pointed at a specific angle, the surface became like a mirror and allowed us to align the crosshairs.

In order to fill in the theory section I need to understand how this occurs but I have no idea other than there is some kind of total internal reflection happening.

Any help understanding would be much appreciated, thank you.
 
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  • #2
Browntown said:
...Later we had to do the same but with the surface of a refracting prism where once the telescope was pointed at a specific angle, the surface became like a mirror and allowed us to align the crosshairs. In order to fill in the theory section I need to understand how this occurs...
Maybe this Wikipedia article will help: https://en.wikipedia.org/wiki/Total_internal_reflection
 
  • #3
Yes, total internal reflection is the name of this phenomenon. Most intro physics textbooks and optics textbooks discuss it. A Google search turns up lots of results, for example:

http://hyperphysics.phy-astr.gsu.edu/hbase/phyopt/totint.html
At incoming angles less than the critical angle (where total internal reflection begins) you have partial internal reflection.

 

What is a refracting prism?

A refracting prism is a transparent optical element with flat, polished surfaces that refracts or bends light as it passes through. It is typically made of glass or plastic and is used to split white light into its component colors or to redirect light beams.

How does a refracting prism work?

A refracting prism works by bending light as it passes through the different materials and angles of the prism. When white light enters the prism, it is separated into its component colors due to the different wavelengths of light refracting at different angles. The angle at which the light bends depends on the refractive index of the material and the angle of incidence of the light beam.

Why does the surface of a refracting prism become reflective?

The surface of a refracting prism becomes reflective due to the phenomenon of total internal reflection. This occurs when light traveling through a material with a higher refractive index (such as glass) reaches the boundary with a material of lower refractive index (such as air) at an angle greater than the critical angle. The light is then reflected back into the material, creating a mirrored surface on the prism.

What is the purpose of the reflective surface on a refracting prism?

The reflective surface on a refracting prism is used to redirect light beams and create more efficient optical systems. By reflecting light back into the prism, it can be manipulated and redirected without needing additional lenses or optics. This makes refracting prisms useful in a variety of scientific and technological applications, such as in cameras, telescopes, and spectrometers.

How is the reflective surface created on a refracting prism?

The reflective surface on a refracting prism is created by applying a thin layer of reflective material, such as aluminum or silver, to one of the flat surfaces of the prism. This can be done through processes like vacuum deposition or sputtering. The reflective surface must be smooth and uniform in order to produce clear and accurate reflections of light.

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