Calculating Speed of Light in Glass Prism

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SUMMARY

The discussion focuses on calculating the speed of light in a glass prism with an index of refraction of 1.61 for a wavelength of 4.951 x 10-7 m in vacuum. The formula used is v = c/n, where c is the speed of light in vacuum (approximately 3 x 108 m/s). The user successfully determines the speed of light in the glass as v = 3e8/1.61 m/s. The discussion also touches on using a dispersion relation to find the index of refraction for different wavelengths.

PREREQUISITES
  • Understanding of the index of refraction and its significance in optics
  • Familiarity with the speed of light in vacuum and its value (c = 3 x 108 m/s)
  • Basic knowledge of wavelength and its measurement in meters
  • Ability to apply mathematical formulas for speed and refraction
NEXT STEPS
  • Research the dispersion relation formula n(λ) = A + B/λ2 for different materials
  • Learn about the effects of wavelength on the index of refraction in various media
  • Explore the concept of total internal reflection in prisms
  • Investigate advanced optics topics such as chromatic dispersion and its applications
USEFUL FOR

Students and professionals in physics, optical engineering, and materials science who are interested in understanding light behavior in different media, particularly in glass prisms.

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Hi, could someone please help me get started on this problem. The figure is a right angle triangle with 30-60-90 degree angles (right angle). Can you help, please. Thank you so much.

The glass prism shown has an index of re-
fraction that depends on the wavelength of
the light that enters it. The index of refrac-
tion is 1.43 and wavelength 7.456 x 10-7 in vacuum and 1.61 for light of wavelength 4.951 x 10-7 m in vacuum. A beam of whitelight is incident from the left, perpendicular to the first surface, as shown in the figure,and is dispersed by the prism into its spectral components.Determine the speed of the 4.951x 10-7 mlight in the glass. Answer in units of m/s.

--------------|30
--->----------|
--------------|
--------------|90___ _60__
 
Last edited:
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If we use a dispersion relation with only two coefficients,

n(\lambda)=A+\frac{B}{\lambda^2}

we can find A and B from the input data and find n for the third wavelength. Finally,

v=\frac{c}{n}.

Hope it helps!
 
Last edited:
oops! :cry:

I realized your "third" wavelength is identical with the second one...

I'll try to figure out another solution...
 
Last edited:
OK, the problem seems easier than I thought:

If you have the index of refraction for a given frequency (or wavelength in vaccum) then you have the velocity from n=c/v. So, v=c/n=3e8/1.61 m/s.
 
Last edited:
Got it.

Thanks. Very Helpful.
 

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