0 votes
202 views
in Chapter7:Wave Optics by (98.9k points)
edited
White light consists of wavelengths from 400 nm to 700 nm. What will be the wavelength range seen when white light is passed through glass of refractive index 1.55?

1 Answer

0 votes
by (98.9k points)
selected by
 
Best answer

Let λ1 and λ2 be the wavelengths of light in water for 400 nm and 700 nm (wavelengths in vacuum) respectively.

Let λv be the wavelength of light in vacuum.

λ1 = λv/n = \(\frac{400×10^{-9}}{1.55}\) = 258.06 x 109 m

λ2 = λv/n = \(\frac{700×10^{-9}}{1.55}\) = 451.61 x 109 m

The wavelength range seen when white light is passed through the glass would be 258.06 nm to 451.61 nm.

Related questions

Doubtly is an online community for engineering students, offering:

  • Free viva questions PDFs
  • Previous year question papers (PYQs)
  • Academic doubt solutions
  • Expert-guided solutions

Get the pro version for free by logging in!

5.7k questions

5.1k answers

108 comments

561 users

...