Question

The medium in which the Young’s double slit experiment is set up, is replaced by an optically denser medium. How will the interference pattern vary? Explain.

Answer 1

The fringe width is given by

ß = \(\frac{\lambda D}{d}\) 

or ß ∝ λ

When the medium is replaced by an optically denser medium, the velocity of light decreases, and hence the wavelength λ (= c) also decreases (v remains constant). Hence the fringe width will decrease.

Answer 2

When the medium in Young's double slit experiment is replaced by an optically denser medium, the interference pattern changes due to the decrease in the wavelength of light.

Key Changes:

1. Wavelength Decrease:

   - The speed of light \(v\) in a medium is given by:

     \[ v = \frac{c}{n} \]

     where \(c\) is the speed of light in a vacuum and \(n\) is the refractive index of the medium.

   - The wavelength \(\lambda\) in the medium is:

     \[ \lambda = \frac{\lambda_0}{n} \]

     where \(\lambda_0\) is the wavelength in a vacuum.

2. Fringe Width Decrease:

   - The fringe width \(w\) is given by:

     \[ w = \frac{\lambda D}{d} \]

     where \(\lambda\) is the wavelength in the medium, \(D\) is the distance between the slits and the screen, and \(d\) is the distance between the slits.

   - In an optically denser medium, since \(\lambda\) decreases, \(w\) also decreases, causing the fringes to be closer together.

3. More Fringes:

   - As the fringe width \(w\) decreases, more fringes fit into the same distance on the screen.

 Summary:

- Wavelength decreases: \(\lambda = \frac{\lambda_0}{n}\)

- Fringe width decreases: \( w = \frac{\lambda D}{d} \)

- Number of fringes increases.