Embibe Experts Solutions for Chapter: Interference and Diffraction, Exercise 1: Exercise 1
Embibe Experts Physics Solutions for Exercise - Embibe Experts Solutions for Chapter: Interference and Diffraction, Exercise 1: Exercise 1
Attempt the practice questions on Chapter 21: Interference and Diffraction, Exercise 1: Exercise 1 with hints and solutions to strengthen your understanding. Physics Crash Course MHT-CET solutions are prepared by Experienced Embibe Experts.
Questions from Embibe Experts Solutions for Chapter: Interference and Diffraction, Exercise 1: Exercise 1 with Hints & Solutions
Two light rays having the same wavelength in vacuum are in phase initially. Then, the first ray travels a path through a medium of refractive index while the second ray travels a path through a medium of refractive index . The two waves are then combined to observe interference. The phase difference between the two waves is

When a plastic thin film of refractive index is placed in the path of one of the interfering waves then the central fringe is displaced through the width of five fringes. The thickness of the film, if the wavelength of light is , will be

The path difference between two interfering waves at a point on the screen is . The ratio of intensity at this point and that at the central bright fringe will be (Assume that intensity due to each slit in same)

The path difference between two interfering waves at a point on screen is times the wavelength. If the path difference is . Find the wavelength.

In a Fresnel bi-prism experiment, the two positions of lens give separation between the slits as and , respectively. What is the actual distance of separation?

What is the effect on Fresnel's bi-prism experiment when white light is used?

A single slit of width is illuminated by parallel light of wavelength and diffraction bands are observed on a screen from the slit. The distance of third dark band from the central bright band is.

In a single slit diffraction pattern
