The polariser and analyser are inclined ...

The polariser and analyser are inclined to each other at `60^(@)`. The intensity of polarised light emerging from polariser is I. The intensity of the unpolarised light incident on the polariser is

Text Solution

AI Generated Solution

To solve the problem, we need to find the intensity of the unpolarized light incident on the polarizer, given that the intensity of the polarized light emerging from the polarizer is \( I \) and the angle between the polarizer and analyzer is \( 60^\circ \). ### Step-by-Step Solution: 1. **Identify the Intensity of Unpolarized Light**: Let \( L_0 \) be the intensity of the unpolarized light incident on the polarizer. 2. **Intensity After Polarization**: ...

Similar Questions

Explore conceptually related problems

The polariser and analyser are inclined to each other at 60^(@) . If I/2 is the intensity of the polarised light emergent from analyser. Then the intensity of the unpolarised light incident on the polariser is

The axes of the polariser and analyser are inclined to each other at 60^(@) . If the amplitude of the polarised light emergent through analyser is A. The amplitude of unpolarised light incident on polariser is

The amplitude of polarised light transmitted through a polariser is A. The amplitude of unpolarised light incident on it is

The axes of the polariser and analyser are inclined to each other at 45^(@) . If the amplitude of the unpolarised light incident on the polariser is A , the amplitude of the light transmited through the analyser is

An analyser is inclined to a polariser at an angle of 30^(@) . The intensity of light emerging from the analyser is 1/nth of that is incident on the polariser. Then n is equal to

An analyser is inclined to a polariser at an angle of 30^(@) . The intensity of light emerging from the analyser is 1"/"n th of that is incident on the polariser. Then n is equal to

define plane polarised light in short ?

What is meant by a linearly polarised light? Which type of waves can be polarised? Briefly explain a method for producing polarised light. Two polaroids are placed at 90^(@) to each other and the intensity of transmitted light is zero. What will be the intensity of transmitted light when one more polaroid is placed between these two bisecting the angle between them ? Take intensity of unpolarised light as I_(0)

Two nicol prisms are inclined to each other at an angle 30^(@) . If I is the intensity of ordinary light incident on the first prism, then the intensity of light emerges from the second prism will be

A polarizer-analyser set is adjusted such that the intensity of light coming out of the analyser is just 12.5 % of the original intensity of light incident on the polarizer. Assuming that the polarizer-analyser set does not absorb any light, the angle by which the analyser need to be rotated in any sense to increase the output intensity to double of the previous intensity, is :

The polariser and analyser are inclined to each other at `60^(@)`. The intensity of polarised light emerging from polariser is I. The intensity of the unpolarised light incident on the polariser is

Text Solution

Similar Questions

Recommended Questions