Spectrometer,Dispersive power of a prism (Theory) : Optics Virtual Lab : Physical Sciences : Amrita Vishwa Vidyapeetham Virtual Lab

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Aim

To determine the dispersive power of prism.

Appratus

Spectrometer, prism, prism clamp, mercury vapour lamp, lens.

Principle

When a beam of light strikes on the surface of transparent material(Glass, water, quartz crystal, etc.), the portion of the light is transmitted and other portion is reflected. The transmitted light ray has small deviation of the path from the incident angle. This is called refraction.

Refraction is due to the change in speed of light while passing through the medium. It is given by Snell's Law.

$«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mfrac»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mi»i«/mi»«/mfenced»«/mrow»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mi»r«/mi»«/mfenced»«/mrow»«/mfrac»«mo»=«/mo»«mfrac»«msub»«mi»n«/mi»«mn»2«/mn»«/msub»«msub»«mi»n«/mi»«mn»1«/mn»«/msub»«/mfrac»«/math»$ -------------------(1)
Willebrord Snel van Royen (1580-1626)

Where «math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mi»i«/mi»«/math» is the angle of incident and is the angle of refraction. And is the refractive index of the first face and is the refractive index of the second face.

And the speed of light on both face is related to the equation $«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mfrac»«msub»«mi»c«/mi»«mn»1«/mn»«/msub»«msub»«mi»c«/mi»«mn»2«/mn»«/msub»«/mfrac»«mo»=«/mo»«mfrac»«msub»«mi»n«/mi»«mn»2«/mn»«/msub»«msub»«mi»n«/mi»«mn»1«/mn»«/msub»«/mfrac»«/math»$ -------------------(2)

«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«msub»«mi»c«/mi»«mn»1«/mn»«/msub»«/math» is the velocity of wave in first face and is the velocity of wave in second face .

Willebrord Snel van Royen
(1580-1626)

The above figure illustrate the change in refracted angle with respect to the refractive index .

Consider a prism of angle A and refractive index n₂. Let i1 and r1 are the incident and refracted ray from face AB, and i2 and r2 are the incident and emerged ray from the second face AC.

Dispersive power of prism

The refractive index of the material of the prism can be calculated by the equation.

$«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mi»n«/mi»«mo»=«/mo»«mfrac»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mfrac»«mrow»«mi»A«/mi»«mo»+«/mo»«mi»D«/mi»«/mrow»«mn»2«/mn»«/mfrac»«/mfenced»«/mrow»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mfrac»«mi»A«/mi»«mn»2«/mn»«/mfrac»«/mfenced»«/mrow»«/mfrac»«/math»$ -------------------(3)

Where, D is the angle of minimum deviation, here D is different for different colour .

Consider two colour green and violet, corresponding minimum deviation is D_G and D_{V ,}corresponding refractive index is.

$«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«msub»«mi»n«/mi»«mi»G«/mi»«/msub»«mo»=«/mo»«mfrac»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mfrac»«mrow»«mi»A«/mi»«mo»+«/mo»«msub»«mi»D«/mi»«mi»G«/mi»«/msub»«/mrow»«mn»2«/mn»«/mfrac»«/mfenced»«/mrow»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mfrac»«mi»A«/mi»«mn»2«/mn»«/mfrac»«/mfenced»«/mrow»«/mfrac»«/math»$ , $«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«msub»«mi»n«/mi»«mi»V«/mi»«/msub»«mo»=«/mo»«mfrac»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mfrac»«mrow»«mi»A«/mi»«mo»+«/mo»«msub»«mi»D«/mi»«mi»V«/mi»«/msub»«/mrow»«mn»2«/mn»«/mfrac»«/mfenced»«/mrow»«mrow»«mi mathvariant=¨normal¨»sin«/mi»«mfenced»«mfrac»«mi»A«/mi»«mn»2«/mn»«/mfrac»«/mfenced»«/mrow»«/mfrac»«/math»$ -------------------(4)

There for dispersive power is.

$«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mi»§#969;«/mi»«mo»=«/mo»«mfrac»«mfenced»«mrow»«msub»«mi»n«/mi»«mi»V«/mi»«/msub»«mo»-«/mo»«msub»«mi»n«/mi»«mi»G«/mi»«/msub»«/mrow»«/mfenced»«mi»n«/mi»«/mfrac»«/math»$ -------------------(5)

Where

$«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mi»n«/mi»«mo»=«/mo»«mfrac»«mfenced»«mrow»«msub»«mi»n«/mi»«mi»V«/mi»«/msub»«mo»+«/mo»«msub»«mi»n«/mi»«mi»G«/mi»«/msub»«/mrow»«/mfenced»«mn»2«/mn»«/mfrac»«/math»$ -------------------(6)

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