You will be utiizing a basicoptic system.
The index of refraction of theplastic cylindrical lens depends on wavelength. Choose an anglewhich gives a good color separation and measure the index ofrefraction for blue and red light.
Question:How big is the difference in indices of refraction? How good is theapproximation that n is constant for thismaterial?If this question doesnt make sense..then just answer ittheoretically speaking. That is how would we go about checkingwhether or not it conforms with the n as the constant for thematerial... Thanks!
Background info:
ThePhysics
The Law ofReflection
The law of reflection states that for a plane mirror, the angle ofincidence is equal to the angle of reflection, and that the tworays lie in a plane.
r
normal
. A light ray perpendicular to the surface has an angle ofincidence 0°.
The Law of Refraction âSnellâs Law
A ray of light passing from one substance (index ofrefraction
n1)into another (index of refraction n
2) across a plane boundary will be refracted. The angle the raymakes in one medium will be related to the angle in the secondmedium by the equation below, and that all rays lie in aplane.
(2)
Total InternalReflection
A ray incident on a medium with lower index of refraction willbe
totally internally reflected if sin θ1> n2/n1.There will be no transmitted beam for this incident angle. Ameasurement of the critical angle for total internalreflection can be used to determine the index of refraction of the substance.If n
2 = 1 (air), then the critical angle is:
sin θc = 1/
n
1. (3)
Polarization byReflection â Brewsterâs Angle
If the angle between the reflected and refracted rays is 90°,then
tan θ
B = n2/n
1. (4)
At this angle, only light with polarization out of the plane ofreflection and refraction will be reflected. The reflected lightwill be completely polarized.
Figure3.
Refractionof Light RaysFigure2.
Incidentand Reflected Rays(1)
Always measure the angles with respect to the surface