Deriving formula for final intensity of light through three polarizers.

t_physics · Apr 3, 2012

Homework Statement

Show that the exit intensity as a function of Io (intensity out of light source) and θ12 (angle of second polarizer compared to the first polarizer) is

I = (Io/8) sin(2(θ12)))^2

Homework Equations

Malus' Law
I = Io (cosθ)^2

The Attempt at a Solution

I1 = Io/2
I2 = I1 (cos(θ12))^2
= (Io/2) (cos(θ12))^2
I = I2 (cos(θ23))^2
= (Io/2)(cos(θ12))^2 (cos(θ23))^2

I understand that the difference between θ1 and θ13 is 90°, but don't know how to apply this to derive the equation listed above.

t_physics · Apr 3, 2012

I just realized that in the final equation, θ23 = (90 - θ12), so it could be rewritten as I = (Io/2)(cos(θ12))^2 (cos(90-θ12))^2

Still unsure about the trig involved though.

Thanks

Deriving formula for final intensity of light through three polarizers.

Homework Statement

Homework Equations

The Attempt at a Solution

1. What is the purpose of deriving a formula for final intensity of light through three polarizers?

2. How many variables are involved in the formula for final intensity of light through three polarizers?

3. What factors can affect the final intensity of light through three polarizers?

4. How can the formula for final intensity of light through three polarizers be derived?

5. What are the limitations of the formula for final intensity of light through three polarizers?

Similar threads

Hot Threads

Recent Insights