Calculate Angle for Multiple Polarisers to Reduce Intensity <10%

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Mnemonic
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Homework Statement


You use a sequence of ideal polarising filters, each with its axis making the same angle with the axis of the previous filter, to rotate the plane of polarisation of a polarised light beam by a total of 45°. You wish to have an intensity reduction no larger than 10%.

What is the angle between multiple polarisers?

Homework Equations


I=Imaxcos2(θ)

The Attempt at a Solution


For multiple polarisers I=Imaxcos2*n(θ/n) where n is an integer

So I=cos2*n(θ/n) with I>0.9

The only integer solutions I was able to obtain was 9 polarisers separated by 5 degrees (n=9). This would give I=0.933 which is less than 10% loss if Imax=1.

However, this doesn't appear to be giving me the correct solution. What am I missing?
 
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Mnemonic said:
So I=cos2*n(θ/n) with I>0.9

The only integer solutions I was able to obtain was 9 polarisers separated by 5 degrees (n=9).
Using the formula, I find that n = 9 is not the smallest integer value of n that will work. (θ does not need to be an integer number of degrees.)
 
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TSny said:
Using the formula, I find that n = 9 is not the smallest integer value of n that will work. (θ does not need to be an integer number of degrees.)
Was using radians in solution. Thanks for making me look back and double-check!