Getting Brewster's Formula from Snell's Law

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The discussion focuses on deriving Brewster's angle formula from Snell's Law. The key equation from Snell's Law is n1 sin θ1 = n2 sin θ2, with the condition that θ1 + θ2 = 90°. By substituting θ2 with 90° - θ1, the equation transforms into sin θ1/cos θ1 = n2/n1. This leads to the conclusion that tan θB = n2/n1, establishing the relationship needed to derive Brewster's angle. Understanding the sine and cosine definitions in a right triangle is crucial for this derivation.
coldjeanz
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From Snell’s Law equation (2) get the Brewster’s angle formula given by equation (4) when θincident+θrefracted=90°.

equation 2: n1 sin θ1 = n2 sinθ2

equation 4: tanθB = n2/n1

This is kind of foreign to me as I haven't studied it yet, not sure how you go from Eq 2 to E4, how does tan come from an equation with 2 sin in it?
 
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You know that θ1 + θ2 = 90. Try subing in θ2 = 90 - θ1.
 
so then I would eventually end up with:

sinθ1/sin(90-θ1) = n2/n1

still not sure how the left side turns into tanθb though...
 
Remember the definition of sine and cosine of the angles in a right triangle.

ehild
 
Since you know the answer, you can take a peek at it and then look back at what you currently have. What must sin(90-θ1) to transform where you are into the answer? The next question is "does sin(90-θ1) equal what it needs to equal?"
 
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