Solving Geometry Problem: Disparity in Terms of a, D, d, e, & f

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The discussion focuses on solving a geometry problem involving disparity defined as δ = α - β, where α and β are angles related to interocular distance a, viewing distance D, and additional variables d, e, and f. Participants suggest starting with tangent relations to express α and β in terms of the given variables. The expressions derived are α = atan(f/(D+d)) - atan(e/D) and β = arctan((a - e)/D) - arctan((a - f)/(D + d)). The final goal is to compute δ by subtracting β from α. The conversation emphasizes the importance of correctly applying these relationships to arrive at the solution.
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Homework Statement


Disparity is defined as \delta = \alpha - \beta. Find \delta in terms of interocular distance a, viewing distance D and d, e and f.

http://img220.imageshack.us/img220/7576/43519392.jpg

The Attempt at a Solution



I'm not getting anywhere. Any tips to get me started?
 
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I would start by writing down the tangent relations. For example, α is the difference between the two angles that Q and P make from the vertical (forward?) direction. So

α = atan(f/(D+d)) - atan(e/D)

and so forth.

BBB
 
Thanks. Then:

\beta = \arctan(\frac{a - e}{D}) - \arctan(\frac{a - f}{D + d})

Correct? Then I already have my answer it seems.
 
Yes. It seems like you're about there. Don't forget the problem asks for δ=α-β.
 

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