Why Does My Snell's Law Demonstration Fail Using a Linear Function Approach?

AI Thread Summary
The discussion centers on the failure of a Snell's Law demonstration using a linear function approach. The main issue identified is that the function representing time (t) is linear, which does not define a minimum point necessary for applying calculus effectively. When taking the derivative and setting it to zero, the result indicates a parallel line to the x-axis, which does not yield meaningful results for the demonstration. Participants suggest that a simpler geometric approach would be more effective for understanding Snell's Law. Overall, the consensus is that the linear function method is inadequate for this particular demonstration.
physics user1
I can't figure out why my demonstration of snell's law fails, that's the demonstration: (I used a photo)
I think it fails because the function t (HO) represents a line and so the concept of minimum is not defined, when I take the derivative and equal it to 0 I'm considering the case when the line is parallel to the x-axis (the first derivative gives me the angular coefficient and when I equal it to 0 the line is parallel) (considering as y the time and as x HO)

Is that the problem? ( I know the real demonstration but i want to understand why this variant doesn't work)
 

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##AO\sin\theta_1=AH##
 
theodoros.mihos said:
##AO\sin\theta_1=AH##

But... θ1 is the angle whit the vertical
 
You are right. May be better a simpler geometry.
Let ##A(x_1,y_1)## and ##B(x_2,y_2)## the end points and ##O(x,0)## the point than we need. Write the total time and take derivation ##d/dx(t)=0##.
 
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Likes vanhees71 and physics user1
yep it is preferable to use simple geometry to demonstrate
 
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