Total internal reflection?
ok...i know:
The critical angle is the angle of incidence which produces an angle of refraction of 90 degrees. ...but i still don't know why it happens... so...what i want to know is why 'total internal reflection' happens... |
It's just obeying the law of light/whatever reflection.
n¹ * sine(ø¹) = n° * sine (ø) n¹ * sine(øcrit) = nr * sine (90 degrees) n¹ * sine(øcrit) = n° sine(øcrit) = n°/n¹° øcrit = sine-1 (n°/n¹) = invsine (n°/n¹) I better stop pretending I know what I'm talking about. What is this? Advanced maths? I hate maths. |
Unh. *knows why it works but can't explain it right now*
I'd offer to dig out my old physics notes, but by the time I get back here (tomorrow morning) someone else will have replied. Hm. No matter, I want to know anyway now, so I might as well go look. |
i don't know, really. i will probably know by this time next year, since i'm doing Physics A-Level, but at the moment we're doing Particle Physics and Electronics. i could tell you the charge of a Strange Quark, if you like... Pion+? Up Quark? Muon?
but no, reflection is out of my field, sorry... |
I had an internal reflection once...I thought I should stop wasting time playing video games and help make the world a better place...then I started breathing. :) :)
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i like your answer Fuzzy...
so...does it happen in a ripple tank??? |
i don't think so, i thought it was just a light thing. i mean, the waves do all reflect internally in a ripple tank, but that's just because of the walls, it's nothing to do with refraction.
the only time i've heard TIR mentioned is concerning light and prisms [or other refracting things], when the light enters the prism at the right angle so that it doesn't emerge again. i think... i hope... |