Physics labs burn in hell

Shadow · November 13, 2009, 05:32:32 PM

TM: E^'/E=((-n^2 cosθ+√(n^2-sin^2⁡θ )))/(n^2 cosθ+√(n^2-sin^2⁡θ ))±√(((-4ncosθ)/(n^2 cosθ+√(n^2-sin^2⁡θ )))^2 (Δn)^2+(((2n^2 sinθ(√(n^2-sin^2⁡θ )-cos^2 θ) ))/(n^2 cosθ+√( n^2-sin^2⁡θ ))^2 )^2 (Δθ)^2 )
TE: E^'/E =(cosθ-√(n^2-sin^2⁡θ ))/(cosθ+√(n^2-sin^2⁡θ ))±√(((-2ncosθ)/(√(n^2-sin^2⁡θ ) (cosθ+√(n^2-sin^2⁡θ ))^2 ))^2 (Δn)^2+(((2sinθ(cos^2⁡θ/√(n^2-sin^2⁡θ )-√(n^2-sin^2⁡θ )) ))/(cosθ+√(n^2-sin^2⁡θ )))^2 (Δθ)^2 )

Night Wolf · November 13, 2009, 05:51:25 PM

*brain fries at overwhelming code*

Zara_rose_wolf · November 13, 2009, 06:43:42 PM

8899^)((&&%#6(jd&%35

prodiGee · November 13, 2009, 09:10:45 PM

I love fried brains.

Shadow · November 13, 2009, 10:34:10 PM

That's the error propagation formula for the reflection coefficients in the Fresnel equations with respect to angle of incidence and index of refraction.

windhound · November 13, 2009, 10:38:50 PM

Looks kinda messy, surely there's a meaningful simplification that gives something close

...that, or I hope you get a crib sheet for tests =P

Shadow · November 14, 2009, 08:44:20 AM

Haha no I won't be tested on that. That's for error analysis in the labs - one time use only. And yeah, it's pretty ugly, because its just a mess of partial derivitives. I don't want to bother simplifying it anymore, the number of approximations I would have to make just isn't worth it.

Sabriel · November 16, 2009, 03:48:57 AM

Quote from: Shadow on November 14, 2009, 08:44:20 AM...just isn't worth it.

Hear, hear. And here it looked SO worthy to me. *sarcasm*

Night Wolf · November 16, 2009, 09:18:11 AM

Quote from: Shadow on November 13, 2009, 10:34:10 PM
That's the error propagation formula for the reflection coefficients in the Fresnel equations with respect to angle of incidence and index of refraction.

*brain drips out ear*

Ungatt Trunn II · November 16, 2009, 03:48:50 PM

And the point of learning this isssss?

Sabriel · November 16, 2009, 03:54:41 PM

Yes, the point iiiiiiiiiiiis?

Ungatt Trunn II · November 16, 2009, 03:57:25 PM

I await a respone at grid 4567, Bravo Kilo Delta.

Sabriel · November 16, 2009, 04:02:57 PM

The response will most likely be indecipherable anyway :P

Firetooth · November 17, 2009, 05:15:59 AM

Quote from: Shadow on November 13, 2009, 05:32:32 PM
TM: E^'/E=((-n^2 cosθ+√(n^2-sin^2⁡θ )))/(n^2 cosθ+√(n^2-sin^2⁡θ ))±√(((-4ncosθ)/(n^2 cosθ+√(n^2-sin^2⁡θ )))^2 (Δn)^2+(((2n^2 sinθ(√(n^2-sin^2⁡θ )-cos^2 θ) ))/(n^2 cosθ+√( n^2-sin^2⁡θ ))^2 )^2 (Δθ)^2 )
TE: E^'/E =(cosθ-√(n^2-sin^2⁡θ ))/(cosθ+√(n^2-sin^2⁡θ ))±√(((-2ncosθ)/(√(n^2-sin^2⁡θ ) (cosθ+√(n^2-sin^2⁡θ ))^2 ))^2 (Δn)^2+(((2sinθ(cos^2⁡θ/√(n^2-sin^2⁡θ )-√(n^2-sin^2⁡θ )) ))/(cosθ+√(n^2-sin^2⁡θ )))^2 (Δθ)^2 )

Incorrect.

Sabriel · November 17, 2009, 01:16:27 PM

Ur face is incorrect.