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Unformatted text preview: either Eq. (1a) or Eq. (1b), we get ( ( ) ( ) ) () Let’s manipulate this expression. Multiplying the numerator and denominator in Eq. (3) by , we get ( ) ( ( ) ) () ) () There are two interesting ways to write this expression. The first is (
Since and paths in cells ) ( . The quantity is the total number of mean free and . The second way is ( ) () Where [ ( ( ) ) ( ) Equation (5) indicates that the difference of the two scalar fluxes divided by 3 times the average optical
depth of cells
and yields the interface current.
Equation (6a) indicates that the effective interf...
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This note was uploaded on 10/06/2013 for the course NEUN 430 taught by Professor Morel during the Fall '10 term at Texas A&M.
- Fall '10