Verifying Duderstadt & Hamilton's Eqs. (4-134) & (4-137) in Nuclear Transport

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SUMMARY

The discussion focuses on verifying Eqs. (4-134) and (4-137) from Duderstadt and Hamilton's textbook concerning neutron transport. Specifically, it confirms that the integral of the product of the solid angle components yields 4π/3 when evaluated, and that the integral of any odd-numbered components vanishes due to symmetry. The participants emphasize the importance of understanding solid angles and the Kronecker delta in this context, as well as the mathematical implications of these integrals in deriving the diffusion equation from the neutron transport equation.

PREREQUISITES
  • Understanding of solid angles in three-dimensional space
  • Familiarity with the Kronecker delta notation
  • Basic knowledge of neutron transport theory
  • Proficiency in calculus, particularly in evaluating integrals
NEXT STEPS
  • Study the derivation of the diffusion equation from the neutron transport equation
  • Learn about the properties of the Kronecker delta in mathematical physics
  • Explore solid angle calculations and their applications in physics
  • Review integral calculus techniques for evaluating multi-dimensional integrals
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Students and professionals in nuclear engineering, physicists working with neutron transport, and anyone interested in advanced mathematical physics concepts.

bamaguy
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Show by direct calculation that Eqs. (4-134) and (4-137) in the textbook by Duderstadt and Hamilton hold, i.e.:(a) ∫ dΩΩiΩj= 4π/3 δij; i,j = x,y,z;
4π(b) ∫ dΩΩxΩyΩz = 0, if l, m, or n is odd.


The integrals are over 4π.

This is part of the derivation of the diffusion equation from the neutron transport equation. Part (b) from D&H Next note that the integral of the product of any odd number of components of OMEGA vanishes by symmetry.

(a) I think that 4π/3 comes from the volume of the sphere and δij is the kronecker delta. I don't know how to show this mathematically.
(b) I think that this has to do with the sin or cos function.
 
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Not volume. Omega is solid angle.

http://en.wikipedia.org/wiki/Solid_angle

I don't have the textbook you cite. So it's a little difficult to follow the question. You should read back in the text to see if they don't do something on solid angle and how to manipulate it.
 

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