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Prof. David R. Jackson ECE Dept.

ECE 6341 . Spring 2014. Prof. David R. Jackson ECE Dept. Notes 25. Wave Transformation. z . Incident wave:. y . (scalar function, e.g. pressure). x. Notes: N o  variation  m = 0 Must be finite at the origin Must be finite on the z axis. Wave Transformation (cont.).

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Prof. David R. Jackson ECE Dept.

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  1. ECE 6341 Spring 2014 Prof. David R. Jackson ECE Dept. Notes 25

  2. Wave Transformation z Incident wave: y (scalar function, e.g. pressure) x • Notes: • No  variation m = 0 • Must be finite at the origin • Must be finite on the z axis

  3. Wave Transformation (cont.) Multiply both sides by and integrate. Orthogonality: Hence We can now relabel m n.

  4. Wave Transformation (cont.) Let We then have

  5. Wave Transformation (cont.) The coefficients are therefore determined from To find the coefficients, take the limit as x 0.

  6. Wave Transformation (cont.) Recall that Note: Therefore, as x0, we have

  7. Wave Transformation (cont.) or As x 0 we therefore have

  8. Wave Transformation (cont.) Note: If we now let x 0 we get zero on both sides (unless n=0). Solution: Take the derivative with respect to x (n times) before setting x=0.

  9. Wave Transformation (cont.) Hence or Denote

  10. Wave Transformation (cont.) Hence (Rodriguez’s formula)

  11. Wave Transformation (cont.) Therefore Integrate by parts n times: Notes:

  12. Wave Transformation (cont.) or Schaum’s outline Mathematical Handbook Eq. (15.24):

  13. Wave Transformation (cont.) Hence

  14. Wave Transformation (cont.) We then have Note: Hence,

  15. Wave Transformation (cont.) Now use so, Hence

  16. Acoustic Scattering z Rigid sphere y x Acoustic PW so,

  17. Acoustic Scattering (cont.)

  18. Acoustic Scattering (cont.) We have where Choose Hence,

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