Legrende polynomials The amplitude of a stray wave is defined by: SO) =x(21+ 1) exp lô] sen ô, P(cos 0). INO Here 0 is the scattering angle, l is the angular momentum and 6, is the phase shift produced by the central potential that performs the scattering. The total cross section is: Show that: 'É4+ 1)sen² 8, .
Legrende polynomials The amplitude of a stray wave is defined by: SO) =x(21+ 1) exp lô] sen ô, P(cos 0). INO Here 0 is the scattering angle, l is the angular momentum and 6, is the phase shift produced by the central potential that performs the scattering. The total cross section is: Show that: 'É4+ 1)sen² 8, .
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![Legrende polynomials
The amplitude of a stray wave is defined by:
SO) =x
(21+ 1) exp li8,] sen 8, P(cos 8).
INO
Here e is the scattering angle, / is the angular momentum and 6, is the phase shift produced by the
central potential that performs the scattering. The total cross section is:
Show that:
'É4+ 1)sen² 8, .](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fec0ecdc9-0b4b-48ad-a3b2-e78630d87f4c%2Ff8d613e8-a417-4f7d-a4ca-7b164e5a16ae%2F35irsg_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Legrende polynomials
The amplitude of a stray wave is defined by:
SO) =x
(21+ 1) exp li8,] sen 8, P(cos 8).
INO
Here e is the scattering angle, / is the angular momentum and 6, is the phase shift produced by the
central potential that performs the scattering. The total cross section is:
Show that:
'É4+ 1)sen² 8, .
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