Let Y alm Y = denote the eigenfunctions of a Hamiltonian for a spherically symmetric potential V(r). The wavefunction = [1,₂ (a) H, L² and L₂ Y. + √54₂ + √104, 21-1 210 213 (b) H and L₂ an eigenfunction of ******** www. (c) H and L² (d) L² and L₂
Let Y alm Y = denote the eigenfunctions of a Hamiltonian for a spherically symmetric potential V(r). The wavefunction = [1,₂ (a) H, L² and L₂ Y. + √54₂ + √104, 21-1 210 213 (b) H and L₂ an eigenfunction of ******** www. (c) H and L² (d) L² and L₂
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![Let Ymdenote the eigenfunctions of a Hamiltonian for a spherically symmetric potential V(r). The wavefunction
+ √104 213 ] is an eigenfunction of
21-1
(b) H and L₂
(c) H and L²
= Y. +√√54.
210
4
(a) H₂ L² and L₂
(d) L² and L₂](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc1bd6b64-9689-4ddb-80a0-c3c9eaae056f%2Fbb87cee0-1f31-4a1e-afb9-710843e1ddb3%2F9bx1fol_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Let Ymdenote the eigenfunctions of a Hamiltonian for a spherically symmetric potential V(r). The wavefunction
+ √104 213 ] is an eigenfunction of
21-1
(b) H and L₂
(c) H and L²
= Y. +√√54.
210
4
(a) H₂ L² and L₂
(d) L² and L₂
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