Two wavefunctions, Y, and 42, are each eigenfunctions of the operator Ô, with eigenvalues wi and wz. If wi equals w2, is a linear combination of the wavefunctions (Y: = a14, ± a242) also an eigenfunction? Is it an eigenfunction if f wi # w2? 6.
Two wavefunctions, Y, and 42, are each eigenfunctions of the operator Ô, with eigenvalues wi and wz. If wi equals w2, is a linear combination of the wavefunctions (Y: = a14, ± a242) also an eigenfunction? Is it an eigenfunction if f wi # w2? 6.
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![6.
Two wavefunctions, 4, and Y2, are each eigenfunctions of the operator Ô, with eigenvalues wi and w2.
If wi equals w2, is a linear combination of the wavefunctions (Y: = a14, ± a242) also an eigenfunction?
Is it an eigenfunction if f wi # we?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F211be2ba-4ec6-4936-b07a-1ed177a8094e%2F9e9c2ab2-a00b-483c-998a-dc14e22e4837%2F17npuio_processed.jpeg&w=3840&q=75)
Transcribed Image Text:6.
Two wavefunctions, 4, and Y2, are each eigenfunctions of the operator Ô, with eigenvalues wi and w2.
If wi equals w2, is a linear combination of the wavefunctions (Y: = a14, ± a242) also an eigenfunction?
Is it an eigenfunction if f wi # we?
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