Consider a three-dimensional infinite potential well with a quantized energy of En,nynz (n +n + n), where n = 1,2,3, .., ny, = 1,2,3, ..,n- = 1,2,3, and a represents the 2ma? potential well width in the x, y, and z directions. Let the wave function has the general form 4(x, y, z) = Asin (") sin () sin (=). The value of A would be,
Consider a three-dimensional infinite potential well with a quantized energy of En,nynz (n +n + n), where n = 1,2,3, .., ny, = 1,2,3, ..,n- = 1,2,3, and a represents the 2ma? potential well width in the x, y, and z directions. Let the wave function has the general form 4(x, y, z) = Asin (") sin () sin (=). The value of A would be,
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![Consider a three-dimensional infinite potential well with a quantized energy of Ennyn;
2me (n + n +n2), where n = 1,2,3, ...,n, = 1,2,3, .., n̟ = 1,2,3, and a represents the
potential well width in the x, y, and z directions.
Enyy
Let the wave function has the general form Y(x, y, z) = Asin (**) sin (2) sin (=).
a
a
The value of A would be,](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fca6ff94a-701a-49df-afbb-f6ea38d1298a%2F9d814cda-0f33-4bd0-ae55-ef00c4c51836%2F1zqslir_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider a three-dimensional infinite potential well with a quantized energy of Ennyn;
2me (n + n +n2), where n = 1,2,3, ...,n, = 1,2,3, .., n̟ = 1,2,3, and a represents the
potential well width in the x, y, and z directions.
Enyy
Let the wave function has the general form Y(x, y, z) = Asin (**) sin (2) sin (=).
a
a
The value of A would be,
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