If an electric field of intensity F is applied to the hydrogen atom in the first excited plane n = 2 and in the direction Z, and if all the elements of the correction matrix are equal to zero except H'12 = H'21= -3eaF where a is the Bohr radius and e is the charge of the electron. Find the levels of the fission energy, illustrating this by graph showing the state of dissolution before and after the disturbance
If an electric field of intensity F is applied to the hydrogen atom in the first excited plane n = 2 and in the direction Z, and if all the elements of the correction matrix are equal to zero except H'12 = H'21= -3eaF where a is the Bohr radius and e is the charge of the electron. Find the levels of the fission energy, illustrating this by graph showing the state of dissolution before and after the disturbance
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Transcribed Image Text:If an electric field of intensity F is applied to the hydrogen atom in the first excited plane n =
2 and in the direction Z, and if all the elements of the correction matrix are equal to zero
except H'12 = H'21= -3eaF where a is the Bohr radius and e is the charge of the electron. Find
the levels of the fission energy, illustrating this by graph showing the state of dissolution
before and after the disturbance
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