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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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
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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