(a) Determine the frequency of revolution of an electron in its circular orbit around a stationary hydrogen nucleus in the Bohr model. (b) In classical physics, the frequency of revolution of the electron is equal to the frequency of the radiation that it emits. Show that when n is very large, the frequency of revolution does indeed equal the radiated frequency for a transition from the level n+1 to n.
(a) Determine the frequency of revolution of an electron in its circular orbit around a stationary hydrogen nucleus in the Bohr model. (b) In classical physics, the frequency of revolution of the electron is equal to the frequency of the radiation that it emits. Show that when n is very large, the frequency of revolution does indeed equal the radiated frequency for a transition from the level n+1 to n.
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Transcribed Image Text:(a) Determine the frequency of revolution of an electron in its circular orbit around a stationary hydrogen nucleus in the
Bohr model. (b) In classical physics, the frequency of revolution of the electron is equal to the frequency of the radiation
that it emits. Show that when n is very large, the frequency of revolution does indeed equal the radiated frequency for a
transition from the level n+1 to n.
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