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23 Nov 2019
<p>In the Bohr atom, electrons move on classical circular orbits that have<br />angular momenta l<em>ħ</em>, where l = 1, 2, . . .. Show that the radius of the first<br />Bohr orbit is a0 and that the model predicts the correct energy spectrum.<br />In fact the ground state of hydrogen has zero angular momentum. Why did<br />Bohr get correct answers from an incorrect hypothesis?</p>
<p>In the Bohr atom, electrons move on classical circular orbits that have<br />angular momenta l<em>ħ</em>, where l = 1, 2, . . .. Show that the radius of the first<br />Bohr orbit is a0 and that the model predicts the correct energy spectrum.<br />In fact the ground state of hydrogen has zero angular momentum. Why did<br />Bohr get correct answers from an incorrect hypothesis?</p>