To which Bohr’s orbit in hydrogen atom, the electric transition corresponds to third line in the Balmer series?
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To which Bohr’s orbit in hydrogen atom, the electric transition corresponds to third line in the Balmer series?
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Answer:
For the 3rd line of Balmer seriesthe transition take place from n = 2+3=5 to n=2 i.e from fifth Bhors orbit to second Bhors orbit....
Explanation:
In the atomic emission spectra of the hydrogen atom, the emission lines from an excited state n
th
Bohr orbit (n>2) to second Bohr orbit (n=2) is called Balmer series. Thus emission from n>2 to n=2 constitutes the various spectral lines of the Balmer series.
For the third line of Balmer series the transition should take place from n=2+3=5 to n=2 Bohr orbit i.e. from fifth Bohr orbit to second Bohr orbit.
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