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प्रश्न
In the Bohr atom model, the frequency of transitions is given by the following expression
v = `"Rc" (1/"n"^2 - 1/"m"^2)`, where n < m
Consider the following transitions:
| Transitions | m → n |
| 1 | 3 → 2 |
| 2 | 2 → 1 |
| 3 | 3 → 1 |
Show that the frequency of these transitions obey sum rule (which is known as Ritz combination principle).
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उत्तर
In the Bohr atom model, the frequency of transition
v = `"Rc" (1/"n"^2 - 1/"m"^2)` ...n < m
Ist transition, m = 3 and n = 2
`"v"_(3 -> 2) = "R"_"c" (1/2^2 - 1/3^2)`
`= "R"_"c" (1/4 - 1/9)`
`= "R"_"c" ((9 - 4)/36)`
`= "R"_"c" (5/36)`
IIst transition, m = 2 and n = 1
`"v"_(2 -> 1) = "R"_"c" (1/1^2 - 1/2^2)`
`= "R"_"c" (1 - 1/4)`
`= "R"_"c" (3/4)`
IIIrd transition, m = 3 and n = 1
`"v"_(3 -> 1) = "R"_"c" (1/1^2 - 1/3^2)`
`= "R"_"c" (1 - 1/9)`
`= "R"_"c" (8/9)`
According to Ritz combination principle, the frequency transition of single step is the sum of frequency transition in two steps
`"v"_(3->2) + "v"_(2->1) = "v"_(3->1)`
`"R"_"c" (5/36) + "R"_"c" (3/4) = "R"_"c" (8/9)`
`= "R"_"c" (8/9) = "R"_"c" (8/9)`
`"v"_(3->2) + "v"_(2->1) = "v"_(3->1)`
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