The wave numbers of three spectral lines of hydrogen atom are considered. Identify the set of spectral lines belonging to the Balmer series. ( = Rydberg constant)
- A
- B
- C
- D
The wave numbers of three spectral lines of hydrogen atom are considered. Identify the set of spectral lines belonging to the Balmer series. ( = Rydberg constant)
Correct answer:D
Standard Method
Given: The wave numbers of three spectral lines are listed, and we must identify the set belonging to the Balmer series.
Find: Which option contains only Balmer series wave numbers.
Concept: The wave number of a hydrogen spectral line is given by
For the Balmer series,
So the Balmer series wave numbers must have the form
Step 1: Check each expression in option D.
For ,
Hence, .
For ,
Hence, .
For ,
Hence, .
All three expressions correspond to transitions ending at .
Therefore, the correct option is D.
Factor Out One-Fourth Trick
Given: Balmer series lines of hydrogen.
Find: A quick way to identify the correct set.
For the Balmer series, always factor out
and check whether the remaining term is of the form
so that
In option D:
These correspond to respectively, so all are Balmer lines.
Therefore, the correct option is D.
Checking whether the terms match any hydrogen series formula without fixing first. This is wrong because the Balmer series is specifically defined by transitions ending at . First write , then compare.
Confusing Balmer with Lyman or Paschen series. This is wrong because Lyman has and Paschen has . Use the correct lower level before testing the expressions.
Judging the option only by numerical size of the fractions. This is wrong because belonging to a spectral series depends on the exact form of the fraction, not on whether it looks larger or smaller. Rewrite each term as instead.
Get unlimited AI-adaptive practice, mastery tracking, and an AI tutor that explains every step — free to start.