With respect to atomic spectrum, each li...

With respect to atomic spectrum, each line in the Lyman series is due to electrons returning

from a particular higher energy level to n = 3

from a particular higher energy level to n = 2

from a particular higher energy level to n = 1

from a particular higher energy level to n = 4

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To solve the question regarding the Lyman series in atomic spectra, we need to understand the transitions of electrons between energy levels in a hydrogen atom. ### Step-by-Step Solution: 1. **Understanding the Lyman Series**: The Lyman series is a set of spectral lines that correspond to the transitions of electrons in a hydrogen atom from higher energy levels down to the first energy level (n=1). 2. **Identifying the Energy Levels**: In the Lyman series, the initial energy level (n2) can be any integer greater than 1 (n=2, 3, 4, ...), and the final energy level (n1) is always fixed at 1. This means that the transitions are from n2 (higher energy level) to n1 (which is 1). 3. **Analyzing the Options**: - The question provides several options regarding the transitions: - From a particular higher energy level to n=3 (Incorrect) - From a particular higher energy level to n=2 (Incorrect) - From a particular higher energy level to n=1 (Correct) - From a particular higher energy level to n=4 (Incorrect) 4. **Conclusion**: The correct answer is that each line in the Lyman series is due to electrons returning from a particular higher energy level (n2) to n=1. ### Final Answer: Each line in the Lyman series is due to electrons returning from a particular higher energy level to n=1. ---

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