In a macroscopic sample of hydrogen gas, electrons undergo de-excitation from the orbit to the orbit — Atomic Structure Chemistry Question
Question
In a macroscopic sample of hydrogen gas, electrons undergo de-excitation from the $6^{th}$ orbit to the $2^{nd}$ orbit in multiple steps. What will be the total number of spectral lines observed in the spectrum that do NOT belong to the Balmer series?
Answer: B
💡 Solution & Explanation
The total number of spectral lines obtained in a multi-step transition from $n_2=6$ to $n_1=2$ is $\frac{(n_2-n_1)(n_2-n_1+1)}{2} = \frac{(6-2)(6-2+1)}{2} = \frac{4 \times 5}{2} = 10$. The lines belonging to the Balmer series are those terminating precisely at $n=2$ (i.e., $6 \to 2$, $5 \to 2$, $4 \to 2$, and $3 \to 2$), which are $4$ lines. Non-Balmer lines = $10 - 4 = 6$.
💬Ask on WhatsApp →
Still have doubts about this question?
Send it to our AI chemistry tutor on WhatsApp — gets answered in minutes