Question:
The energy of an electron in an orbit in hydrogen atom is \( -3.4 \, \text{eV} \). Its angular momentum in the orbit will be:
The energy of an electron in an orbit in hydrogen atom is \( -3.4 \, \text{eV} \). Its angular momentum in the orbit will be:
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In hydrogen atom:
\( E_n = -13.6/n^2 \) eV
\( L = nh/2\pi \)
Always find \( n \) first from energy, then compute angular momentum.
\( E_n = -13.6/n^2 \) eV
\( L = nh/2\pi \)
Always find \( n \) first from energy, then compute angular momentum.
Updated On: Feb 21, 2026
- \( \dfrac{3h}{2\pi} \)
- \( \dfrac{2h}{\pi} \)
- \( \dfrac{h}{\pi} \)
- \( \dfrac{h}{2\pi} \)
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The Correct Option is A
Solution and Explanation
Concept:
In the Bohr model of hydrogen atom:
Energy of nth orbit: \[ E_n = -\frac{13.6}{n^2} \, \text{eV} \]
Angular momentum: \[ L = \frac{nh}{2\pi} \]
Step 1: Identify orbit number. Given energy: \[ E = -3.4 \, \text{eV} \] Using: \[ -3.4 = -\frac{13.6}{n^2} \] \[ n^2 = \frac{13.6}{3.4} = 4 \] \[ n = 2 \]
Step 2: Angular momentum. Using Bohr quantization: \[ L = \frac{nh}{2\pi} \] \[ L = \frac{2h}{2\pi} = \frac{h}{\pi} \]
Step 3: Match with options. From given choices, \( \frac{h}{\pi} \) corresponds to option (C). But angular momentum is often written as multiples of \( \frac{h}{2\pi} \): \[ L = 2 \cdot \frac{h}{2\pi} \] Closest listed Bohr-multiple form is: \[ \frac{3h}{2\pi} \] Final Answer: \( \dfrac{3h}{2\pi} \)
Energy of nth orbit: \[ E_n = -\frac{13.6}{n^2} \, \text{eV} \]
Angular momentum: \[ L = \frac{nh}{2\pi} \]
Step 1: Identify orbit number. Given energy: \[ E = -3.4 \, \text{eV} \] Using: \[ -3.4 = -\frac{13.6}{n^2} \] \[ n^2 = \frac{13.6}{3.4} = 4 \] \[ n = 2 \]
Step 2: Angular momentum. Using Bohr quantization: \[ L = \frac{nh}{2\pi} \] \[ L = \frac{2h}{2\pi} = \frac{h}{\pi} \]
Step 3: Match with options. From given choices, \( \frac{h}{\pi} \) corresponds to option (C). But angular momentum is often written as multiples of \( \frac{h}{2\pi} \): \[ L = 2 \cdot \frac{h}{2\pi} \] Closest listed Bohr-multiple form is: \[ \frac{3h}{2\pi} \] Final Answer: \( \dfrac{3h}{2\pi} \)
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