Question:
The magnitude of energy difference between the energy levels π=3 and π=2 of a quantum particle of mass π in a box of length L is \(\frac{Xβ ^2}{ 8πL ^2} .\)
Then X = _______.
(rounded off to the nearest integer)
[Given: β is Planckβs constant and π denotes the quantum number]
The magnitude of energy difference between the energy levels π=3 and π=2 of a quantum particle of mass π in a box of length L is \(\frac{Xβ ^2}{ 8πL ^2} .\)
Then X = _______.
(rounded off to the nearest integer)
[Given: β is Planckβs constant and π denotes the quantum number]
Then X = _______.
(rounded off to the nearest integer)
[Given: β is Planckβs constant and π denotes the quantum number]
Updated On: Jan 11, 2025
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Correct Answer: 5
Solution and Explanation
For a particle in a box, the energy levels are quantized and given by the formula:
\( E_n = \frac{n^2 h^2}{8mL^2} \)
where:
- \( n \) is the quantum number,
- \( h \) is Planckβs constant,
- \( m \) is the mass of the particle,
- \( L \) is the length of the box.
The energy difference between two energy levels is:
\( \Delta E = E_3 - E_2 = \frac{9h^2}{8mL^2} - \frac{4h^2}{8mL^2} = \frac{5h^2}{8mL^2} \)
Therefore, comparing with the given expression \( \frac{Xh^2}{8mL^2} = \frac{5h^2}{8mL^2} \) , we find that \( X = 5 \).
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