MHT CET · Physics · Atomic Physics
Using Bohr's model, the orbital period of electron in hydrogen atom in \(n^{\text {th }}\) orbit is \(\left(\varepsilon_0=\right.\) permittivity of vacuum, \(h=\) Planck's constant, \(m=\) mass of electron, \(e=\) electronic charge)
- A \(\frac{4 \varepsilon_0^2 n^3 h^3}{m e^4}\)
- B \(\frac{4 \varepsilon_0^2 n^2 h^3}{m e^3}\)
- C \(\frac{4 \varepsilon_0 n h^3}{m e^2}\)
- D \(\frac{4 \varepsilon_0 n^2 h^2}{m e^2}\)
Answer & Solution
Correct Answer
(A) \(\frac{4 \varepsilon_0^2 n^3 h^3}{m e^4}\)
Step-by-step Solution
Detailed explanation
The orbital period of revolution of electron in \(n^{\text {th }}\) orbit is \(T_n=\frac{2 \pi r_n}{v_n}\)
Bohr radius for \(n^{\text {th }}\) orbit \(r_n=\left(\frac{h^2 \varepsilon_0}{\pi m e^2}\right) \frac{n^2}{Z}\) and \(v_n=\left(\frac{e^2}{2 h \varepsilon_0}\right) \frac{Z}{n}\).
\(\therefore T_n=2 \pi \frac{h^2 \varepsilon_0 n^2}{\pi m e^2 Z} \times \frac{2 h \varepsilon_0 n}{e^2 Z}=\frac{4 \varepsilon_0^2 n^3 h^3}{m e^4 Z^2}\)
For hydrogen atom, \(Z=1\)
\(\therefore T_n==\frac{4 \varepsilon_0^2 n^3 h^3}{m e^4}\)
Bohr radius for \(n^{\text {th }}\) orbit \(r_n=\left(\frac{h^2 \varepsilon_0}{\pi m e^2}\right) \frac{n^2}{Z}\) and \(v_n=\left(\frac{e^2}{2 h \varepsilon_0}\right) \frac{Z}{n}\).
\(\therefore T_n=2 \pi \frac{h^2 \varepsilon_0 n^2}{\pi m e^2 Z} \times \frac{2 h \varepsilon_0 n}{e^2 Z}=\frac{4 \varepsilon_0^2 n^3 h^3}{m e^4 Z^2}\)
For hydrogen atom, \(Z=1\)
\(\therefore T_n==\frac{4 \varepsilon_0^2 n^3 h^3}{m e^4}\)
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