NEET · Physics · STD 12 - 12. atoms
A particle of mass \(m\) is moving around the origin with a constant force \(F\) pulling it towards the origin. If Bohr model is used to describe its motion, the radius \(r\) of the \(n^{\text {th }}\) orbit and the particle's speed \(v\) in the orbit depend on \(n\) as
- A \(r \propto n^{1 / 3} ; v \propto n^{1 / 3}\)
- B \(r \propto n^{1 / 3} ; v \propto n^{2 / 3}\)
- C \(r \propto n^{2 / 3} ; v \propto n^{1 / 3}\)
- D \(r \propto n^{4 / 3} ; v \propto n^{-1 / 3}\)
Answer & Solution
Correct Answer
(C) \(r \propto n^{2 / 3} ; v \propto n^{1 / 3}\)
Step-by-step Solution
Detailed explanation
\(\frac{m v^2}{r} =F \ldots(1)\)
\(mvr =\frac{nh}{2 \pi} \Rightarrow v=\frac{nh}{2 \pi mr} \ldots\text{(2)}\)
From equation (1)
\(\frac{ m }{ r }\left(\frac{ nh }{2 \pi mr }\right)^2= F\)
\(\Rightarrow \frac{ n ^2 h^2}{4 \pi^2 mF }= r ^3 \Rightarrow r ^3 \propto n ^2\)
\(\Rightarrow r \propto n ^{2 / 3}\)
From (2)
\(v \propto \frac{n}{r} \propto \frac{n}{n^{2 / 3}} \Rightarrow v \propto n^{1 / 3}\)
\(mvr =\frac{nh}{2 \pi} \Rightarrow v=\frac{nh}{2 \pi mr} \ldots\text{(2)}\)
From equation (1)
\(\frac{ m }{ r }\left(\frac{ nh }{2 \pi mr }\right)^2= F\)
\(\Rightarrow \frac{ n ^2 h^2}{4 \pi^2 mF }= r ^3 \Rightarrow r ^3 \propto n ^2\)
\(\Rightarrow r \propto n ^{2 / 3}\)
From (2)
\(v \propto \frac{n}{r} \propto \frac{n}{n^{2 / 3}} \Rightarrow v \propto n^{1 / 3}\)
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