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The electric potential between a proton ...

The electric potential between a proton and as electron is given by `V= V_(0) ln (r )/(r_(0))` , where`r_(0)` is a constant . Assuming Bohr's model to be applicable , write variation of `r_(n)` with `n,n` being the principal quantum number ?

A

`r_(n) prop n`

B

`r_(n) prop 1//n`

C

`r_(n) prop n^(2)`

D

`r_(n) prop 1//n^(2)`

Text Solution

Verified by Experts

The correct Answer is:
A, C, D
Given potential energy between electron and proton is
`V_(0) = log ( r)/(r_(0))`
`:. |F| = (d)/(dr) [V_(0) = loge ( r)/(r_(0))] = (V_(0))/(r_(0)) xx (1)/( r)`
But this force acts as centripetal force
`:. (m v^(2))/( r) = (V_(0))/(r r_(0)) implies m v^(2) = (V_(0))/(r_(0))` (i)
By Bohr's postulate `mv r = (nh)/(2 pi)` (ii)
From (i) and (ii),
`(m^(2) v^(2) r^(2))/(m v^(2)) = (n^(2) h^(2) r_(0)^(2))/(4 pi^(2) V_(0)^(2)) implies r^(2) = (n^(2) h^(2) r_(0)^(2))/(4 pi^(2) V_(0)^(2)m)`
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