Derive an expression for the radius of n...

Derive an expression for the radius of `n^(th)` Bohr’s orbit in Hydrogen atom.

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The radius of 5^(@) Bohr orbit in hydrogen atom is

`5r_(0)`

`(r_(0)) /( 5)`

` 25r_(0)`

`(r_(0))/(25)`

The radius of second Bohr’s orbit of Hydrogen atom is:

0.053 nm

`(0.053)/(4)nm`

`0.053 xx4nm`

`0.053 xx20nm`

The radius of 2nd Bohr.s orbit of hydrogen atom is :

0.053 nm

0.106 nm

0.2116 nm

0.4256 nm

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A particle of charge equal to that of an electron and mass 208 times the mass of the electron moves in a circular orbit around a nucleus of charge +3e . Assuming that the Bohr model of the atom is applicable to this system, (a) derive an expression for the radius of the n^(th) bohr orbit, (b) find the value of n for which the radius of the orbit is approximately the same as that of the first Bohr orbit for the hydrogen atom, and (c ) find the wavelength of the radiation emitted when the revolving particle jumps from the third orbit to the first.

Obtain an expression for the radius of a Bohr orbit for an H-atom.

Obtain an expression for the radius of Bohr orbit for H atom.

The radius of 2nd Bohr.s orbit of hydrogen atom is :

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Derive an expression for the radius of `n^(th)` Bohr’s orbit in Hydrogen atom.

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The radius of 5^(@) Bohr orbit in hydrogen atom is

The radius of second Bohr’s orbit of Hydrogen atom is:

The radius of 2nd Bohr.s orbit of hydrogen atom is :

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