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In the Bohr model of hydrogen atom, the ...

In the Bohr model of hydrogen atom, the electron is treated as a particle going in a circle with the centre at the proton. The proton itself is assumed to be fiex in an inertial frame. The centripetal force is provided byi the Coloumb attraction. In the ground state, the electron goes round the proton in a circle of radius `5.3xx10^-11m`. Find the speed of the electron in the ground state. Mass of the electron `=9.1xx10^-31 kg ` and charge of the electron `= 1.6xx10^-19C`.

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The correct Answer is:
A, B
Electron revolves around the proton in a circle having proton at the centre.
Centripetal force is provided by coulomb attraction.
r=5.3xx10^-11mm`,
`m=mas of electron
=9.1xx10^-31`kg
Charge of electron `=1.6xx10^-19c`
From `((mv^2)/r)=kq^2/r^2`
`v^2=(kq^2)/(rm)`
`=(9xx10^0xx1.6xx1.6xx10^-38)/(5.3xx10^-11xx9.1xx10^-31)`
`=23.04/48.23xx10^13`
`=0.477xx10613=4.77xx10^13=4.7xx10^12`
`rarr v=sqrt4.7xx10^12`
`=2.2xx10^6 m/sec`
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