First Bohr Radius - Quantum and Atomic Model

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PeachBanana
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Homework Statement



Suppose an electron was bound to a proton, as in the hydrogen atom, but by the gravitational force rather than by the electric force. What would be the radius of the first Bohr orbit?

Homework Equations



r = h^2 / 4∏^2*mke^2

The Attempt at a Solution



I'm not sure how to manipulate the above equation to account for gravitational force. Should I start by looking at that fact

F = ma
kZe^2/r^2 = mv^2/r
 
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Replace the electric force by the gravitational one. What is the force of gravity between two masses? (It is the mass of the proton and the mass of the electron now).

ehild
 
Ah, so F = km1m2/r^2 ?

Which means...

F = ma
km1m2/r^2 = mv^2/r
 
r = Gmm/mv^2

The question I now have is which mass will cancel as I have a mass in the numerator and denominator...
 
The electrons orbit around the protons so does this mean the electron mass will cancel out?
 
PeachBanana said:
The electrons orbit around the protons so does this mean the electron mass will cancel out?

It needs the centripetal force, so the term mv^2/r refers to the
electron.


ehild