Ratio of Electric Force to Gravitational force

AI Thread Summary
The discussion centers on calculating the ratio of electric force to gravitational force between two protons. The relevant equations are provided, with the electric force represented as F_e and gravitational force as F_g. An initial calculation yielded a ratio of 1.3E28, which was deemed incorrect, prompting a review of the input values and their squares. After correcting for the squaring of masses and charges, a new ratio of approximately 1.2355E36 was obtained, leading to disagreement with the assertion that this result is wrong. The conversation emphasizes the significant difference in strength between electric and gravitational forces at the subatomic level.
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Homework Statement


It is known that the electric force of repulsion between two protons is much stronger than their gravitational attraction. For two protons a distance R apart, calculate the ratio of the magnitude of the repulsion to that of the attraction.

Homework Equations


F_{g}=\frac{Gm_{1}m_{2}}{r^2}
F_{e}=\frac{Kq_{1}q_{2}}{r^2}

The Attempt at a Solution


So the ratio \frac{F_{e}}{F_{g}} =\frac{Kq^2}{Gm^2}
I get 1.3E28 which is wrong. Why?
 
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The equation is right. Hard to tell where you are going wrong with putting the numbers in.
 
K=9.0E9
G=6.67E-11
Mass of proton aprox. 1.672E-27
Charge of a proton 1.602E-19
Right?
 
Fine. But looking at your number, I think you are forgetting to square the masses and charges.
 
ok, i get 1.2E36 with 2 sig figs and still wrong.
 
I get 1.2355E36. So I disagree with who or whatever is telling you it's wrong.
 

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