Distance between 2 charged protons (i'm desperate)

AI Thread Summary
The discussion centers on calculating the distance between two protons repelling each other with a force of 1.0 mN using Coulomb's Law. The initial calculation yielded a distance of 4.8 x 10^-13 m, which was questioned against an answer key stating 1.5 x 10^-11 m. Participants confirmed the calculation was correct, attributing the discrepancy to confusion over the unit "mN," which stands for milli-Newtons (10^-3), not micro-Newtons (10^-6). Clarification was provided that the correct interpretation of mN leads to the accurate distance calculation. The conversation highlights the importance of understanding unit prefixes in physics problems.
bbhh
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I'm sure this is so easy and just 1 step. I can do questions like this, I just don't understand, this theory one, or whatever it is.

Homework Statement


How far apart are two protons if they repel each other with a force of 1.0 mN?

Homework Equations


F=k * Q1Q2/r^2

k=9.00*10^9
e=1.6*10^-19

The Attempt at a Solution


F=k * Q1Q2/r^2
.001N = 9*10^9 * 1.6*10^-19 * 1.6*10^-19/ r^2
.001 = 2.304 *10^28/r^2
r^2= 2.304*10^28/.001

r= 4.8 * 10^-13 m.***the answer key says: 1.5 x 10-11 m.

please if you could help me quick it would be amazing.
 
Last edited:
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Your calculation is correct.
 
sorry i think i was confusing. i got 4.8 * 10^-13 m. the answer key says 1.5*10^-11. are you telling me the answer key is wrong?
 
bbhh said:
I'm sure this is so easy and just 1 step. I can do questions like this, I just don't understand, this theory one, or whatever it is.

Homework Statement


How far apart are two protons if they repel each other with a force of 1.0 mN?

Homework Equations


F=k * Q1Q2/r^2

k=9.00*10^9
e=1.6*10^-19

The Attempt at a Solution


F=k * Q1Q2/r^2
.001N = 9*10^9 * 1.6*10^-19 * 1.6*10^-19/ r^2
.001 = 2.304 *10^28/r^2
r^2= 2.304*10^28/.001
r= 4.8 * 10^-13 m.

the correct answer is: 1.5 x 10-11 m.

please if you could help me quick it would be amazing.

I think your approach and solution looks correct to me; I got the same answer. You correctly applied coulomb's Law for this case since the two protons exert an electrocstatic force on each other. Perhaps the book answer could be wrong;
 
i'm doubting the answer key is wrong. there was another question that was similar in the studies (this is the review), that i also couldn't get.
 
If mN = milli-Newtons(10^-3) then you are correct in your answer of 4.8*10^-13 m.

If mN = micro-Newtons (10^-6) then you get 1.5*10^-11 m
 
aahhhh.. thanks, i wasn't sure about mN and i googled it and that's what it said.
 
bbhh said:
aahhhh.. thanks, i wasn't sure about mN and i googled it and that's what it said.

That's because m is the standard prefix for milli- (10^-3). The micro- (10^-6) prefix is usually represented with a \mu.
 

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