Force question using Couloumb's law

  • Thread starter Thread starter J89
  • Start date Start date
  • Tags Tags
    Force Law
J89
Messages
29
Reaction score
0

Homework Statement



A charged particle A exerts a force of 2.67 μN to the right on charged particle B when the particles are 13.9 mm apart. Particle B moves straight away from A to make the distance between them 18.6 mm. What vector force does particle B then exert on A?




Homework Equations



F = Ke*|q1||q2|/r^2, Ke=8.99*10^9



The Attempt at a Solution


I assumed that q1 = 2.67 microNewtons, and had an idea that we need to solve for for q2..I think, so I just took the equation and set Ke=|q1||q2|/r^2 and solved for q2. I got 1.34 for an answer..don't know if that is even right..can someone clarify?
 
Physics news on Phys.org
What does each of the variables in Coulomb's law mean?
F = ?
Ke = a constant
q1 = ?
q2 = ?
r = ?
You need to figure that out before you can hope to use the equation properly.
 
F = force
Ke=Couloumb's constant = 8.99*10^9
r=distance in meters
q1 and q2 stands for the charge..
 
Right. Since q1 is a charge, the value you plug in for it has to have units of charge.

Now, what kind of quantity does the problem ask you to find?
 
It's asking to find vector force that particle A exerts on B..so just to get a head start, I assume you would just plug it into the formula...

F = Ke |q1|/r^2

when it is rearranged, I assume you would multiply the charge by the original length and divide by the new length when it was expanded..

=2.67*(.0139)^2/(.0186)^2...right?
 
Last edited:
J89 said:
It's asking to find vector force that particle A exerts on B..so just to get a head start, I assume you would just plug it into the formula...

F = Ke |q1|/r^2

when it is rearranged, I assume you would multiply the charge by the original length and divide by the new length when it was expanded..

=2.67*(.0139)^2/(.0186)^2...right?
You have the right method but you are not explaining it very well. You seem to be confusing charge with force. What units will your answer be in?

You don't need to know the value for the charges at all. All you need to do is write out the expression for the force in both scenarios. Then solve for unknown second force.

AM
 

Thread 'Initial conditions for orbits around a wormhole'

Hi, I had an exam and I completely messed up a problem. Especially one part which was necessary for the rest of the problem. Basically, I have a wormhole metric: $$(ds)^2 = -(dt)^2 + (dr)^2 + (r^2 + b^2)( (d\theta)^2 + sin^2 \theta (d\phi)^2 )$$ Where ##b=1## with an orbit only in the equatorial plane. We also know from the question that the orbit must satisfy this relationship: $$\varepsilon = \frac{1}{2} (\frac{dr}{d\tau})^2 + V_{eff}(r)$$ Ultimately, I was tasked to find the initial...
View full post »

Thread 'Help to convert units of a simple formula'

The value of H equals ## 10^{3}## in natural units, According to : https://en.wikipedia.org/wiki/Natural_units, ## t \sim 10^{-21} sec = 10^{21} Hz ##, and since ## \text{GeV} \sim 10^{24} \text{Hz } ##, ## GeV \sim 10^{24} \times 10^{-21} = 10^3 ## in natural units. So is this conversion correct? Also in the above formula, can I convert H to that natural units , since it’s a constant, while keeping k in Hz ?
View full post »

Similar threads

I Does Coulomb’s law change at relativistic speeds?
Replies
17
Views
2K
Calculating Force between Reduced Charges using Coulomb's Law
Replies
2
Views
2K
I Coulomb's law taken to the extreme
Replies
44
Views
2K
Finding the position of a middle charge to have Zero Net Force
Replies
9
Views
2K
Calculate electric force using Coulomb's law (vector components are the struggle)
Replies
3
Views
1K
Dependence of Coulomb's law on the medium
Replies
8
Views
3K
How to find distance between 2 charges, with no force given?
Replies
2
Views
2K
Electric field in electrostatic situation
Replies
5
Views
3K
Proof of Gauss's law, starting from Coulomb's Law?
Replies
4
Views
5K
Electric Field/Centripital Force/Gauss law question?
Replies
2
Views
7K

Hot Threads

Recent Insights

Back
Top