Electrostatic force using vectors

AI Thread Summary
The discussion revolves around calculating the electrostatic force between two charges, A and B, using vector notation. The user is confused about how to express the force in vector form and how to derive the unit vector from the position vectors of the charges. Clarification is provided that the unit vector "r^" indicates the direction of the force, and the force can be expressed in components as F=Fxi+Fyj+Fzk. The conversation emphasizes understanding the relationship between forces exerted by the charges, highlighting Newton's Third Law, which states that the forces are equal in magnitude and opposite in direction. The user gains clarity on the concepts and appreciates the explanations provided.
pcleary
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Homework Statement



Charge A is +2C and is located at <4,0,0>
Charge B is +12.5C and is located at <0,-3,0>

What is the the Force(AonB)
What is the magnitude of F(AonB)

Homework Equations



F = (k)(Qa)(Qb)/(r^2) (r^)

For reference the answers are

< -0.8k, 0.6k, 0 > N (F vector)

and

1k N (magnitude)


The Attempt at a Solution



So I am confused as to how to solve this problem. I don't know if maybe it is worded strangely or what but I am not getting those answers.

I did a lot of these problems but not with vectors. How do you apply the answer you get into a vector. The equation is given as r(hat) after the regular F equation. Does this mean I distribute my answer into i+j+k? I am assuming the answer to that is no because that makes no sense mathematically.

This is not a homework problem it is a practice problem. I am trying to learn physics and would really appreciate if someone could explain how you apply your F into vector notation and how this particular problem can be solved so I can learn. I am sure it is something simple that I am just not getting and my teacher didn't explain properly (in class we never did any with vectors).
 
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pcleary said:

Homework Statement



Charge A is +2C and is located at <4,0,0>
Charge B is +12.5C and is located at <0,-3,0>

What is the the Force(AonB)
What is the magnitude of F(AonB)

Homework Equations



F = (k)(Qa)(Qb)/(r^2) (r^)

For reference the answers are

< -0.8k, 0.6k, 0 > N (F vector)

and

1k N (magnitude)


The Attempt at a Solution



So I am confused as to how to solve this problem. I don't know if maybe it is worded strangely or what but I am not getting those answers.

I did a lot of these problems but not with vectors. How do you apply the answer you get into a vector. The equation is given as r(hat) after the regular F equation. Does this mean I distribute my answer into i+j+k? I am assuming the answer to that is no because that makes no sense mathematically.

Yes, you need to write up the force in x,y,z components F=Fxi+Fyj+Fzk, or <Fx,Fy,Fz>

pcleary said:
This is not a homework problem it is a practice problem. I am trying to learn physics and would really appreciate if someone could explain how you apply your F into vector notation and how this particular problem can be solved so I can learn. I am sure it is something simple that I am just not getting and my teacher didn't explain properly (in class we never did any with vectors).

The vector "r^" is the unit vector pointing from A to B when you want the force exerted by charge at A to the charge at B. The vector pointing to B from A is the difference of the position vectors r=rB-rA=<0,-3,0>-<4,0,0> (or rB-rA=-3j-4i). You need to divide this vector with its magnitude to get the unit vector r^. "r" means the magnitude of the vector r.



ehild
 
Ah that makes a lot more sense now. So the reason I am finding the unit vector is I need a vector that is pointing in the same direction as the Force caused by these two charges.

Whenever I see r hat from now on that is referring to the unit vector, correct?

Problem worked out perfectly after that. I really appreciate the help.

Also just for clarification. If the question had asked for the F (BonA) or F_BA it then the difference would be the unit vector being composed from A - B or <4,-3,0> and of course the magnitude would be the same (5).

So the F_BA would have been <4/5 ke, -3/5 ke, 0>
Could you explain why that is the case? As in why would two positive charges cause one to go in the positive X (AonB) and the other in the negative X (BonA) direction? And why are would both have the same Y component? I just want to get a better understanding of what I am doing. I hate to memorize formulas and plug things in I would rather understand the concept.

Once again thank you very much for the explanation I truly appreciate it.
 
Last edited:
pcleary said:
If the question had asked for the F (BonA) or F_BA it then the difference would be the unit vector being composed from A - B

Correct.

or <4,-3,0>

Check your arithmetic. :smile:

As a reality check, remember Newton's Third Law of Motion. The force that B exerts on A must be equal in magnitude and opposite in direction to the force that A exerts on B.
 
Ah you're right. Thank you it all makes sense now! I really appreciate both of your help.
 

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