What is the equation for calculating the electric field and charges?

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Homework Help Overview

The discussion revolves around calculating the electric field and charges, specifically in the context of Coulomb's law. Participants are attempting to understand the implications of electric fields at specific points due to point charges.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants are discussing the calculation of electric fields at point A, considering both vector forms of Coulomb's law and the need for trigonometric calculations for components. There is also a focus on the interactions between fields in different directions and the conditions under which they may cancel out.

Discussion Status

Some guidance has been offered regarding the use of vector forms and the importance of calculating components separately. Participants are exploring different parts of the problem and clarifying which aspects they are addressing, indicating a productive exchange of ideas without reaching a consensus.

Contextual Notes

There is mention of potential confusion regarding which part of the problem is being addressed, as well as the complexity introduced by unequal charges and distances. Participants are also considering the implications of field cancellation in different axes.

johnhunk
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Are you talking about part 1 or 2?
Are you trying to calculate the field at point A?

In that case, are you used to working with the coulomb law in it's vector form? It'll be much easier working in this form, with this formula:
The field E inflicted by a point charge q situated at point A on point B is:
[itex]\vec{E} = \frac{kq}{d^{3}}\vec{AB}[/itex]

where d is the distance between A and B and K is the Coulomb constant.
Writing everything in vector form should be pretty simple.

If you're totally unfamiliar with the vector form, you have no choice but to calculate separately the x and y components of the electrical field at the point A from the two different charges. That would be 4 different calculations involving trigonometry and is pretty tiring.

If you're still stuck you'll get further help, but give it a fair try first.

Btw the x fields might cancel out and might not. You have to calculate it - it isn't trivial, since the charges aren't equal and so aren't the distances between them and point A.

Good luck!
 
i mean part b.
 
According to your solution, there's a field acting both on the y and on the x axes. A charge located at point B would not be able to cancel out the x field, only the y field.

If I read something wrong and there was no x field cause it canceled out, what you said is of course right - you need exactly the same y field in the opposite direction. You know the expression for an electrical field, use it to get q.
 

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