Coulomb's Law in Two Dimensions

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Homework Help Overview

The discussion revolves around a problem involving Coulomb's Law in a two-dimensional context, specifically focusing on the net force acting on a charge in a plane due to other charges. Participants are exploring the necessary steps to analyze the forces involved and how to apply vector resolution techniques.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the need to resolve vectors into x and y components and the application of the principle of superposition. There are inquiries about finding specific variables and understanding the relationship between forces and angles in the context of the problem.

Discussion Status

The discussion is ongoing, with participants offering guidance on vector resolution and the principle of superposition. There is an acknowledgment of the need for further clarification on how to apply these concepts to the specific problem at hand.

Contextual Notes

Participants note the absence of examples in their textbooks that address similar problems, which may be contributing to their uncertainty in applying the concepts discussed.

hsadiq98
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Homework Statement


Three charges, q1, q2, and q3, lie in a plane, as shown below. Find the net force on charge q2 (please refer to attachment for diagram)

Homework Equations


F= k x q1q2/R^2, knowledge of trig functions and separating x and y components

The Attempt at a Solution


So I found the hypotenuse for the triangle but how do I find the other variables? There aren't any examples in my book to deal with these type pf questions. Any explanations would greatly help me understand the concept and how to solve these type of questions as I am sure they'll show up in my final. Thank you.
 

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Do you know how to resolve a vector into x and y components?
 
Chestermiller said:
Do you know how to resolve a vector into x and y components?
A little bit, yes
 
Use the principle of superposition. Also, review how to resolve vectors into components, since you will be using it a lot in the study of electrostatics and other areas of physics.
 
hsadiq98 said:
A little bit, yes
So if you knew the magnitude of the force of q1 acting on q2 and the angle that this force makes with the x axis, you could determine the x and y components of this force, correct?
 

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