Magnitude of the electrostatic force

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Homework Help Overview

The problem involves calculating the magnitude of the electrostatic force on one of four identical point charges placed at the corners of a rectangle. The rectangle measures 2.35 m by 3.05 m, and each charge has a value of 26.9 μC.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster expresses confusion about how to begin the problem and the relevance of the rectangle's dimensions. Some participants suggest using Coulomb's Law to determine the forces acting on the chosen charge and recommend establishing a coordinate system to analyze the forces.

Discussion Status

Participants are exploring various aspects of the problem, including the application of Coulomb's Law and the setup of a coordinate system. Guidance has been offered regarding the need to visualize the forces and compute distances using Pythagorean theorem, but there is no explicit consensus on the next steps.

Contextual Notes

The original poster indicates a lack of understanding of how to apply the given dimensions and the law being studied, which may affect their ability to proceed with the problem.

slk011
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Hello,

Any help woould be wonderful!

Identical point charges Q are placed at each of the four corners of a rectangle measuring 2.35 m by 3.05 m. If Q = 26.9 μC, what is the magnitude of the electrostatic force on anyone of the charges?


i don't even know where to start... HELP!
 
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Have you come across Coulomb's Law?F = k\frac{Q_1Q_2}{r^2}
You need to find the forces acting on anyone of the charges. These forces will be from the other 3 charges and because they are identical, the forces acting on your chosen charge will be ones of repulsion.
You will need to set up a suitable coordinate system. This will allow you to deduce the directions of all force contributions.
 
Yes we are learning the law right now. But i am not sure what to do with the "m" given, do i add them all...? I am so lost.
 
Definitely start by drawing a picture and set the origin of your axes at one of the charges. Then draw in all the forces acting on your chosen charge. Using your coordinate system, write vector equations for each force.
The 'r' in Coulomb's Law is the distance between two charges. This 'r' will need to be computed using Pythagoras for the charge diagonally opposite the one you chose.
 

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