Y-component of Electrostatic Force

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SUMMARY

The discussion focuses on calculating the Y-component of the electrostatic force between two charges using 2-D Coulomb's law. The source charge is 1 x 10^-12 C and the probe charge is -1 x 10^-13 C, with a distance of 10mm between them. The software MAXWELL provided results indicating a Y-component of 3.1E-16, which raises confusion since both charges lie on the x-axis, suggesting the Y-component should be zero. The consensus is that the Y-component result may be a numerical artifact due to computational limitations.

PREREQUISITES
  • Understanding of 2-D Coulomb's law
  • Familiarity with electrostatic force calculations
  • Basic knowledge of charge properties and units (Coulombs)
  • Experience with simulation software like MAXWELL
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  • Research the limitations of numerical simulations in electrostatics
  • Learn about error analysis in computational physics
  • Explore MATLAB for simulating electrostatic forces
  • Study the implications of charge positioning on force components
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Students in electrical engineering, physicists working with electrostatics, and anyone involved in computational simulations of electric forces.

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Homework Statement


Calculate the X, Y, and magnitude force between the two charges. Compare to the computer simulation results.

Homework Equations


Do not forget that this is a 2-D problem. Use the 2-D Coulomb’s law for line charges.

The Attempt at a Solution


Basically we used a software called MAXWELL to plot 2 charges, 1 source and 1 probe charge. The source had a charge of 1 x 10^-12 C and probe -1 x 10^-13 C. The source charge had a radius of 5mm, while the probe had a radius of 0.5mm and the distance between them (Centre to centre) is 10mm. Both charges lie on the x-axis.

The software gave the following results,
Fx = -1.8E-13
Fy= 3.1E-16
Fmag =1.8E-13
Angle=180


I do know how to calculate the x-component, however I am confused on the y component. If both charges lie on the x-axis, wouldn't there only be an x-component of Force? How would I go about calculating it?

Thanks
 
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Tired and probably wrong...

Well, I'm very tired at the moment (late night doing EE homework!) but offhand I would say you are correct, if both charges lie on the x-axis, the y component should be zero. It is possible that the result from your computer simulation is a "virtual" zero, i.e. errors in the calculation introduced from using a finite number of bits in base 2 means that the answer is not EXACTLY zero, but is extremely close... remember that your y-component that you found is 1/1000th of the X component (approx.) You can see this in MATLAB quite often as well, when an answer of say 1E-60 is considered a 0 in many situations. Sorry if I am totally off base here!

Regards,
Tristan Jones
 

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