Charge of q5 in Electric Field Map with q4 and q6

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Homework Help Overview

The problem involves determining the charge of q5 in an electric field map that includes charges q4 and q6, both of which are +10 C. The context suggests a focus on the relationships between the charges and the resulting electric field configuration.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants discuss various values for q5 that have been attempted, noting that none have been successful according to the homework software. There is a suggestion to analyze the contributions to the electric field and ensure they cancel appropriately. Questions are raised about the implications of the drawing being a "self-consistent scale drawing" and its relation to field lines.

Discussion Status

The discussion is ongoing, with participants exploring different interpretations of the problem and sharing insights about the electric field and charge relationships. Some guidance has been offered regarding the analysis of field contributions, but no consensus has been reached on the correct charge for q5.

Contextual Notes

Participants note the constraints of the problem, including the requirement for a self-consistent scale drawing and the implications of field line representation. There is also mention of the online homework software's feedback on attempted values for q5.

END
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Homework Statement


The electric field map is shown below. (Take it to be a self-consistent scale drawing at a particular moment in time.)

triple%20charge%20field%20map.jpg

where [itex]\mathrm{q}_4 = +10 C, \mathrm{q}_6 = +10 C[/itex]

What is the charge of [itex]\mathrm{q}_5[/itex] ?

Homework Equations

The Attempt at a Solution



I've tried the following values for [itex]\mathrm{q}_5[/itex]:

$$-5,-10,-15,-20$$

and none of them are correct according to the online homework software. How would I find the charge of [itex]\mathrm{q}_5[/itex]?

Thank you,
 
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It looks as if halfway q4 and q5 the field is parallel to the axis at small distances x from the axis.
Write down the three contributions ##\perp## to the axis and make sure they cancel to first order in x.

And I wonder if three seemingly random shots at the answer counts as an attempt at solution :)
(If you have unlimited tries, step from -10 to -20 in very small steps ! ;) )
 
What do you suppose it means that the drawing is "a self-consistent scale drawing"? What will that mean with regard to the field lines?

It's not too often that a physics problem can be solved by a Sesame Street character. "Ten! Ten field lines! Heh! Heh! Heh!"
 
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Likes   Reactions: BvU
I love it! Wish I had thought of that ... :D
 
Thank you for your replies!

You were right; each field line represents an equal fraction of the original charge. The answer came out to around $$-7.1 \mathrm{C}$$.
 
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