Y's Work on a Test Charge: Calculating Work Done in an Electric Field

AI Thread Summary
The discussion focuses on calculating the work done on a test charge in an electric field, specifically relating to questions 9 and 10 from a homework assignment. The electric field was calculated to be 5.4 x 10^6 N/c using the formula E = K(Q/r^2). The work done on the charge was initially calculated as -2.025 J, indicating that the work is done against the electric field. After clarification, the correct calculation for work was confirmed to be 2.025 J, as it accounts for moving the charge from a lower to a higher potential. The final formula reflects this understanding, affirming the positive work done in the process.
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Homework Statement


I am looking at quation 10 but it relates to question 9
http://137.186.166.185:8080/question.gif

Homework Equations



In question 9 I calculated the electric field to be 5.4 X10^6 N/c.
I did this by using the equation E = K(Q/r^2)


The Attempt at a Solution



I would assume that I would use this equation for question 10
W = PE2 - PE1 = -qEd

therfore

W = -(1.5x10^-6 C)(5.4 x 10^6 N/c)(0.25m)
W= -2.025 J

The sign is negative because the work is in the opposite direction of the electrical field.

This seems to be too simple. Am I missing something?

Thanks for the help
 
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Youre moving a positive test charge from lower potential to higher potential, so the work done on the charge is potential energy at D - potential energy at B. What does that say about the sign?
 
I think I got it

Thats right, so my final fomula should be:
W = (1.5x10^-6 c)(5.4 X10^6 N/c)(0.25m) - (1.5x10^-6 c)(0)(0.25m)
W = 2.025 J

Thank you for your help

RG
 

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