Calculating Potential Difference in a Uniform Electric Field

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A force of 0.053 N is needed to move a charge of 37 mC a distance of 25 cm in an electric field, leading to a calculated potential difference of 0.358 V. However, the answer sheet states the potential difference is 360 V, raising questions about the charge's unit. The confusion arises from the distinction between 37 mC (37x10^-3 C) and 37 μC (37x10^-6 C), with the latter yielding a result that aligns with the answer sheet. The discussion emphasizes the importance of verifying units and suggests consulting the instructor for clarification on the problem's parameters. Ultimately, the solution provided is deemed correct based on the calculations performed.
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Homework Statement



A force of 0.053 N is required to move a charge of 37 mC a distance of 25 cm in an electric field. What is the size of the potential difference between the two points?

Homework Equations



V_f-V_i=\int \vec{E} \cdot d\vec{S}
E=\frac{F}{q}

The Attempt at a Solution



V_f-V_i=\int \vec{E} \cdot d\vec{S}
\Delta V=Ed
\Delta V=\frac{Fd}{q}
\Delta V=\frac{(.053)(.25)}{37e^-3}= .358 V

However, the answer sheet says 360V. Am I missing something stupid? I assume it's a constant electric field and the particle is being moved along the field lines.
 
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Are you sure it is 37 mC and not 37 μC?

37 mC = 37x10-3 C

37 μC = 37x10-6 C

The second choice gives an answer that is 1000 times the answer of the first choice. Just the factor you need.
 
Yeah. I copied/pasted it directly from the homework sheet. It says "mC" which I took as 10^-3.

So I was on the right track though...
 
The only other thing I can think of is whether you got the units of the answer right. Is it perhaps 360 mV? If it is actually 360 V, my last suggestion is that you ask the person who assigned this problem to you for clarification. I cannot find fault with your solution.
 
I see. Sometimes wrong answers are posted. I have seen physics textbooks with as many as 14% incorrect answers in the back of the book.

Since you are doing this for practice, rest assured that your solution is correct and that you know how to handle this type of problem, so move on.
:approve:
 

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