What Is the Sign of the Potential Difference Near a Negatively Charged Plate?

AI Thread Summary
The discussion centers on determining the sign of the potential difference near a negatively charged plate. A participant initially concludes that the potential difference is negative for a positive particle and positive for a negative particle, but the correct answer is simply negative. The conversation explores the relationship between electric fields and potential difference, emphasizing that the electric field around a negatively charged plate points inward. Participants express confusion about the concepts, particularly regarding how electric potential relates to the electric field. The thread highlights the challenges faced by students in understanding these physics principles without adequate support from their instructor.
jtb93
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Homework Statement


A particle begins in a region where positive and negative charges are uniformly distributed and ends up in a region near a negatively charged plate. What is the sign of the potential difference in this case?

Homework Equations


N/A

The Attempt at a Solution


I assumed this problem followed "like repels like." I concluded that the potential difference would be negative for a positive particle and positive for a negative particle. The answer in the book says the answer is just negative.
 
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Hi jtb93,

If the electrode is negatively charged, what does the e-field around the electrode look like? How is potential difference related to the e-field?
Also, you certainly do have equations relevant to this situation. What might they be?
 
Thanks for the response on my question. I'm honestly lost in physics right now and my professor is of no help. My course is online and the professor has little to no office hours per week.

In the question you responded to, I assume that a negatively charged particle would move towards a positively charged plate, but that does not reflect what is stated in the answer (negative).
 
jtb93 said:
In the question you responded to, I assume that a negatively charged particle would move towards a positively charged plate, but that does not reflect what is stated in the answer (negative).

Well, we can always make a few assumptions and see what happens. However, before we do that, can you answer the questions in my previous post?
 
The electric field would be directed towards electron.
PE=qV?
 
jtb93 said:
The electric field would be directed towards electron.

Okay. And how is electric potential related to the e-field? What is the electric potential near to this electrode compared to far away?

jtb93 said:
deltaV=deltaPE/q?

Well, we don't appear to be working with potential energy in this problem, so do you know another equation? Perhaps one that links electric potential to the e-field or to a charged particle?
Note that you can click the symbol that looks like ∑ in the toolbar above the chat box to bring up a list of symbols. In there you can find Delta (Δ) third in the list.
 
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