Electricity and magnetism confusion

AI Thread Summary
The discussion revolves around a homework assignment requiring the plotting of electric field strength (E) against the square of the distance (r^2) from a point charge, using provided voltage (V) data. The key equation for electric field strength is derived from the relationship E = -dV/dr, which can be calculated using differences in voltage and distance. Participants emphasize the importance of expressing electric potential (U) and electric field (E) in terms of the point charge, allowing for a simplified expression involving only V and r. Clarifications on units are made, noting that electric field strengths are measured in V/m or N/C, not Teslas. The conversation concludes with a positive acknowledgment of the guidance received.
Dongorgon
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Homework Statement


I've been set an assignment and I'm struggling with one question in particular:


Homework Equations



'Use the following data and plot the graphs for a point charge'

'Plot graph of E against r^2. Interpret the graph to describe electric field strength and electric potential.'

The figures provided are r(m)=Distance from a point charge, and, V(V)=Voltage at a distance 'r' from a point charge.

The Attempt at a Solution


More than anything I'm just really stuck how to find E from the figures provided? Any help would be greatly appreciated! Thanks
 
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The filed at r=ri wil be:
E = -dV/dr ≈ -ΔVi/Δri
where ΔV = V(ri+1)-V(ri) and Δri = ri+1-ri
 
I don't see how it would be possible to answer this without knowing what data you are given!
 
Apologies, the date given is as follows:

R(m)=Distance from point charge:

0.0254
0.0508
0.05762
0.1016
0.127
0.1524
0.1778

And corresponding respectively, the V(V)=VOltage at a distance 'r' from a point charge:

236.22
214.57
157.58
108.03
94.48
85.3
73.11
 
You're told that the given data corresponds to potential U at distances r from a point charge. What expressions do you know that correspond to electric potential U and electric field E at distance r from a point charge?
 
Ok, so from equations to give V and E, I've come up with this as a potential solution for the first E value from the first two values of distance and voltage. Is this correct?
E_equation.png
 
No need to plug in numerical values yet; you have a whole table full of values to plot later. Just write the expressions for potential and electric field for a point charge. Solve the potential expression for Q and substitute it into the field expression. That'll leave you with an expression for E involving only V and r. You can plot that since you have a table full of values for V and r.

(as an aside, note that electric field strengths are given in V/m or N/C, not Teslas which are a measure of magnetic field strength)
 
Brilliant, piece of cake. Many thanks to those who have helped!
 

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