How Do You Calculate Capacitance for Different Types of Capacitors?

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The discussion centers on calculating the capacitance of a spherical capacitor with given radii and converting the result to picofarads. The initial calculation yields a capacitance of approximately 3.984e-11 F, which is incorrectly converted to 0.3984 pF. Clarification is provided that the correct conversion should yield 39.84 pF instead. Additionally, the participant seeks to determine the plate area for a parallel-plate capacitor with the same capacitance and plate separation. Accurate unit conversion and understanding of capacitance formulas are emphasized throughout the discussion.
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Homework Statement



The plates of a spherical capacitor have radii 30.3 mm and 33.1 mm. (a) Calculate the capacitance in picofarads. (b) What must be the plate area in square centimeters of a parallel-plate capacitor with the same plate separation and capacitance?

Homework Equations


C= 4\Pi\epsilon(ab/b-a) (Spherical Capacitor)
C=\epsilonA/d (Parallel Plate)

The Attempt at a Solution



a)
I am having trouble with the conversion to pF. I know it's 10^-12.
=>C= 4\Pi\epsilon((.0303*.0331)/(.0331-.0303))=3.984e-11 F = .3984 pF ??

b) =>A=Cd/\epsilon = 3.984e-11 F(.0331-.0303)/8.85e-12

Thanks!

 
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mmattson07 said:
3.984e-11 F = .3984 pF ??

You made a mistake in conversion:

<br /> 10^{-11} \, \mathrm{F} = 10^{1 - 12} \, \mathrm{F} = 10^{1} \, 10^{-12} \, \mathrm{F} = 10 \, \mathrm{pF}<br />
 
Still confused...how do I convert then? Is it 3.984e-12 pF??
 
Or 39.84 pF?
 
Last edited:
mmattson07 said:
Or 39.84 pF?

yes.
 
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