Capacitance by solving Poisson equation

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Lalson Vincent on 7 Feb 2020

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Commented: Thsmia Kausser on 25 Mar 2024 at 8:59

Hi ,

I want to find the capacitance by solving the Poisson equation. I solved the voltage potential and was able to plot the voltage potential. I want to find the electric potential and energy from from the voltage

First i have to find electric potential which is gradient of voltage.

Then i have to find the energy Energy = integral(1/2 * Epsilon * E^2) over volume.

Can you help me find the gradient of voltage and then the energy ?

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Thsmia Kausser on 25 Mar 2024 at 8:59

Did you get any solution ?

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Ravi Kumar on 7 Feb 2020

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If you setup the problem using PDE Toolbox, look here for example, then you get the gradients of the solution in the results.

Regards,

Ravi

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Ravi Kumar on 12 Feb 2020

I don't have good suggestion without knowing what is the required solution. My guess is that you might be encountering under resolved results, try increasing mesh density.

Regards,

Ravi

Lalson Vincent on 13 Feb 2020

Required solution is the capacitance of the system with the applied voltage.

Energy = integral (1/2 * Epsilon * E^2) dV = 1/2 * C * V^2

Capacitance = Energy / (1/2 * V^2).

Tried with finer mesh. Looks like, trapz is not the correct method. Is there any way to integrate this ?

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