A parallel plate capacitor is initially charged. Their plates are circular and with radius R, with a distance d between them. A battery with internal resistance r and EMF ε is then connected to the capacitor and it starts charging. Consider a uniform electric field between the plates. Obtain the vector magnetic field induced as a function of time and distance to the central axis of the capacitor. Note: It's the vector magnectic field, not the field module.
A parallel plate capacitor is initially charged. Their plates are circular and with radius R, with a distance d between them. A battery with internal resistance r and EMF ε is then connected to the capacitor and it starts charging. Consider a uniform electric field between the plates. Obtain the vector magnetic field induced as a function of time and distance to the central axis of the capacitor. Note: It's the vector magnectic field, not the field module.
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A parallel plate capacitor is initially charged. Their plates are circular and with radius R, with a distance d between them. A battery with internal resistance r and EMF ε is then connected to the capacitor and it starts charging. Consider a uniform electric field between the plates.
Obtain the vector magnetic field induced as a function of time and distance to the central axis of the capacitor.
Note: It's the vector magnectic field, not the field module.
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