An electric field is generated between the parallel-plate capacitors, in which the plates have radii 2.00[cm], and are separated by a distance of 1.50 [cm]. The space between the plates is solely filled by vacuum. The voltage across the terminals of the capacitor is described by V(t) = +5.00[V]e-(0.450[s¹])t. Now, an imaginary circle of radius 0.800[cm] is to be drawn in between the capacitor plates. Such imaginary circle is concentric to the capacitor plates, and is labeled as loop C. a. What is the magnitude of the displacement current that is enclosed by loop C? b. What is the magnitude of the magnetic field that is present along loop C?

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An electric field is generated between the parallel-plate capacitors, in which the plates have
radii 2.00 [cm], and are separated by a distance of 1.50 [cm]. The space between the plates
is solely filled by vacuum. The voltage across the terminals of the capacitor is described by
V(t) = +5.00[V]e-(0.450[s ¹1). Now, an imaginary circle of radius 0.800[cm] is to be drawn
in between the capacitor plates. Such imaginary circle is concentric to the capacitor plates,
and is labeled as loop C.
a. What is the magnitude of the displacement current that is enclosed by loop C?
b. What is the magnitude of the magnetic field that is present along loop C?
Transcribed Image Text:An electric field is generated between the parallel-plate capacitors, in which the plates have radii 2.00 [cm], and are separated by a distance of 1.50 [cm]. The space between the plates is solely filled by vacuum. The voltage across the terminals of the capacitor is described by V(t) = +5.00[V]e-(0.450[s ¹1). Now, an imaginary circle of radius 0.800[cm] is to be drawn in between the capacitor plates. Such imaginary circle is concentric to the capacitor plates, and is labeled as loop C. a. What is the magnitude of the displacement current that is enclosed by loop C? b. What is the magnitude of the magnetic field that is present along loop C?
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