Q1: Consider a parallel plate capacitor with plate area of 1 cm², plate separation of 1 mm with SiO2 as dielectric insulator in between the parallel plates. We apply 1 V DC voltage to this capacitor....


Q1: Consider a parallel plate capacitor with plate area of 1 cm², plate<br>separation of 1 mm with SiO2 as dielectric insulator in between the parallel<br>plates. We apply 1 V DC voltage to this capacitor.<br>A) Find the electric field across the insulator.<br>B) Find the capacitance of this capacitor.<br>C) Find the charge accumulated on each of the plates of this capacitor.<br>D) Find the number of electrons on each of the plates of this capacitor.<br>E) Find the energy stored in this capacitor.<br>F) Find the voltage needed to increase the energy stored in this capacitor by a<br>factor of 100.<br>

Extracted text: Q1: Consider a parallel plate capacitor with plate area of 1 cm², plate separation of 1 mm with SiO2 as dielectric insulator in between the parallel plates. We apply 1 V DC voltage to this capacitor. A) Find the electric field across the insulator. B) Find the capacitance of this capacitor. C) Find the charge accumulated on each of the plates of this capacitor. D) Find the number of electrons on each of the plates of this capacitor. E) Find the energy stored in this capacitor. F) Find the voltage needed to increase the energy stored in this capacitor by a factor of 100.

Jun 11, 2022
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