The charge on a 3.7 µF capacitor decreases by 73 µC. If the final voltage across the capacitor is 65 V, determine the initial voltage. V = 45.27 V A Part B Two parallel plates each have an area of 30.8 cm?. Between the plates is a dielectric with K = 10. If the charge magnitude on each plate is 8.8 nC, determine the E-field between the plates. E = 322840 Vi/m O Part C A 4.2 µF capacitor with no dielectric has an E-field of 96 kV/mm between the plates. The area of each plate is 33.6 cm?. Determine the voltage across the capacitor. V = 322.56 V
The charge on a 3.7 µF capacitor decreases by 73 µC. If the final voltage across the capacitor is 65 V, determine the initial voltage. V = 45.27 V A Part B Two parallel plates each have an area of 30.8 cm?. Between the plates is a dielectric with K = 10. If the charge magnitude on each plate is 8.8 nC, determine the E-field between the plates. E = 322840 Vi/m O Part C A 4.2 µF capacitor with no dielectric has an E-field of 96 kV/mm between the plates. The area of each plate is 33.6 cm?. Determine the voltage across the capacitor. V = 322.56 V
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:The charge on a 3.7 µF capacitor decreases by 73 µC. If the final voltage across the capacitor is 65 V, determine the initial voltage.
V = 45.27 V
A Part B
Two parallel plates each have an area of 30.8 cm?. Between the plates is a dielectric with K = 10. If the charge magnitude on each plate is 8.8 nC, determine the E-field between the plates.
E = 322840 Vi/m
O Part C
A 4.2 µF capacitor with no dielectric has an E-field of 96 kV/mm between the plates. The area of each plate is 33.6 cm?. Determine the voltage across the capacitor.
V = 322.56 V
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