1. (a) How many 1.00-µF capacitors connected in parallel would it take to store a total charge of 1.00 mC if the potenti

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1 A How Many 1 00 Uf Capacitors Connected In Parallel Would It Take To Store A Total Charge Of 1 00 Mc If The Potenti 1 (51 KiB) Viewed 11 times

1. (a) How many 1.00-µF capacitors connected in parallel would it take to store a total charge of 1.00 mC if the potential difference across each capacitor is 10.0 V? Diagram the parallel combination. (b) What would be the potential difference across this parallel combination? (c) If the capacitors in Part (a) are discharged, connected in series, and then energized until the potential difference across each is equal to 10.0 V, find the charge on each capacitor and the potential difference across the connection. 2. Determine the electric field due to the following potentials: (a) V = x² + 2y² + 4z² (b) V = sin(x² + y² + z²) ¹/2