800 ideal capacitors are connected in parallel to an ideal voltage source, forming an ideal circuit. The first capacitor has a capacitance of 3.52 μF. If the capacitors are arranged such that every capacitor, starting from the second one, has a capacitance that is 1/3 that of the neighbor- ing capacitor on its left (C2 = C1/6, C3 = C2/6, C4 = C3/6, · · ·), the equivalent capacitance of the parallel connection is most nearly
800 ideal capacitors are connected in parallel to an ideal voltage source, forming an ideal circuit. The first capacitor has a capacitance of 3.52 μF. If the capacitors are arranged such that every capacitor, starting from the second one, has a capacitance that is 1/3 that of the neighbor- ing capacitor on its left (C2 = C1/6, C3 = C2/6, C4 = C3/6, · · ·), the equivalent capacitance of the parallel connection is most nearly
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter20: Electric Potential And Capacitance
Section: Chapter Questions
Problem 47P: According to its design specification, the timer circuit delaying the closing of an elevator door is...
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800 ideal capacitors are connected in parallel to an ideal voltage
source, forming an ideal circuit. The first capacitor has a capacitance of
3.52 μF. If the capacitors are arranged such that every capacitor, starting
from the second one, has a capacitance that is 1/3 that of the neighbor-
ing capacitor on its left (C2 = C1/6, C3 = C2/6, C4 = C3/6, · · ·), the
equivalent capacitance of the parallel connection is most nearly
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