Two capacitors, c, = 6.00 µF and C, = 9.0 µF, are connected in parallel, and the resulting combination is connected to a 9.00-V battery. (a) Find the equivalent capacitance of the combination. 1.5e-5 Connecting capacitors in parallel effectively combines the areas of their plates. Can the equivalent capacitance be less than the capacitance of either plate by itself? µF (b) Find the potential difference across each capacitor. V1 = V2 = (c) Find the charge stored on each capacitor. = 5.4e-5 Q1 What is the relationship between the charge on a capacitor and the potential difference across that capacitor? µC Q2

Principles of Physics: A Calculus-Based Text
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Chapter20: Electric Potential And Capacitance
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Two capacitors, C, = 6.00 µF and C, = 9.0 µF, are connected in parallel, and the resulting combination is connected to a 9.00-V battery.
%3D
(a) Find the equivalent capacitance of the combination.
1.5e-5
Connecting capacitors in parallel effectively combines the areas of their plates. Can the equivalent capacitance be less than the capacitance of either plate by itself? µF
(b) Find the potential difference across each capacitor.
V1=
V
V2
V
(c) Find the charge stored on each capacitor.
= 5.4e-5
What is the relationship between the charge on a capacitor and the potential difference across that capacitor? µC
Q1
Q2
με
Transcribed Image Text:Two capacitors, C, = 6.00 µF and C, = 9.0 µF, are connected in parallel, and the resulting combination is connected to a 9.00-V battery. %3D (a) Find the equivalent capacitance of the combination. 1.5e-5 Connecting capacitors in parallel effectively combines the areas of their plates. Can the equivalent capacitance be less than the capacitance of either plate by itself? µF (b) Find the potential difference across each capacitor. V1= V V2 V (c) Find the charge stored on each capacitor. = 5.4e-5 What is the relationship between the charge on a capacitor and the potential difference across that capacitor? µC Q1 Q2 με
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