Concept explainers
A 2.0-
(a)
The final charges on the capacitors when the
Answer to Problem 58SP
Solution:
Explanation of Solution
Given data:
The
Formula used:
Write the expression for equivalent capacitance when the capacitors are connected in parallel:
Here,
Write the expression for total charge when capacitors are connected in parallel:
Here,
Write the expression for charge on capacitor:
Here,
Explanation:
Recall expression for charge on capacitor 1:
Here,
Substitute
Again, recall expression for charge on capacitor 2:
Here,
Substitute
Recall the expression for equivalent capacitance when capacitors are connected in parallel:
Here,
Substitute
Recall the expression for total charge when capacitors are connected in parallel:
Here,
Substitute
When the capacitors are joined in parallel, the voltage acrosseach capacitor is equal.
Recall the expression for charge on the system of capacitors in parallel:
Here,
Substitute
Solve for
Recall the expression for charge on capacitor 1 when the connection is parallel:
Substitute
Recall the expression for charge on capacitor 2 when the connection is parallel:
Substitute
Conclusion:
The final charges on the capacitors are
(b)
The potential difference across each capacitor when the
Answer to Problem 58SP
Solution:
Explanation of Solution
Given data:
The
Formula used:
Explanation:
Recall that the voltage across system of capacitors when capacitors are connected in parallel combination from subpart (a):
From Fig 1, infer that when the capacitors are connected in parallel, the voltage across each capacitor is equal.
So, the voltage across each capacitor is same and equal to the voltage across the system of capacitors connected in parallel.
The potential difference across each capacitor is approximated as
Conclusion:
The potential difference across each capacitor is
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Chapter 25 Solutions
Schaum's Outline of College Physics, Twelfth Edition (Schaum's Outlines)
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