Capacitors , why cant series combination be used in an open circuit?

AI Thread Summary
In an open circuit, series capacitors cannot be combined using the standard formula because the initial charge required for accurate voltage calculations is not determined. While the equivalent capacitance can be calculated using the formula 1/C = 1/C1 + 1/C2, this alone does not provide the correct voltage across the capacitors when the circuit is closed. The initial charge must be recalculated to ensure it aligns with the problem's voltage requirements. For example, the equivalent capacitance may be 1.2μF, but the charge must be correctly computed to avoid discrepancies in voltage. Accurate calculations are essential for proper circuit analysis.
K Dhiraj Bhak
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Capacitors , why can't series combination be used in an open circuit??

they say we cannot apply series combination formula for the capacitors in an open circuit,,,but why?? why can't we find the equivalent capacitance in an open circuit?
 
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what do you mean " in an open circuit "
show us a drawing of what you are referring to

cheers
Dave
 
I refer you to the last part of this reply on that thread..

NascentOxygen said:
Certainly you can combine them. Regardless of all else, if they are in series then it's always true that 1/C = 1/C1 + 1/C2

That gives you the capacitance that behaves equivalently, but you have yet to determine the initial charge it should have so as to lead to identical circuit current & voltage when the switch gets closed.

In short.. You can find the equivalent capacitance BUT you also need to find the correct equivalent charge.

Hint: You cannot just add the two charges together. If you do that the initial voltage will be wrong. The equivalent capacitance it 1.2uF. You calculated the charge to be 660μC so the initial voltage would be 660μC/1.2uF = 550V. That's wrong, it should be 100+180=280V according to the problem statement. Recalculate the correct charge.
 
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