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When capacitors are connected in parallel, the total capacitance is the sum of the individual capacitors’ capacitances. If two or more capacitors are connected in parallel, the overall effect is that of a single equivalent capacitor having the sum total of the plate areas of the individual capacitors.
In a parallel connected capacitor circuit, the overall capacitance (CT) is higher than the value of the biggest capacitor as the capacitances are added together.
All the capacitors which are connected in parallel have the same voltage and is equal to the VT applied between the input and output terminals of the circuit. The equivalent capacitance, Ceq of the circuit where the capacitors are connected in parallel is equal to the sum of all the individual capacitance of the capacitors added together.
When 4, 5, 6 or even more capacitors are connected together the total capacitance of the circuit CT would still be the sum of all the individual capacitors added together and as we know now, the total capacitance of a parallel circuit is always greater than the highest value capacitor.
which means that the equivalent capacitance of the parallel connection of capacitors is equal to the sum of the individual capacitances. This result is intuitive as well - the capacitors in parallel can be regarded as a single capacitor whose plate area is equal to the sum of plate areas of individual capacitors.
For capacitors connected in parallel, the voltage, (V), is shared. To find the total capacitance (CT), you can add the individual capacitances by dividing each side of the capacitance formula by the voltage going out of the capacitors and then adding the results together.
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