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8.5: Summary
https://eng.libretexts.org/Workbench/Introduction_to_Circuit_Analysis/09%3A_Parallel_RLC_Circuits/9.05%3A_Summary
Unlike the purely resistive case, the equivalent impedance of a group of parallel RLC components will not always be smaller than the smallest resistance or reactance in the group due to cancellations ...Unlike the purely resistive case, the equivalent impedance of a group of parallel RLC components will not always be smaller than the smallest resistance or reactance in the group due to cancellations between the inductance and capacitance. In general, the effective impedance is found by summing the individual conductances and susceptances to find the total admittance of the group, and then taking the reciprocal of this value.
11.5: Summary
https://eng.libretexts.org/Courses/Canada_College/Circuits_and_Devices/11%3A_Parallel_RLC_Circuits/11.05%3A_Summary
Unlike the purely resistive case, the equivalent impedance of a group of parallel RLC components will not always be smaller than the smallest resistance or reactance in the group due to cancellations ...Unlike the purely resistive case, the equivalent impedance of a group of parallel RLC components will not always be smaller than the smallest resistance or reactance in the group due to cancellations between the inductance and capacitance. In general, the effective impedance is found by summing the individual conductances and susceptances to find the total admittance of the group, and then taking the reciprocal of this value.

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