Electric circuits Last updated Mar 3, 2020 Page ID33430 Save as PDF UBC-DYN-17-078.pg AC steady-state analysis AC steady-state analysisAnalysis techniquesBasic analysis using Kirchhoff's lawsImpedance and admittanceSinusoidsAdditional analysis techniquesIntroductionMaximum power transferMisc.SuperpositionThevenin's and Norton's theoremsBasic components and electric circuitsUnits and scalesBasic conceptsCircuit elementsSystem of unitsCapacitance and inductanceCapacitorsCapacitor and inductor combinationsInductorsMagnetically coupled networksMutual inductanceThe ideal transformerMisc.Misc.Nodal and loop analysis techniquesLoop analysisNodal analysisOperational amplifiersFundamental op-amp circuitsPolyphase circuitsResistive circuitsCircuits with dependent sourcesCircuits with series-parallel resistor combinationsKirchhoff's lawOhm's lawSeries and parallel resistor combinationsSingle-loop circuitsSingle-node-pair circuitsWye-delta transformationsShow allSteady-state power analysisAverage powerComplex powerEffective or rms valuesMaximum average power transferThe power factorVoltage and current lawsThe single-loop circuit