C₁ = 30 μF C₂ = 40 μF C3 = 60 μF C4 = 20 μF C5 = 10 µF C6 = 15 µF Calculate A) the equivalent capacitance of C₁, C2, and C4 all in series. B) V₂ and Q₂ assuming that Vab = 50 Volts across the entire circuit. Calculate A) the equivalent capacitance of C4, C5, and C6 all in parallel. B) V4 and Q4 assuming that Vab = 50 Volts across the entire circuit. Considering the circuit below, calculate Ceq, V3, Q3, Q6 and V6 assuming that Vab = 72 Volts across the entire circuit.
C₁ = 30 μF C₂ = 40 μF C3 = 60 μF C4 = 20 μF C5 = 10 µF C6 = 15 µF Calculate A) the equivalent capacitance of C₁, C2, and C4 all in series. B) V₂ and Q₂ assuming that Vab = 50 Volts across the entire circuit. Calculate A) the equivalent capacitance of C4, C5, and C6 all in parallel. B) V4 and Q4 assuming that Vab = 50 Volts across the entire circuit. Considering the circuit below, calculate Ceq, V3, Q3, Q6 and V6 assuming that Vab = 72 Volts across the entire circuit.
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Transcribed Image Text:C₁ = 30 μF
C₂ = 40 μF
C3 = 60 μF
C4 = 20 μF C5 = 10 µF C6 = 15 µF
Calculate A) the equivalent capacitance of C₁, C2, and C4 all in series. B) V₂ and Q2 assuming that Vab = 50
Volts across the entire circuit.
Calculate A) the equivalent capacitance of C4, C5, and C6 all in parallel. B) V4 and Q4 assuming that Vab = 50
Volts across the entire circuit.
Considering the circuit below, calculate Ceq , V3, Q3, Q6 and V6 assuming that Vab = 72 Volts across
the entire circuit.
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