Problem4. Find Rz in the following circuit to achieve maximum power transfer to it, and the value of the maximum power transfer. + Vx R 2 kN 1 kN 2 Vx 12 V (+
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- What is the voltage drop across R in the circuit below if the shown resistances have the following values: R1=10 N R2=10 N R3=10 N and the voltage provided by the voltage source is 13 volts. R1 R2 R3 adap fo VHow to solve this questionProblem 2: In the circuit below, AV bat = 10 V and C₁ = C₂ = C3 = C4 = C5 = 10 μF. a) What is Ceq? Answer: 16 μF. b) What is Q₁, Q2, Q3, Q4, Q5? Answers: Q₁ = 100µC, Q₂ = 20µC, Q3 = 20μµC, Q4 = 40μC, Qs = 60μC. c) What is AV₁, AV2, AV3, AV4, AV5? Answers: AV₁ = 10 V, AV₂ = 2 V, AV3 = 2 V, AV4 = 4 V, AV5 = 6 V. AV bat C₂
- R1 100KO R2 300KN V1 12V Determine: a. The theoretical voltage across R2 b. The actual voltage measured across R2 by a voltmeter whose input resistance = 600 KQA small circuit consists of a resistor in series with a capacitor, as shown. = 32.0 V The capacitor stores 23.7 mJ of energy after a Vbat battery has been connected to the circuit for a long time. R Then, the capacitor discharges half of this stored energy in V, bat R, exactly 3.17 s when the battery is removed and replaced by a RL = 29600 2 load. C, Determine the value of the capacitance C in microfarads and resistance R in ohms. Ω C = µF R1 =Using your data, answer the following questions: a. To three decimal places, what fraction of the total charge does a capacitor in an RC circuit have after charging for 4.15 time constants; the fraction f such that q(4.15t) = fQmax