R₁ + E₁ = 100 V 20° (~) 3Ω Load Impedance: XL₁ voo 4Ω Maximum Power Thevenin's Equivalent Impedance: Thevenin's equivalent Voltage: Xc ZL B X₁2₂ voo 9Ω For the circuit shown above, find the required Load Impedance Z₁ for Maximum Power, and determine the Maximum Power. 8 Ω Hint 1: To find the Load Impedance You need to find the Thevenin's Equivalent Impedance between points A and B. ΣΤΗ = RTH+j XTH Hint 2: To find the Maximum Power you need to find the Thevenin's Equivalent Voltage betw points A and B. PMAX = (ETH)2 / 4*RTH Your answers should be inside 10% of the following values: Load Impedance Z₁ = 2.3 + j 5.0 Maximum Power PMAX = 600 W Provide your answers below: R₂ 1202 + (E₂ = 200 V / 90°

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R₁ + E₁ = 100 V 20° (~) 3Ω Load Impedance: XLI voo 4Ω Maximum Power Thevenin's Equivalent Impedance: Thevenin's equivalent Voltage: X ZL B 8 Ω Ï' Xc X₁₂2 voo 9Ω For the circuit shown above, find the required Load Impedance Z₁ for Maximum Power, and determine the Maximum Power. Your answers should be inside 10% of the following values: Load Impedance Z₁ = 2.3 + j 5.0 Maximum Power PMAX = 600 W Provide your answers below: R₂ Hint 1: To find the Load Impedance You need to find the Thevenin's Equivalent Impedance between points A and B. ZTH = RTH+jXTH Hint 2: To find the Maximum Power you need to find the Thevenin's Equivalent Voltage between points A and B. PMAX = (ETH)2 / 4*RTH 12 Ω + E₂ = 200 V / 90°