Part A Specify the numerical value of a al Submit ▾ Part B a₂= Specify the numerical value of a Submit 197| ΑΣΦ 31 Part C P = [55] ΑΣΦ | Η Submit Request Answer Part D V= Calculate the power delivered to the 23 2 load. Express your answer with the appropriate units. Request Answer Submit μA Value n vec 1 vec Request Answer Value Calculate the rms value of the voltage across the 6 resistor. Express your answer with the appropriate units. μA 1 Units Request Answer ? Units ? ? ?

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Part A Specify the numerical value of a a₁ = Submit Part B [V]| ΑΣΦ | a₂ = Specify the numerical value of a2. Submit Part C P = Submit Request Answer Part D Calculate the power delivered to the 23 load. Express your answer with the appropriate units. V = Request Answer AΣ vec O μA Value vec Request Answer ▬▬ |μA Value Units Calculate the rms value of the voltage across the 6 resistor. Express your answer with the appropriate units. Submit Request Answer ? Units ? ? ?

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Problem 10.40 The sinusoidal voltage source in the circuit in the figure is developing an rms voltage of 2000 V. The R₂ = 6 2 load in the circuit is absorbing four times as much average power as the R₁ = 232 load. The two loads are matched to the sinusoidal source that has an internal impedance of 500 20° 2. (Figure 1) Figure 500 ΩΣ 2000/0°+ V (rms) a₁:1 Ideal a2:1 || Ideal 1 of 1 R₁ R₂