Given the network in Fig. P8.52, determine the magnitude of the Vo phasor if Vs = 40V, R1 = 40, and R2=7 Q. j2Q Vs +1 R1 −11 Ω + V₁ R2 ww + • Provide your answer in Volts to the nearest tenth of a Volt • Do not include any units in your answer • Ex. If the magnitude is 5.12V, your submitted answer would be 5.1 Vo Note: The Vo phasor will also have a phase angle, but this problem is only asking for the magnitude of the phasor, not the phase angle.

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**Problem Statement:** Given the network in Fig. P8.52, determine the magnitude of the Vo phasor if Vs = 40V, R1 = 4Ω, and R2 = 7Ω. **Diagram Explanation:** The circuit diagram consists of the following components: - A voltage source \( V_s \) with a value of 40V. - Resistor \( R1 \) with a resistance of 4Ω connected in series. - A capacitor is represented by a reactance of \(-j1Ω\), connected in parallel with an inductor represented by \(j2Ω\). - Resistor \( R2 \) with a resistance of 7Ω. - The voltage \( V_1 \) is taken across the capacitor and inductor arrangement. - The output voltage \( V_o \) is measured across \( R2 \). **Note:** The Vo phasor will also have a phase angle, but this problem is only asking for the magnitude of the phasor, not the phase angle. - Provide your answer in Volts to the nearest tenth of a Volt. - Do not include any units in your answer. - Example: If the magnitude is 5.12V, your submitted answer would be 5.1.