For the bridge circuit given, Vsupply = 70V, and R₁= 20, R₂=402, R3=37.50, R4-509 and R5= 1000. For Delta to wye conversion, the following assumption is made is between R₁ and R₂; R₁ is between R₂ and R5; Rc is between R5 and R₁ What is the voltage drop across R3? 45 V 35 V 60 V Vsupply R₂ ww

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## Bridge Circuit Problem **Given:** - \( V_{\text{supply}} = 70V \) - \( R_1 = 20\Omega \) - \( R_2 = 40\Omega \) - \( R_3 = 37.5\Omega \) - \( R_4 = 50\Omega \) - \( R_5 = 100\Omega \) **Delta to Wye Conversion Assumptions:** - \( R_a \) is between \( R_1 \) and \( R_2 \) - \( R_b \) is between \( R_2 \) and \( R_5 \) - \( R_c \) is between \( R_5 \) and \( R_1 \) **Question:** - What is the voltage drop across \( R_3 \)? **Options:** - 45 V - 35 V - 60 V - 75 V **Diagram Explanation:** The accompanying diagram displays a bridge circuit with a voltage supply and five resistors. Resistors \( R_1 \), \( R_2 \), \( R_4 \), and \( R_5 \) form a square. \( R_3 \) is connected diagonally across the square. To find the voltage drop across \( R_3 \), apply the delta-to-wye transformation and use circuit analysis techniques such as mesh analysis or node voltage method.