A Thevenin equivalent is V_th = 24 V and R_th = 6 Ω. The load resistor R_L = 4 Ω is connected across the Thevenin source. What is the current through R_L and the voltage across it?

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Study for the DC Theory LMS Test. Engage with comprehensive flashcards and interactive multiple choice questions, each equipped with helpful hints and clear explanations. Prepare confidently and efficiently for your exam!

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A Thevenin equivalent is V_th = 24 V and R_th = 6 Ω. The load resistor R_L = 4 Ω is connected across the Thevenin source. What is the current through R_L and the voltage across it?

When a Thevenin source is connected to a load, they form a single loop where the load and the Thevenin resistance share the same current. The current is found from the total resistance in series: I = V_th / (R_th + R_L). Here that’s 24 V / (6 Ω + 4 Ω) = 24 / 10 = 2.4 A. The voltage across the load is V_L = I × R_L = 2.4 A × 4 Ω = 9.6 V. You can also see this via a voltage divider: V_L = V_th × R_L/(R_th + R_L) = 24 × 4/10 = 9.6 V. The remaining voltage drops across the Thevenin resistance (14.4 V), since 2.4 A × 6 Ω = 14.4 V. So the current is 2.4 A and the voltage across the load is 9.6 V.

A Thevenin equivalent is V_th = 24 V and R_th = 6 Ω. The load resistor R_L = 4 Ω is connected across the Thevenin source. What is the current through R_L and the voltage across it?

Study for the DC Theory LMS Test. Engage with comprehensive flashcards and interactive multiple choice questions, each equipped with helpful hints and clear explanations. Prepare confidently and efficiently for your exam!

A Thevenin equivalent is V_th = 24 V and R_th = 6 Ω. The load resistor R_L = 4 Ω is connected across the Thevenin source. What is the current through R_L and the voltage across it?

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