For a small circuit with open-circuit voltage 14 V and Thevenin resistance 7 Ω, if the load is 14 Ω, what is the voltage across the load?

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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!

Multiple Choice

For a small circuit with open-circuit voltage 14 V and Thevenin resistance 7 Ω, if the load is 14 Ω, what is the voltage across the load?

Explanation:
In this situation you treat the circuit as a Thevenin source: a 14 V source with a 7 Ω internal resistance in series with the load of 14 Ω. The voltage across the load is found by the voltage divider rule: V_load = V_th × R_load / (R_th + R_load). Compute the total resistance: 7 Ω + 14 Ω = 21 Ω. The current is I = 14 V / 21 Ω = 2/3 A ≈ 0.667 A. The voltage across the load is V_load = I × R_load = 0.667 A × 14 Ω ≈ 9.33 V. Equivalently, V_load = 14 V × 14 Ω / 21 Ω = 9.33 V. So the voltage across the load is about 9.33 V.

In this situation you treat the circuit as a Thevenin source: a 14 V source with a 7 Ω internal resistance in series with the load of 14 Ω. The voltage across the load is found by the voltage divider rule: V_load = V_th × R_load / (R_th + R_load).

Compute the total resistance: 7 Ω + 14 Ω = 21 Ω. The current is I = 14 V / 21 Ω = 2/3 A ≈ 0.667 A. The voltage across the load is V_load = I × R_load = 0.667 A × 14 Ω ≈ 9.33 V. Equivalently, V_load = 14 V × 14 Ω / 21 Ω = 9.33 V.

So the voltage across the load is about 9.33 V.

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