In a star-connected system, the line voltage equals the phase voltage multiplied by √3.

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Prepare for the 3rd Year Electrical Trades Qualification (TQ) exam. Use flashcards and multiple choice questions to master the material. Each question comes with hints and explanations to help you succeed. Get set for your qualification!

Multiple Choice

In a star-connected system, the line voltage equals the phase voltage multiplied by √3.

In a star (wye) connection, the line-to-line voltage is √3 times the phase (line-to-neutral) voltage. This comes from treating the three phase voltages as phasors separated by 120 degrees. The line voltage between two lines is the vector difference of two phase voltages, V_AB = V_A − V_B. If V_A = Vph ∠0° and V_B = Vph ∠−120°, the magnitude of their difference is |V_AB| = √3 · Vph. So the line voltage equals √3 times the phase voltage.

For example, if the phase voltage is 230 V, the line-to-line voltage is 230 × √3 ≈ 400 V. This relationship does not hold in a delta connection, where the line voltage equals the phase voltage.

In a star-connected system, the line voltage equals the phase voltage multiplied by √3.

Prepare for the 3rd Year Electrical Trades Qualification (TQ) exam. Use flashcards and multiple choice questions to master the material. Each question comes with hints and explanations to help you succeed. Get set for your qualification!

In a star-connected system, the line voltage equals the phase voltage multiplied by √3.

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