In a balanced three-phase system, the line-to-line voltage is what factor times the line-to-neutral voltage?

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Multiple Choice

In a balanced three-phase system, the line-to-line voltage is what factor times the line-to-neutral voltage?

Explanation:
In a balanced three-phase system, the line-to-line voltage is the vector difference between two phase voltages that are 120 degrees apart. The magnitude of that difference is V_LL = sqrt(V_phase^2 + V_phase^2 - 2 V_phase^2 cos 120°). Since cos 120° = -1/2, this becomes sqrt(2 V_phase^2 + V_phase^2) = sqrt(3) V_phase. So the line-to-line voltage is sqrt(3) times the line-to-neutral (phase) voltage. sqrt(3) is about 1.732, so the line-to-line voltage is 1.732 times the line-to-neutral voltage (using RMS values). For example, a 100 V line-to-neutral voltage yields about 173.2 V line-to-line.

In a balanced three-phase system, the line-to-line voltage is the vector difference between two phase voltages that are 120 degrees apart. The magnitude of that difference is V_LL = sqrt(V_phase^2 + V_phase^2 - 2 V_phase^2 cos 120°). Since cos 120° = -1/2, this becomes sqrt(2 V_phase^2 + V_phase^2) = sqrt(3) V_phase. So the line-to-line voltage is sqrt(3) times the line-to-neutral (phase) voltage. sqrt(3) is about 1.732, so the line-to-line voltage is 1.732 times the line-to-neutral voltage (using RMS values). For example, a 100 V line-to-neutral voltage yields about 173.2 V line-to-line.

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