In AC circuits, what does RMS (root-mean-square) represent?

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Multiple Choice

In AC circuits, what does RMS (root-mean-square) represent?

Explanation:
RMS stands for root-mean-square and is the effective DC value that delivers the same power to a resistor as the AC waveform. Power in a resistor depends on the square of the instantaneous voltage, so you average v(t)² over time and then take the square root. This gives you V_rms, the value you’d use to calculate heating or power: P = V_rms² / R. For a sinusoidal voltage, V_rms equals the peak voltage divided by √2, and the same idea applies to current with I_rms = I_peak / √2. This RMS value isn’t the average value (which can be zero for a symmetric AC signal) and it isn’t the peak value (the maximum instantaneous value), but the steady DC-equivalent that produces the same heating effect.

RMS stands for root-mean-square and is the effective DC value that delivers the same power to a resistor as the AC waveform. Power in a resistor depends on the square of the instantaneous voltage, so you average v(t)² over time and then take the square root. This gives you V_rms, the value you’d use to calculate heating or power: P = V_rms² / R. For a sinusoidal voltage, V_rms equals the peak voltage divided by √2, and the same idea applies to current with I_rms = I_peak / √2. This RMS value isn’t the average value (which can be zero for a symmetric AC signal) and it isn’t the peak value (the maximum instantaneous value), but the steady DC-equivalent that produces the same heating effect.

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