For a sinusoidal voltage with peak Vp, what is the RMS value?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Prepare for your Electrical Engineering Fundamentals Test with multiple choice questions and thorough explanations. Hone your skills with detailed answers and practice your way to success!

Multiple Choice

For a sinusoidal voltage with peak Vp, what is the RMS value?

Explanation:
The key idea is that RMS is the effective value of a sine wave for delivering power to a resistor. For a voltage v(t) = Vp sin(ωt), the instantaneous power is proportional to v^2, so the RMS value is the square root of the average of v^2 over one period. Compute ⟨v^2⟩ = (1/T) ∫_0^T Vp^2 sin^2(ωt) dt. Since the average of sin^2 over a full cycle is 1/2, ⟨v^2⟩ = Vp^2/2, and Vrms = sqrt(Vp^2/2) = Vp/√2. So the RMS value is Vp/√2, about 0.707 times the peak value. This distinguishes it from the peak value (Vp), a value like Vp/2, or a larger value like Vp√2.

The key idea is that RMS is the effective value of a sine wave for delivering power to a resistor. For a voltage v(t) = Vp sin(ωt), the instantaneous power is proportional to v^2, so the RMS value is the square root of the average of v^2 over one period. Compute ⟨v^2⟩ = (1/T) ∫_0^T Vp^2 sin^2(ωt) dt. Since the average of sin^2 over a full cycle is 1/2, ⟨v^2⟩ = Vp^2/2, and Vrms = sqrt(Vp^2/2) = Vp/√2. So the RMS value is Vp/√2, about 0.707 times the peak value. This distinguishes it from the peak value (Vp), a value like Vp/2, or a larger value like Vp√2.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy