Problem 1. AC Circuits-four short questions. (a) Explain the difference between instantaneous, peak, and RMS quantities, and give some examples of when it is appropriate to use each one. (b) For electrical power, (instantaneous) p is only true sometimes. Give a situation where it works, and a situation where it fails, and explain why it fails. = iv is always true, but (average) Pavg Irms Vrms (c) AC circuits gained prevalence over DC circuits for power distribution because of the ease of transforming between high and low voltage. Explain why a transformer (which uses magnetic induction between two coils of wire) works for AC but not for DC. (d) Suppose an electrical distribution line has a resistance of 1 ohm and needs to deliver 1 MW (megawatt) of electrical power. Is it more efficient to deliver that power at Vrms at Vrms question. (Hint: Actual distribution lines are high-voltage, so...) = 120 V or 120 kV? Calculate the power wasted as heat in the distribution line to answer the

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Can you answer question D in this image?

Problem 1. AC Circuits-four short questions.
(a) Explain the difference between instantaneous, peak, and RMS quantities, and give some
examples of when it is appropriate to use each one.
(b) For electrical power, (instantaneous) p
is only true sometimes. Give a situation where it works, and a situation where it fails, and
explain why it fails.
= iv is always true, but (average) Pavg
Irms Vrms
(c) AC circuits gained prevalence over DC circuits for power distribution because of the ease of
transforming between high and low voltage. Explain why a transformer (which uses magnetic
induction between two coils of wire) works for AC but not for DC.
(d) Suppose an electrical distribution line has a resistance of 1 ohm and needs to deliver 1 MW
(megawatt) of electrical power. Is it more efficient to deliver that power at Vrms
at Vrms
question. (Hint: Actual distribution lines are high-voltage, so...)
= 120 V or
120 kV? Calculate the power wasted as heat in the distribution line to answer the
Transcribed Image Text:Problem 1. AC Circuits-four short questions. (a) Explain the difference between instantaneous, peak, and RMS quantities, and give some examples of when it is appropriate to use each one. (b) For electrical power, (instantaneous) p is only true sometimes. Give a situation where it works, and a situation where it fails, and explain why it fails. = iv is always true, but (average) Pavg Irms Vrms (c) AC circuits gained prevalence over DC circuits for power distribution because of the ease of transforming between high and low voltage. Explain why a transformer (which uses magnetic induction between two coils of wire) works for AC but not for DC. (d) Suppose an electrical distribution line has a resistance of 1 ohm and needs to deliver 1 MW (megawatt) of electrical power. Is it more efficient to deliver that power at Vrms at Vrms question. (Hint: Actual distribution lines are high-voltage, so...) = 120 V or 120 kV? Calculate the power wasted as heat in the distribution line to answer the
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