Integration problem about household electricity

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Homework Help Overview

The discussion revolves around a problem related to household electricity, specifically focusing on calculating the RMS voltage of an alternating current described by a sinusoidal function. The problem also involves determining the amplitude required for a different RMS voltage specification.

Discussion Character

  • Exploratory, Mathematical reasoning

Approaches and Questions Raised

  • The original poster seeks clarification on the problem's requirements, particularly regarding the calculation of RMS voltage and the necessary amplitude for a specified voltage. One participant suggests using an integral to find the average value of the squared voltage function over one cycle, followed by taking the square root to determine the RMS value.

Discussion Status

The discussion has progressed with one participant providing guidance on how to approach the calculation of the RMS voltage using integrals. The original poster has indicated that they were able to solve the problem after this input.

Contextual Notes

The problem includes specific values for voltage and frequency, and it requires understanding of concepts such as RMS voltage and sinusoidal functions. The context suggests a focus on mathematical reasoning and application of integration in physics.

Stevecgz
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I don't understand what the following problem is asking for:

Household electricity is supplied in the form of alternating current that varies from 155 V to -155 V with a frequency of 60 cycles per second (Hx). The voltage is thus given by the equation:

[tex]E(t) = 155\sin(120\pi t)[/tex]

where t is the time in seconds. Voltmeters read the RMS (root-mean-square) voltage, which is the square root of the average value of [tex][E(t)]^2[/tex] over one cycle.

a. Calculate the RMS voltage of household current.

b. Many electric stoves requre an RMS voltage of 220 V. Find the corresponding amplitude A needed for the voltage [tex]E(t)=A\sin(120\pi t)[/tex].

If someone could explain to me what they are asking for it would be appreciated.

Steve
 
Last edited:
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Use an integral to calculate to calculate the average

[tex] A = \frac{1}{T} \int_{0}^{T} E \left( t \right)^2 dt, [/tex]

where [itex]T[/itex] is the time taken for one period, and then take the square root to find the RMS value of the voltage.

Working from right to left, RMS means: first square [itex]E[/itex], then take the average, then take the square root.

Regards,
George
 
Use an integral to calculate to calculate the average

[tex] A = \frac{1}{T} \int_{0}^{T} E \left( t \right)^2 dt, [/tex]

where [itex]T[/itex] is the time taken for one period, and then take the square root to find the RMS value of the voltage.

Working from right to left, RMS means: first square [itex]E[/itex], then take the average, then take the square root.

Regards,
George
 
Thanks George, I was able to solve the problem now.

Steve
 

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