How Does Power Calculation Translate to Energy Absorption in a Circuit?

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Discussion Overview

The discussion revolves around the calculation of power and energy in a circuit element defined by specific voltage and current functions. Participants explore how to derive energy absorption from power calculations over a specified time interval.

Discussion Character

  • Homework-related
  • Mathematical reasoning

Main Points Raised

  • One participant presents the voltage and current functions and asks how to calculate the energy absorbed by the circuit element over a time interval.
  • Another participant questions the nature of the circuit element and the distinction between delivering and absorbing power in the context of the problem.
  • A participant suggests that to find energy over a time period, one should integrate the power multiplied by dt over the time interval.
  • Some participants express uncertainty about the integration of sine and cosine functions and seek clarification on the next steps in the calculation.
  • A later reply references an external resource on integration by parts, indicating a search for additional help on the topic.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the specifics of the calculations, and there is uncertainty regarding the integration process and the nature of the circuit element.

Contextual Notes

There are limitations in the discussion regarding the assumptions made about the circuit element and the definitions of power and energy in this context. The integration steps and the conditions under which the calculations are valid remain unresolved.

Who May Find This Useful

Students and individuals interested in circuit analysis, power calculations, and integration techniques in mathematics may find this discussion relevant.

XodoX
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1. A circuit element is shown below, with the voltage v(t) and the current i(t) defined. The
voltage and current are given as
v (t ) = 5sin (t ) [V]
i (t ) = −10cos (t ) [A] .
Calculate the power that the element is delivering.

b) For the same circuit in the previous problem, calculate the amount of energy that the circuit
element absorbs between t = 0 and t = 1 .

I don't get the b0 part. The solution for the first part is 50 sin(t) cos(t) [W]. How do I get the amount of energy for that time frame?
 
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XodoX said:
1. A circuit element is shown below, with the voltage v(t) and the current i(t) defined. The
voltage and current are given as
v (t ) = 5sin (t ) [V]
i (t ) = −10cos (t ) [A] .
Calculate the power that the element is delivering.

b) For the same circuit in the previous problem, calculate the amount of energy that the circuit
element absorbs between t = 0 and t = 1 .

I don't get the b0 part. The solution for the first part is 50 sin(t) cos(t) [W]. How do I get the amount of energy for that time frame?


What kind of a circuit element is it? Why are they asking about delivering power in one part, and absorbing power in the other part?

To get energy over a time period, you just integrate the power multiplied by dt over the time interval.
 


I forgot how to take the integral of cos/sin :confused:

u= sin(t) du=cos(t) dt

Maybe you can explain the next step to me:) I think that once I got the result of it I am done.
 


XodoX said:
I forgot how to take the integral of cos/sin :confused:

u= sin(t) du=cos(t) dt

Maybe you can explain the next step to me:) I think that once I got the result of it I am done.

The wikipedia.org article on integration by parts is pretty reasonable:

http://en.wikipedia.org/wiki/Integration_by_parts

.
 

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