Electrical Engineering - Energy Graph Question

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SUMMARY

The discussion focuses on calculating the total energy absorbed by a device over the time interval 0 PREREQUISITES

  • Understanding of electrical power calculations (P=VI)
  • Knowledge of integration techniques for calculating area under a curve
  • Familiarity with piecewise functions and their applications
  • Basic concepts of energy in electrical systems
NEXT STEPS
  • Study integration techniques for piecewise functions in calculus
  • Learn about energy calculations in electrical circuits using integral calculus
  • Explore the concept of power dissipation in electrical devices
  • Review examples of energy calculations in electrical engineering textbooks
USEFUL FOR

Electrical engineering students, educators, and professionals involved in circuit analysis and energy calculations will benefit from this discussion.

Larrytsai
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Homework Statement


Question number 3!, I attached it. Need help!

Figure 1 shows the current through and the voltage across a device. Find the total energy absorbed by the device fore the period 0<t<4.


Homework Equations


integral of p = energy
P=VI


The Attempt at a Solution


Just need the algorithm to solving these kinds of problems, I am kind of thrown off at the instantaneous change.
 

Attachments

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One way you could think about this problem is by taking discrete intervals on the current graph and voltage graph and multiplying these values together. This will result in a graph that describes the power dissipation in the device over the given time interval. Then it will just be a matter of finding the area under the curve (integrating the resulting power function).
 
Yeah I thought about that approach but when I look at the voltage it comepletely throws me off. I am able to break the current into 2 separate intervals with the function y1=25x and 0<t<2, y2=-25x 2<t<4, but for the voltage at t=2 its constant and I can't come up with a function to multply with my current.
 
For the voltage between t=1 and t=3, the function describing the voltage is just a constant, or y=10.
 

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