HW 5.4 and 5.5
- Due Nov 19, 2024 by 11:59pm
- Points 20
- Submitting a text entry box or a file upload
- File Types doc, docx, pdf, jpg, and png
Homework:
Here are notes from class:in class RC RL problems.docx Download in class RC RL problems.docx
Dr. Cotter's RC, RL cookbook: RLC_GenRCRLSolnProc.doc Download RLC_GenRCRLSolnProc.doc
| Problem | What you should learn | Solution | Similar Problems |
| 5.33; 5.41 | RC circuit general solution |
C3-5.34s.pdf Download C3-5.34s.pdf C3-5.35s.pdf Download C3-5.35s.pdf C3-5.36s.pdf Download C3-5.36s.pdf C3-5.37s.pdf Download C3-5.37s.pdf C3-5.38s.pdf Download C3-5.38s.pdf C3-5.39s.pdf Download C3-5.39s.pdf C3-5.40s.pdf Download C3-5.40s.pdf C3-5.42s.pdf Download C3-5.42s.pdf |
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| 5.46, 5.48 | RL circuit general solution |
C3-5.47s.pdf Download C3-5.47s.pdf C3-5.49s.pdf Download C3-5.49s.pdf C3-5.50s.pdf Download C3-5.50s.pdf C3-5.51s.pdf Download C3-5.51s.pdf C3-5.52s.pdf Download C3-5.52s.pdf |
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| Programming Assignment | Plotting charging curves for capacitors & inductors in Matlab | see description below | Lab M8 |
Programming Assignment Details:
- Use Matlab to plot the voltage & current across a capacitor when charging (like you do in Lab M8 part 1). Experiment with several combinations of V, R, and C, and explain how they affect your results.
- Repeat for the voltage & current across the resistor. (Note: This will be the source voltage minus the inductor voltage you found above)
- Turn in screen shots including multiple plots for different input parameters.
- Repeat with an inductor. The equations and expected results can be found here:http://hyperphysics.phy-astr.gsu.edu/hbase/electric/indtra.html Links to an externalExperiment with several combinations of V,R, and L and explain how they affect your results. Again, turn in screen shots including multiple plots for different input parameters.
Download RL_circuit_charging.m
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