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MAE 40: Linear Circuits

General Class Information

Lecture times:
Mondays, Wednesdays, and Fridays, 11:00am to 11:50am at Cognitive Sciences Building, room 002
(first four weeks online at Zoom)

Extra discussion section (before midterm1):
Friday, January 28, 4:00pm-5:00pm, online at Zoom

Extra discussion section (before midterm2):
Wednesday, February 23, 3:00pm-4:00pm, at Cognitive Sciences Building, room 002

Extra discussion section (before final):
Friday, March 11, 3:00pm-4:00pm, at Pepper Canyon Hall, room 122

Discussion section:
Wednesdays, 4:00-4:50pm, at Cognitive Sciences Building, room 002
(first four weeks online at Zoom)

Instructor:
Jorge Cortes (cortes at ucsd.edu)
Office Hours: Mondays, 2:30-3:30pm @ Zoom

Teaching Assistant:
Cenk Demir (cdemir at ucsd.edu)
Office Hours: Thursdays, 3:30-4:30pm @ Zoom

Canvas

Canvas will be our online platform for class announcements, video recordings, access information to Zoom meetings, turning in homework, checking your grades, etc.

Handouts

Course Syllabus: pdf

Quiz on complex numbers pdf

Lecture Notes: part I

• Introduction (T & R, Chapters 1 & 2)
• Equivalent circuits (T & R, Chapters 2 & 3)
• Systematic circuit analysis (T & R, Chapter 3)
• Active circuits (T & R, Chapter 4)

Lecture Notes: part II

• Capacitors, Inductors (T & R, Chapter 6)
• (* Laplace transform *) (T & R, Chapter 9)
• Circuits in the s-domain (T & R, Chapter 6 & 10)
• s-domain circuit analysis and design (T & R, Chapter 11)
• Frequency response and filter design (T & R, Chapter 12 & 14)

myDAQ Notes

• Equivalent Circuits
• Operational Amplifiers
• Audio Mixer
• Low Pass Filter

Homework Assignments

We will use Piazza for Q&A related to homework problems
All homework submission and grading is electronic
Homework exercises, instructions and solutions will be posted on Canvas

• Homework #1 (due 1/14/22): 1.2, 1.3, 1.18, 1.23, 1.31, 2.3, 2.10, 2.14, 2.23, 2.26
• Homework #2 (due 1/21/22): 2.27, 2.30, 2.37, 2.38, 2.43, 2.55, 2.56, 2.62, 2.72, 2.74
• Homework #3 (due 1/29/22): 3.2, 3.7, 3.9(a-c), 3.12(a-b), 3.15, 3.18, 3.22(b,d), 3.43, 3.53, 3.55
  IMPORTANT: For problems 3.15, 3.18 solve using NODE VOLTAGE, not MESH CURRENT!
  NOTE: You do not need to do any of the simulations using Multisim. Simulations are not required nor graded as part of the homework. If you want to do them, you can try a number of free simulators out there.
• Homework #4 (due 2/11/22): 3.2, 3.6, 3.9(a-c), 3.12(a-b), 3.15, 3.18, 3.22(a,c,d), 3.40, 3.42, 3.49
  IMPORTANT: For problems 3.2, 3.6, 3.9, 3.12 solve using MESH CURRENT, not NODE VOLTAGE!
  NOTE: You do not need to do any of the simulations using Multisim. Simulations are not required nor graded as part of the homework. If you want to do them, you can try a number of free simulators out there.
• Homework #5 (due 2/18/22): 4.3, 4.7, 4.11, 4.12, 4.30, 4.32, 4.38, 4.47, 4.53, 4.73
  NOTE: You do not need to do any of the simulations using Multisim. Simulations are not required nor graded as part of the homework.
• Homework #6 (due 2/26/22): 4.18, 4.20, 4.80, 4.84
  
• Homework #7 (due 3/5/22): 9.3, 9.6, 9.16, 9.29, 9.45, 9.56, 10.2, 10.4, 10.11, 10.19, 10.26, 10.27, 10.35
  
• Homework #8 (due 3/12/22): 10.42, 10.52, 10.54, 10.58, 11.9, 11.11, 11.33, 11.70
                        + extra credit: 12.4, 12.7, 12.11, 12.13
  

Exams

Midterm1 on 1/31/22, during class. You can download the midterm here and the midterm solution here
Midterm2 on 2/25/22, during class. You can download the midterm here and the midterm solution here
Final on 3/14/22, 11:30am-2:30pm. You can download the final here and the final solution here

Grades

The formula to compute the grade is grade = max{grade1,grade2}, where
    grade1 = 0.20 * homework + 0.25 * midterm1+ 0.25 * midterm2 + 0.30 * final
    grade2 = 0.20 * homework + 0.20 * midterm1+ 0.20 * midterm2 + 0.40 * final

Even though the hwk is only 1/5 of the total grade, past experience reveals that it is nearly impossible to get a good grade without having worked on and spent time with the homework consistently throughout the course.

You can check your grade online via Canvas

Cool linear circuit experiment from MAE171a

Check out the following linear circuit experiment and the accompanying lecture from MAE171a "Mechanical Engineering Laboratory I" (prepared by Professor Raymond de Callafon)

You will really need to master all the material from MAE40 to perform the experiment successfully!

Past Years Websites

You might want to check out the websites for

• Fall: 2020, 2019, 2018, 2017, 2014, 2013, 2011, 2009, 2008, 2007
• Winter: 2021, 2020, 2019, 2018, 2017, 2016, 2013, 2009, 2008
• Summer: 2007

where you will find links to older offerings of this class. In particular, you should find old midterm and final exams quite useful to prepare for ours!

IDEA Engineering Student Center

The IDEA Engineering Student Center is a hub for student engagement, academic enrichment, personal/professional development, leadership, community involvement, and a respectful learning environment for all. The IDEA Center is currently working remotely and invites undergraduate and graduate students to connect through its Facebook page and its Instagram page.

Mechanical and Aerospace Engineering, University of California, San Diego
9500 Gilman Dr, La Jolla, California, 92093-0411

Ph: 1-858-822-7930
Fax: 1-858-822-3107

cortes at ucsd.edu
Skype id: jorgilliyo