Master Electric circuits, part 1-DC Circuits
3.5 (1 rating)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
351 students enrolled

Master Electric circuits, part 1-DC Circuits

Original method invented for mastering DC circuits, including Thevenin's theorem, everyone will understand
3.5 (1 rating)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
351 students enrolled
Last updated 6/2018
English
Current price: $11.99 Original price: $79.99 Discount: 85% off
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This course includes
  • 3.5 hours on-demand video
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion
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What you'll learn
  • Master Ohm's Law
  • Master current divider formula and voltage divider formula

  • Master kirchhof's rules

  • Master Thévenin's theorem
  • Use maths for electric circuits
Requirements
  • Basic maths
  • Some analysis can help, but isn't required
  • Some algebra like Cramer's Rule
Description

Master Electric circuit with this invented method, step by step after this course, DC circuit will be a video games for you.

  • Why it's very important to begin with DC circuits? 
  • Because it's the base off all electronics! Yes; before begin electronics this step is critical.

  First we begin with basics, sign convetion, electric potential difference, junction rule, loop equation: These 5 things are one of the secrets of electric circuit, and I have some tricks for you for mastering those technics.

  After that we have two powerfull technics: Voltage divider formula and current divider formula.

  And we have also Kirchhof's rules and Thévenin's Theorem.

  Enjoy my course!

So we have:

  • Sign convention
  • Junction rule
  • Loop equation
  • Ohm's Law
  • Current divider and voltage divider formulas-part1
  • Power consumed in a resistor
  • Impedance matching
  • Power and motor
  • Efficiency of a DC motor
  • Kirchhoff's rules
  • Batteries in series and parallel
  • Resistors in series and parallel
  • Thevenin's Theorem
Who this course is for:
  • Electrical engineer student and future electrical engineer
  • Students in physics or computer science classes
  • Passionate about electronics
  • Electronics geeks
Course content
Expand all 27 lectures 03:22:22
+ Introduction
7 lectures 48:38
Sign convention, EPD, For the generators
05:44
Sign convention, EPD, For the resistors
02:29
Junction rule
04:13
Loop equation
12:24
Current divider and voltage divider formulas-part1
08:03
Current divider and voltage divider formulas-part2
11:08
+ Application 2
4 lectures 28:44
Application2-part1
11:54
Application 2-part2
03:51
Application 2-part3
07:24
Application 2-part4
05:35
+ Power
6 lectures 48:47
Power consumed in a resistor
21:14
Impedance matching
01:38
Power and motor
04:33
Example-part1
07:13
Example-part2
07:57
Efficiency of a DC motor
06:12
+ Kirchhoff's rules, Thévenin's theorem
10 lectures 01:16:13
Kirchhoff's rules
10:07
Kirchhoff's rules-Example
10:42
Junction rule-Example
04:18
Batteries in series and parallel
04:18
Batteries in parallel-Example
05:01
Thevenin's Theorem
06:09
Thevenin's Theorem-Application
11:28
Batteries in series-Example
05:14
Comparison between batteries in series and parallel
07:30