Some say circuit analysis can be considered a weed-out class for electrical engineering or other technical major in a number of university schools. You either pass or don’t pass. If you don’t pass, then it may be time to consider another major. Well, I don’t want you to get weeded out because the field of engineering is such a rewarding field.
This course is here to help you make sent out of circuit analysis. In your journey, you will learn analytical tools providing you insight about circuit behavior. This course is a first course in circuit analysis and the video below provides you with a big picture summary of three analytical courses.
VIDEO Section 1 Introduction, Symbols and Units Lecture 2 Definitions, Symbols, Units - Part 2 Lecture 3 Definitions, Symbols, Units - Examples Lecture 4 Water Analogy Section 2 Circuit Variables Lecture 5 Circuit Variables: Current, Voltage and Power Lecture 6 Circuit Variables: Current, Voltage and Power (Examples) Lecture 7 . The Passive Sign Convention - Part 1 Lecture 8 The Passive Sign Convention - Part 2 Lecture 9 Measuring Voltage Lecture 10 Measuring Voltage In A Circuit Section 3 Element Constraints Lecture 11 Electric DC Circuit Analysis - Ohm's Law & Element Constraints (Part 1) Lecture 12 Electric DC Circuit Analysis - Ohm's Law & Element Constraints (Part 2) Lecture 13 Electric DC Circuit Analysis - Ideal Voltage and Current Sources Section 4 Connection Constraints Lecture 14 KVL, KCL and Ohm's Law - Part 1 Lecture 15 KVL, KCL and Ohm's Law - Part 2 Lecture 16 KVL, KCL and Ohm's Law - Part 3 Lecture 17 Series and Parallel Connection Section 5 Combined Constraints Lecture 18 Combined Constraints - Part 1 Lecture 19 Combined Constraints - Part 2 Lecture 20 Combined Constraints - Part 3 Lecture 21 Combined Constraints - Part 4 Section 6 Basic Circuit Analysis Lecture 22 Voltage Divider - Part 1 Lecture 23 Voltage Divider - Part 2 Lecture 24 Analog and Digital Potentiometer Lecture 25 Current Division Lecture 26 Application - R-2R Ladder Circuit Section 7 Circuit Reduction Lecture 27 Circuit Reduction - Part 1 Lecture 28 Circuit Reduction - Part 1 Section 8 Circuit Analysis Techniques - Node Analysis Lecture 29 Introduction to Nodal Analysis Lecture 30 How to do Nodal Analysis - Example 1 Lecture 31 How to do Nodal Analysis - Example 2 Lecture 32 Node Voltage Analysis B y Inspection Lecture 33 Section 9 Circuit Analysis Techniques - Mesh Analysis Lecture 34 How to do Mesh Analysis - Part 1 Lecture 35 How to do Mesh Analysis - Part 2 Lecture 36 How to do Mesh Analysis - Part 3 Section 10 Circuit Analysis - Linear Properties Lecture 37 Linearity, Proportionality and Additivity - Part 1 Lecture 38 Linearity, Proportionality and Additivity - Part 2 Lecture 39 Additivity and the Superposition Principle - Part 3 Lecture 40 Linearity Properties - Superposition Principle and Circuits - Part 4 Section 11 Thevenin and Norton Equivalent Lecture 41 Thevenin and Norton Equivalent - Part 1 Lecture 42 Thevenin and Norton Equivalent - Part 2 Lecture 43 Thevenin and Norton Equivalent - Part 3 Lecture 44 Thevenin and Norton Equivalent - Part 4 Lecture 45 Thevenin and Norton Equivalent - Part 5 Lecture 46 Thevenin and Norton Equivalent - Part 6 Lecture 47 Thevenin and Norton Equivalent - Part 7 Section 12 Maximum Signal Transfer Lecture 48 Maximum Signal Transfer - Part 1 Lecture 49 Maximum Signal Transfer - Part 2