EENG 281
Videos of lectures (on YouTube)
Lecture 1
- Course Introduction and Circuit Fundamentals
Lecture 2
- Voltage & Current Sources, Resistors & Ohm's Law
Lecture 3
- Kirchhoff's Laws
Lecture 4
- Voltage and Current Divider Circuits
Lecture 5
- Delta-Wye Transforms
Lecture 6
- Introduction to the Node Voltage Method
Lecture 7
- Introduction to the Mesh Current Method
Lecture 8
- Node Voltage vs. Mesh Current
Lecture 9
- Source Transformations
Lecture 10
- Thevenin & Norton Equivalent Circuits
Lecture 11
- Thevenin & Norton Equivalent Circuits
Lecture 12
- Maximum Power Transfer and Superposition
Lecture 13
- Introduction to Operational Amplifiers
Lecture 14
- Operational Amplifier Applications
Lecture 15
- Operational Amplifier Applications Continued
Lecture 16
- Operational Amplifier Non-Ideal Models
Lecture 17
- Operational Amplifier Non-Ideal Models Continued
Lecture 18
- Exam 1 Review
Lecture 19
- Inductance and Capacitance
Lecture 20
- Magnetically Coupled Circuits
Lecture 21
- Mutual Inductance Energy Calculations
Lecture 22
- Transient Response (First-Order Circuits)
Lecture 23
- Transient Analysis: Step-by-Step Procedure
Lecture 24
- Transient Analysis: Sequential Switching
Lecture 25
- Tranient Analysis: Unbounded Response
Lecture 26
- Natural and Step Response: Parallel RLC Circuit
Lecture 27
- Natural and Step Responses: Series RLC Circuits
Lecture 28
- RLC Circuits
Lecture 29
- Sinusoidal Sources
Lecture 30
- Phasors and Impedance - Part 1
Lecture 31
- Phasors and Impedance - Part 2
Lecture 32
- Steady State AC Sinusoidal Analysis - Part 1
Lecture 33
- Steady State AC Sinusoidal Analysis - Part 2
Lecture 34
- Steady State AC Sinusoidal Analysis - Part 3
Lecture 35
- Exam 2 Review
Lecture 36
- Ideal Transformers - Part 1
Lecture 37
- Ideal Transformers - Part 2
Lecture 38
- Electrical Safety
Lecture 39
- Electrical Safety - Residential Wiring
Lecture 40
- Residential Wiring