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