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- Engineering Circuit Analysis, also known as Circuit Theory, is difficult for most students primarily because the basic laws seem very simple. This leads the student to believe that the exam problems will not be too difficult, when in reality there is a large amount of technique in solving circuit problems. In other words, practicing circuit problems is absolutely essential to success in any circuits course.
- We begin this course assuming that the student knows absolutely nothing about electrical circuits. We start by explaining what voltage, current, and resistance mean in the context of a circuit. Once this is matered, we explain the circuit symbols and illustrate these with simple circuits. Ohm's law is covered next, which is absolutely essential in circuit theory, after which we explain Kirchhoff's Current Law and Kirchhoff's Voltage law. Numerous circuit problems are worked with these tools to give the student practice and confidence.
- We finish up the course with detailed examples on series/parallel resistor arrangements, voltage divider circuits, and current divider circuits.
- With these tools, the student will be able to solve a wide variety of engineering level circuit problems with confidence.
- Disk 1
- Sect 1: Voltage, Current, and Resistance
- Sect 2: Overview of Circuit Components
- Sect 3: Ohm's Law
- Sect 4: Power Calculations in Circuits
- Sect 5: Kirchhoff's Current Law
- Disk 2
- Sect 6: Kirchhoff's Voltage Law
- Sect 7: Circuit Analysis using Kirchhoff's Laws - Part 1
- Sect 8: Circuit Analysis using Kirchhoff's Laws - Part 2
- Sect 9: Circuit Analysis using Kirchhoff's Laws - Part 3
- Sect 10: Circuit Analysis using Kirchhoff's Laws - Part 4
- Sect 11: Circuit Analysis using Kirchhoff's Laws - Part 5
- Sect 12: Circuit Analysis using Kirchhoff's Laws - Part 6
- Disk 3
- Sect 13: Circuit Analysis using Kirchhoff's Laws - Part 7
- Sect 14: Dependent Current Sources - Part 1
- Sect 15: Dependent Current Sources - Part 2
- Sect 16: Resistors in Series and Parallel - Part 1
- Sect 17: Resistors in Series and Parallel - Part 2
- Sect 18: Voltage Divider Circuits - Part 1
- Sect 19: Voltage Divider Circuits - Part 2
- Sect 20: Current Divider Circuits
- [свернуть]
- Volume 2 - Node Voltage and Mesh Current Analysis Methods
- Disk 1
- Sect 1: Introduction to the Node Voltage Method
- Sect 2: Node Voltage Problems - Part 1
- Sect 3: Node Voltage Problems - Part 2
- Sect 4: Node Voltage Problems - Part 3
- Sect 5: Node Voltage Problems - Part 4
- Sect 6: Node Voltage Problems - Part 5
- Disk 2
- Sect 7: Node Voltage with Dependent Sources - Part 1
- Sect 8: Node Voltage with Dependent Sources - Part 2
- Sect 9: Node Voltage with Dependent Sources - Part 3
- Sect 10: Introduction to the Mesh Current Method
- Sect 11: Mesh Current Problems - Part 1
- Sect 12: Mesh Current Problems - Part 2
- Disk 3
- Sect 13: Mesh Current Problems - Part 3
- Sect 14: Mesh Current Problems - Part 4
- Sect 15: Mesh Currents with Dependent Sources - Part 1
- Sect 16: Mesh Currents with Dependent Sources - Part 2
- Sect 17: Mesh Currents with Dependent Sources - Part 3
- Sect 18: Mesh Currents with Dependent Sources - Part 4
- [свернуть]
- Volume 3 - Thevenin / Norton Equivalent Circuits & More
- Disk 1
- Sect 1: Source Transformations - Part 1
- Sect 2: Source Transformations - Part 2
- Sect 3: Source Transformations - Part 3
- Sect 4: Source Transformations - Part 4
- Sect 5: Thevenin Equivalent Circuits - Part 1
- Sect 6: Thevenin Equivalent Circuits - Part 2
- Disk 2
- Sect 7: Thevenin Equivalent Circuits - Part 3
- Sect 8: Thevenin Equivalent Circuits - Part 4
- Sect 9: Thevenin Equivalents with Depdendent Sources - Part 1
- Sect 10: Thevenin Equivalents with Dependent Sources - Part 2
- Sect 11: Thevenin Equivalents with Dependent Sources - Part 3
- Sect 12: Norton Equivalent Circuits - Part 1
- Disk 3
- Sect 13: Norton Equivalent Circuits - Part 2
- Sect 14: Norton Equivalent Circuits - Part 3
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