About Course
Electric Circuits II (AC)
Course Overview:
Dive deeper into the world of electrical engineering with our Electric Circuits II (AC) course at Today’s School. This advanced course builds on foundational concepts to explore alternating current (AC) circuits and their applications. Designed for students who have a basic understanding of electric circuits, this course will enhance your knowledge of AC circuit analysis, including complex impedance, phasor diagrams, and frequency response.
Key Topics Covered:
- AC Circuit Fundamentals: Understand the principles of alternating current, including sinusoidal waveforms, peak values, and RMS calculations.
- Impedance and Phasors: Learn how to analyze AC circuits using complex numbers and phasor notation to simplify calculations and understand circuit behavior.
- AC Circuit Analysis: Study techniques for analyzing series and parallel AC circuits, including the use of Kirchhoff’s laws and mesh analysis.
- Resonance and Filters: Explore the concepts of resonance in RLC circuits and the design of filters for signal processing.
- Transformers and Power: Gain insight into the operation of transformers, power factor correction, and the calculation of real, reactive, and apparent power in AC circuits.
- Frequency Response: Analyze how circuits respond to varying frequencies and the implications for real-world applications such as audio and communications systems.
Course Features:
- Interactive Lectures: Engage with high-quality video lectures and visual aids to reinforce learning.
- Practical Applications: Apply theoretical knowledge through hands-on simulations and practical exercises.
- Expert Instruction: Learn from experienced instructors with a deep understanding of AC circuit theory and applications.
- Comprehensive Resources: Access a range of study materials, including practice problems, quizzes, and detailed solutions.
Whether you’re looking to advance your career in electrical engineering or strengthen your academic background, this course offers the depth and detail needed to master AC circuit analysis. Enroll now to unlock a deeper understanding of AC circuits and their critical role in modern technology.
Course Content
Electric Circuit II
Resistor
00:00Voltage & Current Relationship in Resistors
00:00Series Parallel Circuit
00:00Parallel AC Circuits
00:00Current Divider Rule in AC Electrical Circuits
00:00Voltage Divider Rule in AC Electrical Circuits
00:00Inductors in AC Electrical Circuits
00:00Voltage & Current Relation In Inductor
00:00Voltage & Current Relation In Capacitor
00:00Mathematical Example of AC Voltage & Current in Basic Elements
00:00Mesh Analysis in AC Electrical Circuits
00:00Nodal Analysis in AC Electrical Circuits
00:00Thevenin’s Theorem in AC Circuits
00:00Norton’s Theorem in AC Circuits
00:00Thevenin Norton Conversion
00:00Average Value in AC Circuits
00:00Average Power
00:00Complex Numbers in AC Circuits
00:00Addition of Complex Number
00:00Division of Complex Numbers
00:00Multiplication of Complex Numbers
00:00Subtraction of Complex Numbers
00:00Temperature effect
00:00AC Circuits with Cramer’s Rule
00:00Phasors in AC Electrical Circuits
00:00Phase Relation in AC Circuits
00:00Sinusoidal Waveform
00:00Effective (RMS) Value in AC Electrical Circuits
00:00Impedance Diagrams in AC Electrical Circuits
00:00Lagging and Leading in AC Electrical Circuits
00:00
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