Description
At the heart of every great engineer lies a strong foundation in the fundamentals.
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Do you feel like you’re missing something fundamental?
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Are you struggling to understand the core concepts of electrical engineering?
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Do you feel overwhelmed by the vast amount of knowledge available, and wish you had a key to unlock the door of understanding?
Look no further than “Mastering the Art of Circuit Analysis” – The first course in The Tao of Phasor Series.
This course is not just about analyzing circuits with phasors:
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With high-quality content, insightful lessons and engaging storytelling, you’ll gain a deep understanding of the fundamental principles that underpin all of electrical engineering.
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Our focus is not just on the HOW, but also on the WHY and the evolution of analytical methods in this field.
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You’ll discover that phasors are not just a mathematical tool, but a KEY to unlock the secrets of electrical engineering.
By the end of this course:
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You’ll learn how to harness the vast knowledge in this field and apply it to your career.
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You’ll learn how to master this field and develop the skills that will set you apart from your peers.
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You’ll have a solid foundation that will impact your entire electrical engineering career.
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You’ll be well on your way to becoming a confident and successful engineer.
Join us on this journey and discover the joy of understanding the Tao of electrical engineering!
Course Highlights:
Don’t overlook this seemingly boring agenda. I am not using a conventional teaching style, but explaining how the circuit analysis approach is built up. This may solve many of the “WHYs” in your mind.
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Basic Laws and Methods, Ohm
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Kirchhoff Current and Voltage Laws, Kirchhoff
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Nodal Voltage and Mesh Current Analysis
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History of Electricity
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RC and RL Circuits, 1st-order Differential Equation, 1st-order Circuit Response
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General Solution for 1st-order Differential Equation, Examples
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Reason to Study RLC Circuits
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Kelvin, Ruhmkorff Coil
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RLC Circuit Analysis, Maxwell, and Hertz
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2nd-order Differential Equation, Natural Response
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Derivatives, Newton, Leibniz, Lagrange, and Arbogast
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Heaviside & Heaviside’s Trick
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Characteristic Equation and Natural Responses
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Undamped, Underdamped, Critically Damped and Overdamped
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Discriminant and Damping Ratio
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Simple Spring System and Pendulum System
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Zero-state Response Examples, Complete Response Example
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Revisit 1st-order Case
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Sinusoidal Properties, Formula of Power Calculations, Magnitude vs. Amplitude
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Sinusoidal Excitation Analysis (Time-domain)
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Coordinate Systems and Descartes
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Complex Plane and Gauss
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Complex Numbers, Complex Plane and Sinusoidal Wave
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Complex Excitation Analysis (Time-domain), Phasor Excitation Analysis (Frequency-domain)
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Phasor Plane and Its Base Function
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Sinusoidal Waves Synthesis
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Phase Noise: The Leeson’s Model
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Phasors Everywhere
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Impedance and Admittance, Kirchhoff’s Laws
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Mr. Bigs, Steinmetz
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Challenges and Silver Lining, The Paper, and Carson
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The Beauty of Phasor
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