Course Highlights
The Electric Circuits Complete Training course is your one-stop shop for learning everything you need to know about electric circuits. From the basics of voltage and current to advanced topics like circuit analysis and theorems, this course will teach you everything you need to become a certified electrical engineer. This course isn’t just a collection of units; it’s a transformative experience that will reshape your understanding of circuits. Imagine peeling back the layers of mystery that shroud the behaviour of electrons, revealing the intricate dance of currents and voltages that power our modern lives.
From the very first unit, you’ll be drawn into a tapestry of knowledge where basic concepts become the foundation upon which you’ll construct your expertise. As you progress, the journey unfolds through the corridors of basic laws and methods of analysis, guiding you towards the heart of circuitry’s core principles. But this isn’t just theory – brace yourself for interactive simulations that let you witness the magic of circuits coming to life before your eyes.
Venture deeper, and you’ll encounter the enlightening world of operational amplifiers, where abstract concepts materialise into powerful tools used in countless electronic applications. Capacitors and inductors, often shrouded in mystique, will be demystified, allowing you to wield their potential confidently.
Are you ready to step into the realm of electric circuits like never before? This course isn’t just about learning – it’s about transformation. Whether you’re an aspiring engineer, a curious tinkerer, or someone seeking a deeper understanding of the technology shaping our world, this journey will equip you with skills that resonate far beyond the confines of the classroom. Let your curiosity ignite, your understanding deepens, and your potential be amplified with Electric Circuits Complete Training.
Learning outcome
- Grasp fundamental concepts of electric circuits.
- Apply basic laws to analyse circuit behaviour.
- Employ diverse methods to dissect circuit complexities.
- Utilise circuit theorems for efficient problem-solving.
- Understand operational amplifiers and their functions.
Course media
Why should I take this course?
- Gain mastery over electric circuit essentials.
- Acquire skills applicable to various engineering fields.
- Unlock the ability to design and troubleshoot circuits.
- Boost your career prospects with practical knowledge.
- Learn from engaging modules and real-world examples.
Career Path
- Electrical Engineer
- Electronics Technician
- Circuit Designer
- Systems Analyst
- Automation Specialist
Requirements
- Basic understanding of mathematics and physics.
- Familiarity with fundamental electrical terms.
- Access to a computer for online course materials.
Course Curriculum
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Module 1- What Is an Electric Circuit00:02:00
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Module 2-System of Units00:07:00
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Module 3- What Is an Electric Charge00:05:00
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Module 4- What Is an Electric Current00:08:00
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Module 5-Example 100:01:00
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Module 6- Example 200:02:00
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Module 7- Example 300:02:00
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Module 8- What Is Voltage00:07:00
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Module 9- What Is Power00:06:00
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Module 10- What Is Energy00:04:00
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Module 11- Example 400:03:00
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Module 12- Example 500:02:00
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Module 13- Dependent and Independent Sources00:05:00
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Module 14- Example 6 Part 100:04:00
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Module 15- Example 6 Part 200:01:00
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Module 16- Application 1 Cathode Ray Tube00:04:00
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Module 17-Example 700:04:00
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Module 18- Application 2 Electricity Bills00:02:00
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Module 19- Example 800:03:00
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Module 1- Introduction to Basic Laws00:01:00
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Module 2- Definition of Resistance00:06:00
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Module 3- Ohm’s Law00:02:00
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Module 4- Types of Resistances00:06:00
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Module 5- Open and Short Circuit00:05:00
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Module 6- Definition of Conductance00:04:00
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Module 7- Example 100:02:00
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Module 8- Example 200:03:00
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Module 9- Example 300:03:00
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Module 10- Branch, Node and Loops00:07:00
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Module 11- Series and Parallel Connection00:04:00
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Module 12- KCL00:04:00
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Module 13- KVL00:03:00
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Module 14- Example 400:05:00
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Module 15- Example 500:02:00
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Module 16- Example 600:06:00
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Module 17- Series Resistors and Voltage Division00:07:00
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Module 18-Parallel Resistors and Current Division00:12:00
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Module 19- Analogy between Resistance and Conductance00:07:00
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Module 20-Example 700:03:00
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Module 21-Example 800:04:00
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Module 22- Introduction to Delta-Wye Connection00:06:00
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Module 23-Delta to Wye Transformation00:05:00
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Module 24- Wye to Delta Transformation00:07:00
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Module 25-Example 900:03:00
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Module 26- Example 1000:15:00
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Module 27- Application Lighting Bulbs00:03:00
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Module 28-Example 1100:05:00
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Module 1- Introduction to Methods of Analysis00:02:00
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Module 2- Nodal Analysis with No Voltage Source00:15:00
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Module 3- Example 100:06:00
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Module 4-Cramer’s Method00:04:00
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Module 5-Nodal Analysis with Voltage Source00:07:00
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Module 6- Example 200:05:00
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Module 7- Example 300:13:00
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Module 8-Mesh Analysis with No Current Source00:10:00
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Module 9-Example 400:04:00
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Module 10- Example 5
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Module 11-Mesh Analysis with Current Source00:07:00
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Module 12-Example 600:08:00
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Module 13-Nodal Vs Mesh Analysis00:04:00
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Module 14-Application DC Transistor00:04:00
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Module 15-Example 700:04:00
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Module 1-Introduction to Circuit theorems00:02:00
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Module 2-Linearity of Circuit00:07:00
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Module 3-Example 100:04:00
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Module 4-Superposition Theorem00:07:00
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Module 5- Example 200:04:00
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Module 6-Example 300:06:00
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Module 7-Source Transformation00:08:00
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Module 8-Example 400:05:00
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Module 9-Example 500:03:00
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Module 10-Thevenin Theorem00:10:00
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Module 11-Example 600:06:00
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Module 12-Example 700:05:00
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Module 13- Norton’s Theorem00:05:00
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Module 14-Example 800:04:00
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Module 15-Example 900:05:00
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Module 16-Maximum Power Transfer00:05:00
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Module 17-Example 1000:03:00
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Module 18-Resistance Measurement00:05:00
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Module 19-Example 1100:01:00
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Module 20-Example 1200:04:00
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Module 21-Summary00:05:00
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Module 1-Introduction to Operational Amplifiers00:03:00
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Module 2-Construction of Operational Amplifiers00:07:00
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Module 3-Equivalent Circuit of non Ideal Op Amp00:10:00
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Module 4-Vo Vs Vd Relation Curve00:04:00
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Module 5-Example 100:09:00
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Module 6-Ideal Op Amp00:07:00
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Module 7- Example 200:04:00
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Module 8-Inverting Amplifier00:05:00
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Module 9-Example 300:02:00
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Module 10-Example 400:02:00
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Module 11-Non Inverting Amplifier00:08:00
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Module 12-Example 500:03:00
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Module 13-Summing Amplifier00:05:00
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Module 14-Example 600:02:00
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Module 15-Difference amplifier00:06:00
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Module 16-Example 700:08:00
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Module 17-Cascaded Op Amp Circuits00:06:00
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Module 18-Example 800:04:00
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Module 19-Application Digital to Analog Converter00:06:00
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Module 20-Example 900:04:00
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Module 21-Instrumentation Amplifiers00:05:00
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Module 22-Example 1000:01:00
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Module 23-Summary00:04:00
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Module 1-Introduction to Capacitors and Inductors00:02:00
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Module 2-Capacitor00:06:00
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Module 3-Capacitance00:02:00
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Module 4-Voltage-Current Relation in Capacitor00:03:00
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Module 5-Energy Stored in Capacitor00:06:00
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Module 6-DC Voltage and Practical Capacitor00:02:00
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Module 7-Example 100:01:00
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Module 8-Example 200:01:00
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Module 9-Example 300:05:00
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Module 10-Equivalent Capacitance of Parallel Capacitors00:02:00
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Module 11-Equivalent Capacitance of Series Capacitors00:03:00
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Module 12-Example 400:02:00
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Module 13-Definition of Inductors00:06:00
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Module 14-Definition of Inductance00:03:00
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Module 15-Voltage-Current Relation in Inductor00:03:00
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Module 16-Power and Energy Stored in Inductor00:02:00
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Module 17-DC Source and Inductor00:04:00
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Module 18-Example 500:02:00
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Module 19-Series Inductors00:03:00
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Module 20-Parallel Inductors00:04:00
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Module 21-Example 600:01:00
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Module 22-Small Summary to 3 Basic Elements00:02:00
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Module 23-Example 700:05:00
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Module 24-Application Integrator00:05:00
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Module 25-Example 800:03:00
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Module 26-Application Differentiator00:02:00
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Module 27-Example 900:06:00
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Module 28-Summary00:05:00
14-Day Money-Back Guarantee
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Duration:10 hours, 15 minutes
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Access:1 Year
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Units:134
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