Electric Circuits for Electrical Engineering and Electronics

Electric Circuits for Electrical Engineering and Electronics

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Learning Outcome

Description

The Electric Circuits for Electrical Engineering and Electronics is the best way for you to gain deep insight and knowledge of this topic. You will learn from industry experts and obtain an accredited certificate after completing the course. Enrol now for a limited-time discounted price.

Like all the courses of One Education, this Electric Circuits for Electrical Engineering and Electronics is designed with the utmost attention and thorough research. All the topics are broken down into easy to understand bite-sized modules that help our learners to understand each lesson very easily.

We don’t just provide courses at One Education; we provide a rich learning experience. After purchasing a course from One Education, you get complete 1-year access with tutor support. 

Our expert instructors are always available to answer all your questions and make your learning experience exquisite.

After completing the Electric Circuits for Electrical Engineering and Electronics, you will instantly get an e-certificate that will help you get jobs in the relevant field and will enrich your CV.

If you want to learn about this topic and achieve certifications, you should consider this Electric Circuits for Electrical Engineering and Electronics from One Education.

There are no hidden fees or exam charges. We are very upfront and clear about all the costs of the course. 

Course design

The course is delivered through our online learning platform, accessible through any internet-connected device. There are no formal deadlines or teaching schedules, meaning you are free to study the course at your own pace.

You are taught through a combination of

  • Video lessons
  • Online study materials

Will I receive a certificate of completion?

Upon successful completion, you will qualify for the UK and internationally-recognised certification and you can choose to make your achievement formal by obtaining your PDF Certificate at a cost of £9 and Hard Copy Certificate for £15.

Why study this course

Whether you’re an existing practitioner or aspiring professional, this course will enhance your expertise and boost your CV with key skills and an accredited qualification attesting to your knowledge.

The Electric Circuits for Electrical Engineering and Electronics is open to all, with no formal entry requirements. All you need is a passion for learning, a good understanding of the English language, numeracy and IT, and to be over the age of 16.

Course Curriculum

Introduction to Electric Circuits and Electronics
Definition of Electric Circuit 00:03:00
Electric Charge and Electric Current 00:03:00
Alternating Current (AC) Vs Direct Current (DC) 00:02:00
Definition of Voltage 00:02:00
Electrical Energy and Voltage 00:02:00
Definition of Power 00:02:00
Quiz 1 Solutions 00:02:00
Sources in Electric Circuits and Electronics
Independent Sources 00:02:00
Example – Independent Sources 00:04:00
Dependent Sources 00:03:00
Example – Dependent Sources 00:03:00
DC Resistive Electric Circuits
Ohm’s Law 00:07:00
Example – Ohm’s Law (1 of 2) 00:03:00
Example – Ohm’s Law (2 of 2) 00:03:00
Circuit Terminology 00:03:00
Kirchhoff’s Current Law (KCL) 00:03:00
Example – Kirchhoff’s Current Law (KCL) 00:07:00
Kirchhoff’s Voltage Law (KVL) 00:07:00
Example – Kirchhoff’s Voltage Law (KVL) 00:04:00
Voltage Division 00:05:00
Example – Voltage Division 00:05:00
Current Division 00:06:00
Example – Current Division 00:06:00
Series Resistors 00:06:00
Example – Series Resistors 00:04:00
Parallel Resistors 00:08:00
Example – Parallel Resistors 00:05:00
Series/Parallel Combination of Resistors 00:04:00
Example – Series/Parallel Combination of Resistors (1 of 3) 00:06:00
Example – Series/Parallel Combination of Resistors (2 of 3) 00:08:00
Example – Series/Parallel Combination of Resistors (3 of 3) 00:10:00
Example – Resistive Circuit Analysis (1 of 3) 00:07:00
Example – Resistive Circuit Analysis (2 of 3) 00:09:00
Example – Resistive Circuit Analysis (3 of 3) 00:10:00
Nodal Analysis of DC Resistive Electric Circuits
Definition of Nodal Analysis 00:09:00
Example – Nodal Analysis with Independent Sources 00:12:00
Example – Nodal Analysis with Dependent Sources 00:13:00
Loop Analysis of DC Resistive Electric Circuits
Definition of Loop Analysis 00:12:00
Example – Loop Analysis with Independent Sources 00:11:00
Example – Loop Analysis with Dependent Sources 00:16:00
Advanced DC Electric Circuit Analysis Techniques
Superposition Theorem 00:04:00
Example – Superposition Theorem 00:04:00
Thévenin’s Theorem 00:03:00
Example – Thévenin’s Theorem (Part 1) 00:06:00
Example – Thévenin’s Theorem (Part 2) 00:06:00
Norton’s Theorem 00:08:00
Example – Norton’s Theorem 00:09:00
Capacitors and Their Uses in Electric Circuits and Electronics
Definition of Capacitors 00:02:00
Charge in a Capacitor 00:03:00
Current Through a Capacitor 00:02:00
Voltage Across a Capacitor 00:04:00
Energy Stored in a Capacitor 00:06:00
Series Capacitors 00:06:00
Parallel Capacitors 00:04:00
Series/Parallel Combination of Capacitors 00:03:00
Inductors and Their Uses in Electric Circuits and Electronics
Definition of Inductors 00:02:00
Voltage Across an Inductor 00:01:00
Current Through an Inductor 00:03:00
Series Inductors 00:03:00
Parallel Inductors 00:06:00
Series/Parallel Combination of Inductors 00:05:00
First Order Transient Electric Circuits
First-Order Transient Circuits – Introduction 00:07:00
Series RC Circuits 00:13:00
Assignment
Assignment -Electric Circuits for Electrical Engineering and Electronics 00:00:00
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