Electric Circuits for Electrical Engineering and Electronics
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1 Year
Access -
Intermediate
Skill Level -
Course Certificate
Certificate -
64
Units -
0
Quizzes -
5 hours, 47 minutes
Duration
Course Overview
Get to know about the skills you need to maintain and handle electrical circuits from this course. This course will give you and a complete overview of electrical circuit analysis and assist you to take the first step to be an electrical engineer.
This course will give a clear idea about the fundamentals of electrical engineering and electronics. You will learn about the difference between direct and alternating current, the functions of resistors, capacitors and inductors. This course will help you to understand electric circuit analysis techniques easily and familiarize you with different theorem and their use.
The easily understandable module will help you to grasp the topics and memorize them. You will be able to understand the function of electric circuits and their use after completing this course.
Bonus Features Included:
- Free Transcript
- Free CPD Accredited PDF Certificate
- FREE Course: IT: Learn the Art and Science of PCB Design with Eagle Software
- FREE Course: Power Electronics for Electrical Engineering
Learning Outcomes
- Learn about the fundamentals of electrical engineering
- Familiarize with electrical circuits and electronics and their functions
- Understand how to calculate the quantity of voltage and current
- Know about resistors, capacitors and inductors and how they are used
- Learn about the differences between direct and alternating current
- Familiarize with basic electrical circuit analysis techniques
- Be able to analyze first-order electric circuits during transients
Who is this course for?
This comprehensive Electric Circuits for Electrical Engineering and Electronics is ideal for those who want to learn about electrical circuits. This course will help you to learn the skills to be an electrical engineer.
Entry Requirement
- This course is available to all learners, of all academic backgrounds.
- Learners should be aged 16 or over to undertake the qualification.
- Good understanding of English language, numeracy and ICT are required to attend this course.
Certification
- After you have successfully completed the course, you will be able to obtain an Accredited Certificate of Achievement. You can however also obtain a Course Completion Certificate following the course completion without sitting for the test. Certificates can be obtained either in hardcopy at the cost of £39 or in PDF format at the cost of £24.
- PDF certificate’s turnaround time is 24 hours, and for the hardcopy certificate, it is 3-9 working days.
Why choose us?
- Affordable, engaging & high-quality e-learning study materials;
- Tutorial videos/materials from the industry-leading experts;
- Study in a user-friendly, advanced online learning platform;
- Efficient exam systems for the assessment and instant result;
- The UK & internationally recognized accredited qualification;
- Access to course content on mobile, tablet or desktop from anywhere anytime;
- The benefit of career advancement opportunities;
- 24/7 student support via email.
Career Path
Electric Circuits for Electrical Engineering and Electronics is a useful qualification to possess and would be beneficial for any related profession or industry such as:
- Electricians
- Electrical Engineering’s
- Residential Managers
- Estate Supervisors
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Definition of Electric Circuit 00:03:00 -
Electric Charge and Electric Current 00:03:00
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Alternating Current (AC) Vs Direct Current (DC) 00:02:00
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Definition of Voltage 00:02:00
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Electrical Energy and Voltage 00:02:00
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Definition of Power 00:02:00
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Quiz 1 Solutions 00:02:00
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Independent Sources 00:02:00
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Example – Independent Sources 00:04:00
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Dependent Sources 00:03:00
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Example – Dependent Sources 00:03:00
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Ohm’s Law 00:07:00
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Example – Ohm’s Law (1 of 2) 00:03:00
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Example – Ohm’s Law (2 of 2) 00:03:00
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Circuit Terminology 00:03:00
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Kirchhoff’s Current Law (KCL) 00:03:00
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Example – Kirchhoff’s Current Law (KCL) 00:07:00
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Kirchhoff’s Voltage Law (KVL) 00:07:00
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Example – Kirchhoff’s Voltage Law (KVL) 00:04:00
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Voltage Division 00:05:00
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Example – Voltage Division 00:05:00
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Current Division 00:06:00
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Example – Current Division 00:06:00
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Series Resistors 00:06:00
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Example – Series Resistors 00:04:00
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Parallel Resistors 00:08:00
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Example – Parallel Resistors 00:05:00
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Series/Parallel Combination of Resistors 00:04:00
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Example – Series/Parallel Combination of Resistors (1 of 3) 00:06:00
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Example – Series/Parallel Combination of Resistors (2 of 3) 00:08:00
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Example – Series/Parallel Combination of Resistors (3 of 3) 00:10:00
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Example – Resistive Circuit Analysis (1 of 3) 00:07:00
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Example – Resistive Circuit Analysis (2 of 3) 00:09:00
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Example – Resistive Circuit Analysis (3 of 3) 00:10:00
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Definition of Nodal Analysis 00:09:00
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Example – Nodal Analysis with Independent Sources 00:12:00
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Example – Nodal Analysis with Dependent Sources 00:13:00
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Definition of Loop Analysis 00:12:00
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Example – Loop Analysis with Independent Sources 00:11:00
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Example – Loop Analysis with Dependent Sources 00:16:00
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Superposition Theorem 00:04:00
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Example – Superposition Theorem 00:04:00
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Thévenin’s Theorem 00:03:00
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Example – Thévenin’s Theorem (Part 1) 00:06:00
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Example – Thévenin’s Theorem (Part 2) 00:06:00
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Norton’s Theorem 00:08:00
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Example – Norton’s Theorem 00:09:00
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Definition of Capacitors 00:02:00
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Charge in a Capacitor 00:03:00
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Current Through a Capacitor 00:02:00
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Voltage Across a Capacitor 00:04:00
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Energy Stored in a Capacitor 00:06:00
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Series Capacitors 00:06:00
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Parallel Capacitors 00:04:00
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Series/Parallel Combination of Capacitors 00:03:00
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Definition of Inductors 00:02:00
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Voltage Across an Inductor 00:01:00
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Current Through an Inductor 00:03:00
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Series Inductors 00:03:00
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Parallel Inductors 00:06:00
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Series/Parallel Combination of Inductors 00:05:00
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First-Order Transient Circuits – Introduction 00:07:00
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Series RC Circuits 00:13:00
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