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This course is designed to provide a complete overview of electric circuit analysis used in electrical engineering and electronics engineering. Electric circuit analysis is the most fundamental concept for electrical engineering, electronics engineering, and computer engineering. It is for that reason that electric circuit analysis is usually the first course taught in electrical, electronics, and computer engineering programs at universities, as basically anything related to electrical, electronics, or computer engineering stems from electric circuit analysis.

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This course is designed to provide a complete overview of electric circuit analysis used in electrical engineering and electronics engineering. Electric circuit analysis is the most fundamental concept for electrical engineering, electronics engineering, and computer engineering. It is for that reason that electric circuit analysis is usually the first course taught in electrical, electronics, and computer engineering programs at universities, as basically anything related to electrical, electronics, or computer engineering stems from electric circuit analysis.

In this course you will learn everything about electric circuits and electronics, from the basics such as what an electric circuit is and the fundamentals of electrical quantities like voltage, current, and power, all the way to complex techniques for analyzing electric and electronics circuits. The course is roughly divided into the following sections:

1. Fundamentals of Electric Circuits and Electronics: in sections 2 and 3 of the course, we will discuss what an electric circuit is at the most basic level, followed by explanations of electrical quantities and sources of electricity. This is the foundation for electrical engineering and electronics engineering.

2. Basic DC Electric Circuit Analysis: in sections 4, 5, and 6 we will discuss the analysis of direct current (DC) circuits, starting from basic analysis techniques such as Kirchhoff's voltage law and Kirchhoff's current law (KVL and KCL), voltage division, current division, nodal analysis, and loop analysis. We will also be discussing how complex resistive circuits can be simplified into equivalent circuits for easier analysis of electric circuits and electronics.

3. Advanced DC Electric Circuit Analysis: in section 7, we will discuss advanced analysis techniques for electric circuits and electronics such as the superposition theorem, Thevenin's theorem, and Norton's theorem.

4. Energy-Storing Devices in Electric Circuits and Electronics: in sections 8, and 9, we will discuss passive components in circuits that are able to store energy: capacitors and inductors. We will cover the fundamentals of capacitors and inductors, how they store energy, and how to simplify complex circuits containing combinations of capacitors and inductors into simpler circuits for easier analysis of electric circuits and electronics.

5. Transients in Electric Circuits and Electronics: in section 10, we will discuss the analysis of first-order electric circuits during transients. This is where things start getting a bit more advanced, but we will solve several examples to illustrate how circuits behave during transients, as opposed to the stead-state circuits previously discussed.

In each section, several examples are solved to illustrate how to analyze practical circuits.

By learning all the fundamentals about electric circuit analysis and electronics, you will be able to continue studying other topics in electrical engineering, electronics engineering, and computer engineering, such as analog electronics, digital electronics, circuit design, electric machines, power systems, and more.

Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear.

See you in the course.

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Good to know

Know what's good
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Provides a comprehensive grounding in fundamental electrical engineering concepts, from basic electrical quantities to advanced analysis techniques
Covers a wide array of topics, making it suitable for both beginners and intermediate learners looking to strengthen their foundation in electric circuit analysis
Teaches practical skills and techniques through numerous solved examples, ensuring learners can apply their knowledge to real-world scenarios
Offers a 30-day money-back guarantee, providing learners with peace of mind and the opportunity to try the course risk-free
Instructor is readily available to answer questions and provide support throughout the course, enhancing the learning experience

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Electric Circuits for Electrical Engineering and Electronics with these activities:
Review the textbook for electric circuit analysis
Provide you with a comprehensive overview of the concepts covered in the course.
Show steps
  • Read the assigned chapters before each lecture
  • Take notes and highlight important points
  • Solve the practice problems at the end of each chapter
Create flashcards or a cheat sheet on electric circuit analysis concepts
Help you condense key concepts and formulas into a concise and easily accessible format.
Show steps
  • Identify the most important concepts and formulas
  • Write them down on flashcards or a cheat sheet
  • Review the flashcards or cheat sheet regularly to reinforce your memory
Watch video tutorials on electric circuit analysis
Provide you with visual explanations and demonstrations to reinforce your understanding of concepts.
Show steps
  • Search for tutorials on specific topics you need help with
  • Take notes and pause the videos to reflect on the concepts
  • Try to apply the concepts you learn to solve practice problems
Five other activities
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Show all eight activities
Practice solving DC electric circuit problems
Help you build a strong foundation in DC circuit analysis and improve your problem-solving skills.
Show steps
  • Find practice problems from textbooks or online resources
  • Start by solving simple problems to build confidence
  • Gradually move on to more complex problems to challenge yourself
Join a study group for electric circuit analysis
Allow you to collaborate with peers, discuss concepts, and solve problems together.
Show steps
  • Find a study group or create one with classmates
  • Set regular meeting times to discuss course material
  • Take turns presenting concepts and solving problems
  • Encourage active participation and ask questions
Solve advanced DC electric circuit problems
Challenge your understanding of advanced DC circuit analysis techniques.
Show steps
  • Find practice problems from textbooks or online resources
  • Start by solving simpler problems to build confidence
  • Gradually move on to more complex problems to challenge yourself
Design and simulate an electric circuit using software
Allow you to apply your knowledge to practical circuit design and simulation.
Show steps
  • Choose a circuit to design and simulate
  • Select appropriate software for circuit simulation
  • Design and enter the circuit in the software
  • Run simulations and analyze the results
  • Document your design and simulation process in a report
Contribute to open-source projects related to electric circuit analysis
Expose you to real-world applications of circuit analysis and enhance your practical skills.
Show steps
  • Identify open-source projects related to electric circuit analysis
  • Review the project documentation and codebase
  • Identify areas where you can contribute your skills
  • Submit pull requests or issue reports to the project

Career center

Learners who complete Electric Circuits for Electrical Engineering and Electronics will develop knowledge and skills that may be useful to these careers:
Electronics Engineer
Electronics engineers develop and design electronic components, devices, systems, and equipment. As this course is focused on electric circuit analysis for electronics engineering, it is a prime choice for those looking to learn the fundamentals of this role's tasks.
Power Systems Engineer
Power systems engineers design, develop, and operate electrical power systems. This includes the generation, transmission, and distribution of electricity. A strong foundation in electric circuits is a must for power systems engineers.
Electrical Engineer
Designing, developing, testing, and supervising the installation of electrical equipment and systems involves a deep understanding of electric circuits. This course can help current and aspiring electrical engineers build a foundation in electric circuits that will better prepare them for success.
Control Systems Engineer
Control systems engineers design, develop, and test control systems used in a variety of industries, such as manufacturing, transportation, and energy. An understanding of electric circuits is essential for this role.
Computer Hardware Engineer
Computer hardware engineers research, design, develop, and test computer systems and components, such as circuit boards, microprocessors, and memory devices. The fundamentals of electric circuits and electronics covered in this course provide a key foundation for this role.
Researcher
Researchers conduct scientific research to advance knowledge in a particular field. They may work in academia, industry, or government. A background in electric circuits and electronics can be helpful for researchers who work in these fields.
Consultant
Consultants provide advice and expertise to businesses and organizations on a variety of topics. A background in electric circuits and electronics can be helpful for consultants who work in the electrical or electronics industries.
Energy Auditor
Energy auditors assess the energy efficiency of buildings and make recommendations for improvements. A background in electric circuits and electronics can be helpful for energy auditors who work in the electrical or electronics industries.
Application Engineer
Application engineers provide technical support to customers who use a company's products or services. They also work with sales teams to help close deals. A background in electric circuits and electronics is often required for application engineers who work in the electrical or electronics industries.
Entrepreneur
Entrepreneurs start and run their own businesses. They may develop new products or services, or they may provide consulting or other services to businesses and organizations. A background in electric circuits and electronics can be helpful for entrepreneurs who start businesses in these industries.
Sales Engineer
Sales engineers sell technical products and services to businesses. They work with customers to understand their needs and recommend solutions. A background in electric circuits and electronics can be helpful for sales engineers who work in these industries.
Product Manager
Product managers are responsible for the development and marketing of a company's products. They work with engineers, designers, and marketers to bring products to market. A background in electric circuits and electronics can be helpful for product managers who work in the electrical or electronics industries.
Patent Attorney
Patent attorneys help inventors obtain patents for their inventions. They also advise clients on patent law and strategy. A background in electric circuits and electronics can be helpful for patent attorneys who work in these fields.
Teacher
Teachers develop and deliver lesson plans and teach students in a variety of academic subjects, including math, science, and engineering. A background in electric circuits and electronics can be helpful for teachers who teach these subjects.
Technical Writer
Technical writers create instruction manuals, technical reports, and other documents that explain complex technical information to a variety of audiences. A background in electric circuits and electronics can be helpful for technical writers who work in these industries.

Reading list

We've selected eight books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Electric Circuits for Electrical Engineering and Electronics.
Is another popular textbook that provides a comprehensive overview of electric circuits. It is well-written and easy to follow, making it an excellent choice for beginners.
Classic textbook that provides a comprehensive overview of electric circuits. It is well-written and easy to follow, making it an excellent choice for beginners. The book covers a wide range of topics, from basic concepts to advanced analysis techniques.
Well-written and easy-to-follow textbook that provides a comprehensive overview of electric circuits. It good choice for beginners who want to learn the basics of electric circuits.
Well-written and easy-to-follow introduction to electric circuits. It good choice for beginners who want to learn the basics of electric circuits.
Well-written and easy-to-follow textbook that provides a comprehensive overview of electric circuits. It good choice for beginners who want to learn the basics of electric circuits.
Comprehensive textbook that covers a wide range of topics in electric circuits and networks. It good choice for students who want to learn more about electric circuits and networks.
Comprehensive textbook that covers a wide range of topics in electric circuits. It good choice for students who want to learn more about electric circuits.
Popular study guide that provides a wealth of practice problems and solutions. It good choice for students who want to improve their understanding of electric circuits.

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