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Dr. Bonnie H. Ferri
and
Dr. Joyelle Harris
This course explains how to analyze circuits that have alternating current (AC) voltage or current sources. Circuits with resistors, capacitors, and inductors are covered, both analytically and experimentally. Some practical applications in sensors are demonstrated.
Register for this course and see more details by visiting:
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What's inside
Syllabus
Module 1: AC Circuit Analysis
This module describes how to analyze circuits with sinusoidal inputs
Module 2: Frequency Reponse
The description goes here
Read more
Syllabus
Module 1: AC Circuit Analysis
This module describes how to analyze circuits with sinusoidal inputs
Module 2: Frequency Reponse
The description goes here
Read more
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Explores how to analyze circuits with alternating current (AC) voltage or current sources, which is standard in electrical engineering
Taught by Dr. Bonnie H. Ferri and Dr. Joyelle Harris, who are recognized for their work in electrical engineering
Develops analytical and experimental skills in AC circuit analysis, which are core skills for electrical engineering
Demonstrates practical applications in sensors, which enhances its relevance to industry
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Reviews summary
Solid ac circuit analysis fundamentals
According to learners, this course on AC Analysis is a solid follow-up to Linear Circuits 1, covering core topics like phasors, impedance, and frequency response. Many found the instructor's explanations to be clear, helping to make complex concepts understandable. The homework assignments reinforce the material well, despite some finding them challenging. Key sections like filter design were particularly appreciated. However, some students felt the pace could be fast, especially the transition to complex numbers, and a few desired more hands-on examples beyond simulations. Overall, it effectively covers AC analysis topics but requires dedication and a strong math background.
Homework aids understanding despite difficulty.
"The homework assignments were challenging but reinforced the material well."
"Homework reinforced concepts perfectly."
"Assignments were hard."
Effective follow-up to Linear Circuits 1.
"It built perfectly on Linear Circuits 1. Highly recommend for anyone serious about electrical engineering."
"Really solid follow-up to LC1. The focus on frequency response was great..."
"A good course overall for learning AC analysis... Requires dedication due to the complexity of the subject."
Complex topics made understandable.
"The instructor explained complex concepts like phasors and impedance very clearly."
"The clarity of the lectures, especially on frequency domain analysis, was superb."
"Everything from impedance to power factor correction was covered thoroughly. The instructor made complex topics understandable."
More practical examples/labs requested.
"Would have liked more real-world applications or hands-on examples beyond simulations."
"Expected more experimental labs or demos."
Speed felt too quick for some learners.
"Some lectures were a bit dry, and the pace felt fast at times..."
"Pace was too fast for me. The jump from DC in LC1 to AC with phasors was significant..."
"Needed external resources to fully grasp it."
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 Linear Circuits 2: AC Analysis with these
activities:
Review basic concepts of electricity and magnetism
Show steps
Revisiting the fundamental concepts of electricity and magnetism will provide a solid foundation for understanding AC circuit analysis.
Browse courses on
Electricity
Show steps
-
Go over your notes or textbook chapters on electricity and magnetism.
-
Solve practice problems to reinforce your understanding.
Review vectors, matrices, and complex numbers
Show steps
Review these mathematical concepts to refresh your memory and strengthen your algebraic skills, which are essential for understanding AC circuit analysis.
Browse courses on
Complex Numbers
Show steps
-
Go over your notes or textbook chapters on vectors, matrices, and complex numbers.
-
Solve practice problems to reinforce your understanding.
Follow online tutorials on AC circuit analysis
Show steps
Explore online resources and tutorials to supplement your understanding of AC circuit analysis concepts and techniques.
Browse courses on
AC Circuit Analysis
Show steps
-
Search for reputable online tutorials on AC circuit analysis.
-
Follow the tutorials step-by-step and take notes.
-
Try out the practice exercises and quizzes provided in the tutorials.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Solve practice problems on AC circuit analysis
Show steps
Engage in regular practice to improve your problem-solving skills and solidify your understanding of AC circuit analysis concepts.
Browse courses on
AC Circuit Analysis
Show steps
-
Find practice problems in your textbook or online resources.
-
Attempt to solve the problems on your own.
-
Check your solutions against the answer key or consult with your instructor.
Create flashcards or a concept map on AC circuit analysis
Show steps
Creating flashcards or a concept map can help you organize and retain information, improving your understanding of AC circuit analysis concepts.
Browse courses on
AC Circuit Analysis
Show steps
-
Identify key concepts and terms in AC circuit analysis.
-
Create flashcards or a concept map that visually represents the relationships between these concepts.
-
Regularly review your flashcards or concept map to reinforce your memory.
Join a study group or form a peer learning group for AC circuit analysis
Show steps
Collaborating with peers can enhance your understanding of AC circuit analysis concepts through discussions and shared perspectives.
Browse courses on
AC Circuit Analysis
Show steps
-
Reach out to classmates or join an existing study group focused on AC circuit analysis.
-
Attend study sessions regularly and actively participate in discussions.
-
Work together to solve problems and clarify concepts.
Design and build a simple AC circuit
Show steps
Hands-on experience in designing and building an AC circuit can deepen your understanding of the concepts and their practical applications.
Browse courses on
AC Circuit Analysis
Show steps
-
Research different types of AC circuits and their applications.
-
Design a simple AC circuit based on your research.
-
Gather the necessary components and build the circuit.
-
Test the circuit and analyze the results.
Review basic concepts of electricity and magnetism
Show steps
Revisiting the fundamental concepts of electricity and magnetism will provide a solid foundation for understanding AC circuit analysis.
Browse courses on
Electricity
Show steps
Show steps
Show steps
- Go over your notes or textbook chapters on electricity and magnetism.
- Solve practice problems to reinforce your understanding.
Review vectors, matrices, and complex numbers
Show steps
Review these mathematical concepts to refresh your memory and strengthen your algebraic skills, which are essential for understanding AC circuit analysis.
Browse courses on
Complex Numbers
Show steps
Show steps
Show steps
- Go over your notes or textbook chapters on vectors, matrices, and complex numbers.
- Solve practice problems to reinforce your understanding.
Follow online tutorials on AC circuit analysis
Show steps
Explore online resources and tutorials to supplement your understanding of AC circuit analysis concepts and techniques.
Browse courses on
AC Circuit Analysis
Show steps
Show steps
Show steps
- Search for reputable online tutorials on AC circuit analysis.
- Follow the tutorials step-by-step and take notes.
- Try out the practice exercises and quizzes provided in the tutorials.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Solve practice problems on AC circuit analysis
Show steps
Engage in regular practice to improve your problem-solving skills and solidify your understanding of AC circuit analysis concepts.
Browse courses on
AC Circuit Analysis
Show steps
Show steps
Show steps
- Find practice problems in your textbook or online resources.
- Attempt to solve the problems on your own.
- Check your solutions against the answer key or consult with your instructor.
Create flashcards or a concept map on AC circuit analysis
Show steps
Creating flashcards or a concept map can help you organize and retain information, improving your understanding of AC circuit analysis concepts.
Browse courses on
AC Circuit Analysis
Show steps
Show steps
Show steps
- Identify key concepts and terms in AC circuit analysis.
- Create flashcards or a concept map that visually represents the relationships between these concepts.
- Regularly review your flashcards or concept map to reinforce your memory.
Join a study group or form a peer learning group for AC circuit analysis
Show steps
Collaborating with peers can enhance your understanding of AC circuit analysis concepts through discussions and shared perspectives.
Browse courses on
AC Circuit Analysis
Show steps
Show steps
Show steps
- Reach out to classmates or join an existing study group focused on AC circuit analysis.
- Attend study sessions regularly and actively participate in discussions.
- Work together to solve problems and clarify concepts.
Design and build a simple AC circuit
Show steps
Hands-on experience in designing and building an AC circuit can deepen your understanding of the concepts and their practical applications.
Browse courses on
AC Circuit Analysis
Show steps
Show steps
Show steps
- Research different types of AC circuits and their applications.
- Design a simple AC circuit based on your research.
- Gather the necessary components and build the circuit.
- Test the circuit and analyze the results.
Career center
Learners who complete Linear Circuits 2: AC Analysis will develop knowledge and skills
that may be useful to these careers:
Teacher
Teacher
Teachers educate students in a variety of subjects, including science, technology, engineering, and math (STEM). Some of the technical skills involved include analyzing circuits, understanding STEM concepts, and teaching students. Linear Circuits 2: AC Analysis helps build a foundation for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Technical Writer
Technical Writer
Technical Writers create technical documentation, such as user manuals, technical reports, and white papers. Some of the technical skills involved include analyzing circuits, understanding technical concepts, and writing and editing technical documentation. Linear Circuits 2: AC Analysis provides a foundation for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Electronics Engineer
Electronics Engineer
Electronics Engineers design and develop electronic circuits, devices, and systems. Some of the technical skills involved in this field include analyzing circuits, designing circuit layouts, and testing and troubleshooting electronic systems. The course Linear Circuits 2: AC Analysis helps build a foundation for this career as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Technical Sales Engineer
Technical Sales Engineer
Technical Sales Engineers sell technical products and services to businesses. Some of the technical skills involved include analyzing circuits, understanding technical products and services, and selling to businesses. Linear Circuits 2: AC Analysis provides a foundation for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Test Engineer
Test Engineer
Test Engineers design and conduct tests to ensure that products meet specifications. Some of the technical skills involved include analyzing circuits, designing test plans, and testing and troubleshooting products. Linear Circuits 2: AC Analysis provides a foundation for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Power Systems Engineer
Power Systems Engineer
Power Systems Engineers design, operate, and maintain electrical power systems. Some of the technical skills involved include analyzing circuits, designing power systems, and supervising the operation and maintenance of electrical power systems. Linear Circuits 2: AC Analysis provides a foundation for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Research and Development Engineer
Research and Development Engineer
Research and Development Engineers conduct research and development to develop new technologies and products. Some of the technical skills involved include analyzing circuits, designing new technologies, and testing and troubleshooting new products. Linear Circuits 2: AC Analysis can help build a foundation for this career as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Patent Attorney
Patent Attorney
Patent Attorneys prepare and file patent applications, and prosecute patents before the United States Patent and Trademark Office (USPTO). Some of the technical skills involved include analyzing circuits, understanding patent law, and writing and filing patent applications. Linear Circuits 2: AC Analysis provides a foundation for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Control Systems Engineer
Control Systems Engineer
Control Systems Engineers design and develop control systems for a variety of applications, such as industrial automation, robotics, and aerospace. Some of the technical skills involved include analyzing circuits, designing control systems, and testing and troubleshooting control systems. Linear Circuits 2: AC Analysis helps build a foundation for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Product Manager
Product Manager
Product Managers manage the development and marketing of products. Some of the technical skills involved include analyzing circuits, understanding product development and marketing, and managing product teams. Linear Circuits 2: AC Analysis may be useful for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Signal Processing Engineer
Signal Processing Engineer
Signal Processing Engineers design and develop signal processing systems for a variety of applications, such as audio processing, image processing, and communications. Some of the technical skills involved include analyzing circuits, designing signal processing systems, and testing and troubleshooting signal processing systems. Linear Circuits 2: AC Analysis may be useful for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Product Design Engineer
Product Design Engineer
Product Design Engineers design and develop new products. Some of the technical skills involved in this field include analyzing circuits, designing products, and testing and troubleshooting products. Linear Circuits 2: AC Analysis may be useful for this career as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Forensic Engineer
Forensic Engineer
Forensic Engineers investigate accidents and failures to determine the cause. Some of the technical skills involved include analyzing circuits, designing experiments, and testing and troubleshooting systems. Linear Circuits 2: AC Analysis may be useful for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Science Writer
Science Writer
Science Writers communicate scientific and technical information to the public. Some of the technical skills involved include analyzing circuits, understanding scientific concepts, and writing and editing scientific and technical content. Linear Circuits 2: AC Analysis may be useful for this role as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
Electrical Engineer
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation and maintenance of electrical systems and components. Some of the technical skills involved include analyzing circuits, designing circuit layouts, and supervising the fabrication and testing of electrical systems. Linear Circuits 2: AC Analysis may be useful for this career as it covers topics such as analyzing circuits with sinusoidal inputs, frequency response, filters, power, and transformers.
For more career information including salaries, visit:
OpenCourser.com/course/t30hl2/linear
Reading list
We've selected nine 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
Linear Circuits 2: AC Analysis .
Focuses specifically on AC circuit analysis, covering topics such as sinusoidal steady-state analysis, frequency response, and power in AC circuits. It would be a valuable reference for this course.
This comprehensive textbook covers a wide range of topics in electrical engineering, including AC circuit analysis. It valuable resource for students who want a deeper understanding of the subject.
This comprehensive textbook covers a wide range of topics in electric circuits, including AC analysis. It good resource for students who want a deeper understanding of the subject.
Classic resource for students who want to review and practice AC circuit analysis concepts.
Save
Provides a practical approach to circuit analysis, covering a wide range of topics including AC circuit analysis. It good choice for students who want to learn how to apply circuit analysis concepts to real-world problems.
This comprehensive textbook covers a wide range of topics in electrical engineering, including AC circuit analysis. It valuable resource for students who want a deeper understanding of the subject.
Provides a solid foundation in the basics of electric circuits, including AC analysis. It good background resource for this course.
Save
Provides a solid foundation in the basics of linear circuit analysis, including AC analysis. It good background resource for this course.
This introductory textbook provides a good overview of AC circuit analysis, making it a suitable choice for students who are new to the subject.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/t30hl2/linear
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Level
Intermediate
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Institution
Georgia Institute of Technology
Instructors
Dr. Bonnie H. Ferri
Dr. Joyelle Harris
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