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this course covers four main ideas:

1- skills to solve and simplify single source circuits ( ohm's law , power concept , Voltage and current division

2- methods to solve any complex resistive circuits with multiple sources.

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this course covers four main ideas:

1- skills to solve and simplify single source circuits ( ohm's law , power concept , Voltage and current division

2- methods to solve any complex resistive circuits with multiple sources.

3- Full discussion of natural and forced response for circuits with non-linear elements such as capacitors and induction .

4- Full discussion of circuit frequency domain , and how to apply the methods and skills explained earlier to solve those circuits.

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Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Develops advanced skills for advanced learners
Examines x, which is standard in industry y
Provides a strong foundation for beginners
Examines x, which is highly relevant to y

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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 Full course Circuit Analysis with these activities:
Review of basic circuit components
Solidifies understanding of Ohm's law and basic components
Show steps
  • Read the tutorial on basic circuit components
  • Complete the practice exercises
Compile a study guide for the course
Compiling a study guide will help you review the course material and identify areas where you need additional support.
Show steps
  • Review the course syllabus and lecture notes
  • Identify the key concepts and topics covered in the course
  • Summarize the key concepts and topics in your own words
  • Organize your summaries into a study guide
Ohm's Law Calculations
Develops proficiency in applying Ohm's law to analyze circuits
Browse courses on Ohm's Law
Show steps
  • Solve Ohm's law problems
  • Analyze simple circuits using Ohm's law
  • Review Ohm's law concepts
Eight other activities
Expand to see all activities and additional details
Show all 11 activities
Find a mentor who can provide guidance on circuit analysis
Find a mentor who can help you answer questions about course material, provide guidance on career paths, and connect you with other professionals in the field.
Browse courses on Circuit Analysis
Show steps
  • Identify the skills and knowledge you want to gain from a mentor
  • Network with other students, professors, and professionals in the field
  • Ask for recommendations for potential mentors
  • Contact potential mentors and ask if they are willing to mentor you
Design a simple circuit diagram
Enhances understanding of circuit components and their connections
Browse courses on Circuit Design
Show steps
  • Choose a simple circuit design
  • Draw the circuit diagram using software or by hand
  • Label the components and their connections
  • Review the diagram for accuracy and clarity
Practice ohm's law
Practice applying Ohm's law to simple circuits to reinforce your understanding.
Browse courses on Ohm's Law
Show steps
  • Set up a simple circuit with a battery, resistor, and voltmeter
  • Measure the voltage across the resistor
  • Measure the current through the resistor
  • Calculate the resistance of the resistor using Ohm's law
Create a diagram of a complex resistive circuit
Creating a diagram of a complex resistive circuit will help you visualize the circuit and understand how the components are connected together.
Browse courses on Circuit Analysis
Show steps
  • Identify the components of the circuit
  • Draw a schematic diagram of the circuit
  • Label the components of the circuit
Watch a tutorial on solving natural and forced response for circuits with non-linear elements
Watching a tutorial can help you understand how to solve natural and forced response for circuits with non-linear elements.
Browse courses on Circuits
Show steps
  • Find a tutorial on solving natural and forced response for circuits with non-linear elements
  • Watch the tutorial
  • Take notes while watching the tutorial
Attend a workshop on circuit analysis
Attending a workshop will provide you with an opportunity to learn from experts, ask questions, and network with other students.
Browse courses on Circuit Analysis
Show steps
  • Find a workshop on circuit analysis that fits your schedule and interests
  • Register for the workshop
  • Attend the workshop
Solve practice problems on circuit frequency domain
Solving practice problems will help you master the concepts of circuit frequency domain.
Show steps
  • Find a set of practice problems on circuit frequency domain
  • Solve the practice problems
  • Check your answers with the provided solutions
Participate in a circuit design competition
Participating in a competition will challenge you to apply your skills and knowledge to solve a real-world problem.
Browse courses on Circuit Design
Show steps
  • Find a circuit design competition that fits your interests and skills
  • Read the competition rules and requirements
  • Design and build your circuit
  • Submit your circuit to the competition

Career center

Learners who complete Full course Circuit Analysis will develop knowledge and skills that may be useful to these careers:
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation and maintenance of electrical systems. They use their knowledge of physics and engineering to analyze and solve problems, and to create new and innovative products.
Electronics Engineer
Electronics Engineers are responsible for designing, developing, testing, and supervising the manufacture of electronic equipment. They use their knowledge of physics and engineering to analyze and solve problems, and to create new and innovative products.
Computer Hardware Engineer
Computer Hardware Engineers design, develop, test, and supervise the manufacture of computer hardware. They use their knowledge of physics and engineering to analyze and solve problems, and to create new and innovative products.
Systems Engineer
Systems Engineers are responsible for the design, development, and implementation of complex systems. They use their knowledge of engineering and computer science to analyze and solve problems, and to create new and innovative products.
Software Engineer
Software Engineers design, develop, test, and maintain software systems. They use their knowledge of computer science and engineering to analyze and solve problems, and to create new and innovative products.
Computer Scientist
Computer Scientists are responsible for the design and development of computer software and systems. They use their knowledge of computer science and engineering to analyze and solve problems, and to create new and innovative products.
Industrial Engineer
Industrial Engineers are responsible for the design, improvement, and installation of integrated systems for managing industrial processes. They use their knowledge of engineering and computer science to analyze and solve problems, and to create new and innovative products.
Data Scientist
Data Scientists are responsible for the collection, analysis, and interpretation of data. They use their knowledge of statistics, computer science, and engineering to analyze and solve problems, and to create new and innovative products.
Operations Research Analyst
Operations Research Analysts are responsible for the analysis and optimization of complex systems. They use their knowledge of mathematics, computer science, and engineering to analyze and solve problems, and to create new and innovative products.
Manufacturing Engineer
Manufacturing Engineers are responsible for the design, development, and implementation of manufacturing processes. They use their knowledge of engineering and computer science to analyze and solve problems, and to create new and innovative products.
Chemist
Chemists are responsible for the study of the composition, structure, properties, and reactions of matter. They use their knowledge of chemistry and physics to analyze and solve problems, and to create new and innovative products.
Statistician
Statisticians are responsible for the collection, analysis, and interpretation of data. The use their knowledge of statistics and mathematics to analyze and solve problems, and to create new and innovative products.
Mathematician
Mathematicians are responsible for the study of the properties and relationships of numbers, quantities, and structures. They use their knowledge of mathematics and logic to analyze and solve problems, and to create new and innovative products.
Materials Scientist
Materials Scientists are responsible for the development and characterization of new materials. They use their knowledge of chemistry, physics, and engineering to analyze and solve problems, and to create new and innovative products.
Physicist
Physicists are responsible for the study of the fundamental laws of nature. They use their knowledge of physics and mathematics to analyze and solve problems, and to create new and innovative products.

Reading list

We've selected 11 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 Full course Circuit Analysis.
This textbook provides a comprehensive introduction to power system analysis and design. It is suitable for advanced undergraduate and graduate students, as well as professionals in the field.
This textbook provides a comprehensive introduction to microelectronic circuits, covering both the theoretical foundations and practical applications. It is suitable for advanced undergraduate and graduate students, as well as professionals in the field.
This classic textbook provides a comprehensive and up-to-date treatment of microwave engineering. It is suitable for advanced undergraduate and graduate students, as well as professionals in the field.
This textbook provides a comprehensive introduction to electric machinery, covering both the theoretical foundations and practical applications. It is suitable for advanced undergraduate and graduate students, as well as professionals in the field.
This textbook provides a comprehensive introduction to solid state electronic devices, covering both the theoretical foundations and practical applications. It is suitable for advanced undergraduate and graduate students, as well as professionals in the field.
This textbook provides a comprehensive introduction to operating system concepts, covering both the theoretical foundations and practical applications. It is suitable for advanced undergraduate and graduate students, as well as professionals in the field.
This textbook provides a comprehensive treatment of electromagnetism, covering both the theoretical foundations and practical applications. It is suitable for advanced undergraduate and graduate students, as well as professionals.
This textbook provides a comprehensive introduction to control systems engineering, covering both the theoretical foundations and practical applications. It is suitable for advanced undergraduate and graduate students, as well as professionals.
This textbook provides a comprehensive introduction to computer architecture, covering both the theoretical foundations and practical applications. It is suitable for advanced undergraduate and graduate students, as well as professionals in the field.
Bietet a thorough introduction to circuit analysis, with a focus on problem-solving techniques and practical applications. It is commonly used as a textbook for undergraduate courses.
This textbook provides a comprehensive introduction to digital signal processing, with a focus on practical applications using MATLAB. It is suitable for advanced undergraduate and graduate students, as well as professionals.

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