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This course is ideal for Electrical, Electronics, Instrumentation, Biomedical, and Robotic Engineering Students.

After completing the course, if you want to learn more advanced concepts of electronics then I recommend you enroll in my courses.

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This course is ideal for Electrical, Electronics, Instrumentation, Biomedical, and Robotic Engineering Students.

After completing the course, if you want to learn more advanced concepts of electronics then I recommend you enroll in my courses.

I divided this course into two parts. In the first part, you will be learning some basic concepts of current electricity in great depth and an introduction to thinkercad software. After completing 1st part you will start 2nd part and in that, you will be learning the complex circuitry and its simulation on the thinkercad software. I will not only teach you the traditional methods to solve complex circuitry but at the same time, I will also provide you with some shortcut tricks which help you to solve that circuit quickly.

Part-1:- Current Electricity and introduction to the Thinkercad software

1) Difference between conductors and insulators

2) What is a current?

3) What is a resistor and how to find its value?

4) What is Voltage?

5) What is power and how we can calculate it?

6) Difference between Ac and Dc Circuits?

7) Ohm's Law with experiment

8) Series and Parallel circuits + Numericals

After lecture 7th you will be introduced to the thinkercad software.

Part 2:- Electrical Circuits and its simulation in Thinkercad software

1) What are nodes meshes and loops?

2) KVL and KCL rule

3) Mesh analysis

4) Supermesh analysis

5) Nodal analysis

6) Voltage and Current divider rule

7) Thevenin's Law

8) Norton's Law

Simulation on Thinkercad Software

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Develops a strong foundation in basic concepts of current electricity
Ideal for Electrical, Electronics, Instrumentation, Biomedical, and Robotic Engineering Students
Features a comprehensive study of basic concepts of current electricity
The course offers a structured and progressive learning approach
Introduces learners to the basics of Tinkercad software
Teaches techniques to solve complex circuitry using traditional methods and shortcut tricks

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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 Learn Current Electricity in depth & Basics of DC Circuits with these activities:
Review Basic Electrical Concepts
Refresh your knowledge of basic electrical concepts to ensure you have a strong foundation for the course.
Show steps
  • Review your notes or textbook from a previous electricity course.
  • Solve practice problems on basic electrical concepts.
  • Take a short quiz or assessment to test your understanding.
Learn Thinkercad Software Basics
Gain familiarity with Thinkercad software, which you will use for circuit simulations in the course.
Browse courses on Circuit Simulation
Show steps
  • Watch introductory tutorials on Thinkercad.
  • Complete the Thinkercad beginner's course.
  • Create a simple circuit simulation in Thinkercad.
Solve Circuit Problems
Enhance your problem-solving skills by practicing circuit analysis and solving numerical problems.
Browse courses on Circuit Analysis
Show steps
  • Collect practice problems from the course material or online resources.
  • Solve the problems step-by-step, showing all your work.
  • Check your answers against provided solutions or ask for feedback from the instructor.
Three other activities
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Show all six activities
Attend a Circuit Analysis Workshop
Reinforce your understanding through hands-on practice and expert guidance in a circuit analysis workshop.
Browse courses on Circuit Analysis
Show steps
  • Find and register for a relevant workshop.
  • Attend the workshop and actively participate in the activities.
  • Apply what you learn to your course assignments and projects.
Design and Simulate a Circuit
Apply your knowledge by designing and simulating a circuit in Thinkercad, deepening your understanding of circuit behavior.
Browse courses on Circuit Design
Show steps
  • Choose a specific circuit design or problem to solve.
  • Design the circuit schematic in Thinkercad.
  • Simulate the circuit and analyze the results.
  • Write a report summarizing your design and simulation findings.
Participate in a Circuit Design Competition
Challenge yourself and showcase your skills by participating in a circuit design competition, fostering innovation and critical thinking.
Browse courses on Circuit Design
Show steps
  • Identify and register for an appropriate competition.
  • Form a team or work individually to develop a circuit design.
  • Submit your design and present it to the judges.

Career center

Learners who complete Learn Current Electricity in depth & Basics of DC Circuits will develop knowledge and skills that may be useful to these careers:
Electrical Engineer
As an Electrical Engineer, you design, develop, test, and supervise the installation of electrical systems and equipment. The concepts in this course on current electricity, DC circuits, and simulation software provide a valuable foundation for understanding various aspects of electrical engineering, which involve working with similar principles and technologies.
Electronics Engineer
Electronics Engineers research, design, develop, and test electronic components and systems. The course's focus on current electricity, circuit analysis, and simulation software aligns well with the responsibilities of an Electronics Engineer, who needs a strong understanding of electrical principles and circuit behavior.
Electrical Technician
Electrical Technicians install, maintain, and repair electrical systems and equipment. The course's comprehensive coverage of current electricity, DC circuits, and simulation software provides a strong foundation for understanding the principles and practices involved in electrical maintenance and troubleshooting.
Instrumentation Engineer
Instrumentation Engineers design, install, maintain, and repair instrumentation and control systems used in various industries. The course's emphasis on electrical principles, circuit analysis, and simulation aligns well with the technical requirements of Instrumentation Engineers, who work with similar electrical systems and technologies.
Power Systems Engineer
Power Systems Engineers design, operate, and maintain electrical power systems, ensuring reliable and efficient delivery of electricity. This course provides a solid foundation in current electricity, DC circuits, and electrical system analysis, which are essential concepts for understanding and working with power systems.
Renewable Energy Engineer
Renewable Energy Engineers design, install, and maintain renewable energy systems, such as solar and wind power systems. The course's coverage of electrical principles, circuit analysis, and simulation software equips learners with the knowledge and skills needed to work with electrical systems in renewable energy applications.
Controls Engineer
Controls Engineers design, implement, and maintain control systems for various industrial processes and machinery. This course provides a foundation in electrical principles, circuit analysis, and simulation, which are essential for understanding and working with electrical components and systems used in control engineering.
Telecommunications Engineer
Telecommunications Engineers design, install, maintain, and repair telecommunications networks and equipment. The course's focus on electrical principles, circuit analysis, and simulation software provides a solid foundation for understanding the electrical aspects of telecommunications systems and technologies.
Biomedical Engineer
Biomedical Engineers design, develop, and evaluate biomedical devices and systems used in healthcare. This course provides a foundation in electrical principles, circuit analysis, and simulation, which are essential for understanding and working with electrical components and systems used in biomedical engineering applications.
Robotic Engineer
Robotic Engineers design, build, and maintain robots and robotic systems. This course provides a foundation in electrical principles, circuit analysis, and simulation, which are essential for understanding and working with electrical components and systems used in robotics applications.
Physics Teacher
Physics Teachers teach physics at the high school or college level. This course may be helpful for Physics Teachers who want to enhance their understanding of current electricity, DC circuits, and simulation software, which are topics commonly taught in physics curricula.
Science Writer
Science Writers communicate scientific and technical information to the public. This course may be helpful for Science Writers who want to develop a better understanding of current electricity, DC circuits, and simulation software, enabling them to more effectively explain these concepts in their writing.
Technical Writer
Technical Writers create technical documentation, such as manuals, instructions, and reports. This course may be helpful for Technical Writers who need to understand electrical principles, circuit analysis, and simulation software in order to effectively write about technical topics in these areas.
Project Manager
Project Managers plan, execute, and close projects, ensuring their successful completion. This course may be helpful for Project Managers who work on projects involving electrical systems or components, as it provides a foundation in electrical principles, circuit analysis, and simulation.
Sales Engineer
Sales Engineers provide technical expertise to customers and help them select and purchase products or services. This course may be helpful for Sales Engineers who work in the electrical industry, as it provides a foundation in electrical principles, circuit analysis, and simulation, enabling them to better understand and communicate the capabilities of electrical products.

Reading list

We've selected 14 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 Learn Current Electricity in depth & Basics of DC Circuits.
This textbook provides a comprehensive and rigorous treatment of the principles of linear circuit analysis and design, with a focus on the application of circuit analysis techniques to real-world problems. It valuable reference for students and professionals who need a deeper understanding of linear circuit analysis and design.
This textbook provides a detailed and rigorous treatment of the principles of DC circuit analysis, including circuit theorems, network analysis, and circuit simulation. It valuable reference for students and professionals who need a deeper understanding of DC circuit analysis.
This textbook provides a detailed and rigorous treatment of the principles of circuit analysis and design, with a focus on the application of circuit analysis techniques to real-world problems. It valuable reference for students and professionals who need a deeper understanding of circuit analysis and design.
This textbook provides a comprehensive and rigorous treatment of the principles of electronic devices and circuits, with a focus on the application of electronic devices and circuits to real-world problems. It valuable reference for students and professionals who need a deeper understanding of electronic devices and circuits.
This textbook provides a comprehensive and rigorous treatment of the principles of microelectronics, with a focus on the application of microelectronics techniques to real-world problems. It valuable reference for students and professionals who need a deeper understanding of microelectronics.
This textbook provides a thorough introduction to the fundamental concepts of electric circuits, including circuit analysis, circuit theorems, and circuit simulation. It commonly used textbook in introductory circuit analysis courses at academic institutions.
This textbook provides a comprehensive overview of the principles and applications of electrical engineering, covering topics such as circuit analysis, power systems, and electronics. It valuable reference for students and professionals in the field.
This textbook provides a comprehensive overview of the principles of electric circuits and networks, including circuit analysis, circuit theorems, and network synthesis. It valuable reference for students and professionals in the field.
This textbook provides a clear and concise introduction to the principles of electric circuits, focusing on the application of circuit analysis techniques to real-world problems. It commonly used textbook in introductory circuit analysis courses at academic institutions.
Provides a clear and concise introduction to the principles of operational amplifiers, with a focus on the application of operational amplifiers to real-world problems. It valuable reference for students and professionals who need a deeper understanding of operational amplifiers.
Provides a clear and concise introduction to the principles of electronics, with a focus on the application of electronics to real-world projects. It valuable reference for students and professionals who need a deeper understanding of electronics.
Provides a clear and concise introduction to the principles of electronics, with a focus on the application of electronics to real-world projects. It valuable reference for students and professionals who need a deeper understanding of electronics.
Provides a clear and concise introduction to the principles of electronics, with a focus on the application of electronics to everyday life. It valuable reference for students and professionals who need a deeper understanding of electronics.

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