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In this course, students learn how to convert energy from one from to another as it is highly important in Electrical Engineering. Students also learn about the basic working principles of Motors, Generators and Transformers. Which are the fundamental electric devices in the transmission of Electrical Energy.

The syllabus can be found below for the first unit, as the course is updated, also the syllabus will be updated.

Unit 1 : Introduction to Electric Machinery

- Electric Machines, Transformers and Usage in Daily Life

- Rotational Motion (Basic of Electric Machines)

- Magnetic Field

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In this course, students learn how to convert energy from one from to another as it is highly important in Electrical Engineering. Students also learn about the basic working principles of Motors, Generators and Transformers. Which are the fundamental electric devices in the transmission of Electrical Energy.

The syllabus can be found below for the first unit, as the course is updated, also the syllabus will be updated.

Unit 1 : Introduction to Electric Machinery

- Electric Machines, Transformers and Usage in Daily Life

- Rotational Motion (Basic of Electric Machines)

- Magnetic Field

- Magnetic Circuit

- Magnetic Behaviors of Ferromagnetic Materials

- Energy Losses in Ferromagnetic Materials

- Faraday's Law

Unit 2 : Transformers

As it is estimated ; the course will be about 20+ hours.

Students can ask their questions any time they need help. Other than that, Afterclap Academy offers a free one-to-one lecture for a limited time. The purpose of this one to one lectures is to motivate students for the course and help them on their way to success.

Upon purchasing this course, you agreed to be a part of Afterclap Academy.

If you are new in your electrical engineering journey, we suggest you to check out our previous courses before enrolling this one.

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Afterclap Academy

Afterclap Academy aims to provide students an affordable education all around the globe. We believe in sincerity, so reach us any time you need even if you're not enrolled to one of our courses.

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Course teaches the basics of energy conversion, which is essential knowledge for electrical engineers
Provides a solid foundation in the fundamental principles of motors, generators, and transformers, which are core components in the transmission of electrical energy
Covers topics such as magnetic fields, magnetic circuits, and Faraday's law, which are crucial for understanding how electrical machines operate
Offers free one-on-one lectures for a limited time, providing additional support to students
May require students to have some prior knowledge in electrical engineering, as it builds upon foundational concepts

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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 Fundamentals of Electrical Transformers with these activities:
Assist at an Electric Vehicle Expo
Gain practical experience and connect with industry professionals by volunteering at an electric vehicle expo, observing the latest advancements and applications of electric machinery.
Browse courses on Electric Vehicles
Show steps
  • Contact event organizers to offer your assistance
  • Attend the expo and support attendees
  • Engage with exhibitors and learn about electric vehicle technologies
Explore Simulations of Electric Machines
Visualize and interact with electric machines through simulations, deepening your understanding of their behavior and performance.
Show steps
  • Find online simulations or software for electric machines
  • Run simulations to observe machine operation
  • Analyze simulation results and compare them with theoretical concepts
Review Electric Machinery Fundamentals
Reinforce your understanding of the basic principles of electric machines and their applications in electrical engineering.
View Melania on Amazon
Show steps
  • Read Chapter 1: Introduction to Electric Machines
  • Take notes on the types and applications of electric machines
  • Solve practice problems related to electric machine principles
Six other activities
Expand to see all activities and additional details
Show all nine activities
Solve Transformers Circuit Problems
Strengthen your problem-solving skills in transformer circuits, improving your understanding of transformer behavior and applications.
Browse courses on Transformers
Show steps
  • Review the principles of transformer operation
  • Practice solving circuit problems involving transformers
  • Analyze transformer performance characteristics
Discuss Transformer Applications in Power Systems
Engage with peers to explore real-world applications of transformers in power systems, broadening your understanding of their significance and impact.
Browse courses on Transformers
Show steps
  • Prepare by researching transformer applications
  • Join a study group or online forum
  • Participate in discussions and share insights
Build a Simple DC Motor
Apply your knowledge of electric machinery by building a functional DC motor, enhancing your comprehension of motor construction and operation.
Browse courses on DC Motors
Show steps
  • Gather materials such as magnets, wire, and a battery
  • Follow instructions or design your own DC motor
  • Test and troubleshoot your motor
Develop an Infographic on Faraday's Law
Enhance your understanding and communication skills by creating a visual representation of Faraday's Law, summarizing its key concepts and applications.
Show steps
  • Gather information and research Faraday's Law
  • Design an engaging and informative infographic
  • Present your infographic to classmates or online
Contribute to an Open-Source Electric Machine Library
Enhance your practical skills and contribute to the community by participating in an open-source electric machine library, gaining exposure to real-world projects and industry standards.
Show steps
  • Find an open-source electric machine library
  • Review the documentation and contribute code
  • Collaborate with other developers on the project
Participate in an Electric Machine Design Challenge
Challenge yourself and showcase your skills by participating in an electric machine design competition, pushing the boundaries of innovation and enhancing your problem-solving abilities.
Show steps
  • Identify and register for a relevant competition
  • Develop your design concept and specifications
  • Build and test your prototype

Career center

Learners who complete Fundamentals of Electrical Transformers will develop knowledge and skills that may be useful to these careers:
Substation Engineer
Substation Engineers design, construct, and maintain electrical substations. A comprehensive understanding of transformers is critical for Substation Engineers, as transformers are the core components of substations. This course provides a thorough foundation in transformer principles and applications, enabling Substation Engineers to excel in their roles.
Transmission and Distribution Engineer
Transmission and Distribution Engineers design, construct, and maintain electrical power transmission and distribution systems. A deep understanding of transformers is critical in this field, as transformers play a vital role in the efficient transmission and distribution of electrical power. This course provides a comprehensive foundation in transformer principles and applications, enabling Transmission and Distribution Engineers to excel in their roles.
Power Systems Engineer
A Power Systems Engineer's responsibilities include the design, operation, and maintenance of power systems. A thorough understanding of transformers is crucial in this field, as transformers play a vital role in the transmission and distribution of electrical power. The course provides a comprehensive overview of transformer principles, enabling Power Systems Engineers to make informed decisions and ensure the efficient operation of power systems.
Power Plant Operator
Power Plant Operators monitor and control the operation of power plants. A thorough understanding of transformers is crucial for Power Plant Operators, as transformers are essential components in power generation and transmission systems. This course provides a comprehensive overview of transformer principles and applications, enabling Power Plant Operators to ensure the safe and efficient operation of power plants.
Distribution Engineer
Distribution Engineers plan, design, and maintain electrical distribution systems. A good understanding of transformers is crucial for Distribution Engineers, as transformers are essential components in power distribution networks. This course provides a solid foundation in transformer principles and applications, enabling Distribution Engineers to effectively plan, design, and manage distribution systems.
Researcher
Researchers conduct scientific research to advance knowledge and technology. A deep understanding of transformers may be beneficial for Researchers working in the field of electrical engineering or power systems. This course provides a comprehensive foundation in transformer principles and applications, enabling Researchers to effectively conduct research and contribute to the advancement of knowledge in this area.
Maintenance Engineer
Maintenance Engineers ensure the upkeep and reliability of electrical systems. Knowledge of transformers is essential for Maintenance Engineers working in power plants, substations, or industrial facilities. This course provides a solid foundation in transformer principles, enabling Maintenance Engineers to diagnose and resolve issues effectively, ensuring the smooth operation of electrical systems.
Controls Engineer
As a Controls Engineer, one may design, implement, and test control systems for various applications. This course provides a solid foundation in the fundamentals of electricaltransformers, which are critical components in electrical control systems. Understanding the working principles of transformers will enable Controls Engineers to design and optimize control systems effectively.
Power Electronics Engineer
Power Electronics Engineers design, develop, and test power electronic circuits and systems. A strong understanding of transformers is beneficial for Power Electronics Engineers, as transformers are commonly used in power conversion and conditioning applications. This course provides an overview of transformer principles and applications, enabling Power Electronics Engineers to effectively utilize transformers in their designs.
Field Service Engineer
Field Service Engineers install, maintain, and repair electrical equipment in various industries. A basic understanding of transformers is beneficial for Field Service Engineers working with electrical power systems or industrial equipment. This course provides an introduction to transformer principles and applications, enabling Field Service Engineers to effectively troubleshoot and resolve issues related to transformers.
Electrical Contractor
Electrical Contractors install, maintain, and repair electrical systems in residential, commercial, and industrial buildings. A basic understanding of transformers is beneficial for Electrical Contractors, as transformers are commonly used in power distribution systems. This course provides an introduction to transformer principles and applications, enabling Electrical Contractors to work safely and efficiently with these components.
Design Engineer
Design Engineers are involved in the design and development of various products and systems. This course may be beneficial for Design Engineers working in fields such as electrical engineering, power electronics, or renewable energy, where transformers are commonly used components. The course provides insights into the principles and applications of transformers, helping Design Engineers optimize their designs and improve system performance.
Project Engineer
Project Engineers manage and execute electrical engineering projects. A basic understanding of transformers is advantageous for Project Engineers involved in projects related to power transmission, distribution, or industrial automation. This course provides an overview of transformer basics, enabling Project Engineers to effectively evaluate project requirements and make informed decisions during project execution.
Electrical Inspector
Electrical Inspectors ensure the safety and compliance of electrical installations. A basic understanding of transformers is advantageous for Electrical Inspectors, as transformers are commonly used in electrical systems. This course provides an introduction to transformer principles and applications, enabling Electrical Inspectors to effectively evaluate the safety and compliance of electrical installations.
Consultant
Consultants provide expert advice and support to clients in various industries. A basic understanding of transformers may be beneficial for Consultants working in the power sector or related fields. This course provides an overview of transformer principles and applications, enabling Consultants to effectively evaluate and advise clients on transformer-related matters.

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 Fundamentals of Electrical Transformers.
This textbook provides comprehensive coverage of electrical machines, drives and power systems in a clear and concise manner. It is suitable as a textbook for 3rd and 4th-year undergraduate electrical engineering students.
This textbook provides a comprehensive introduction to power system analysis and design, covering topics such as power flow, fault analysis, protection, and stability.
This textbook provides a comprehensive overview of power quality issues in electrical power systems, covering topics such as voltage sags and swells, harmonics, and electromagnetic interference.
This textbook provides a comprehensive introduction to electric machinery fundamentals, covering topics such as DC machines, AC machines, and transformers.
This textbook provides a comprehensive overview of electric power distribution systems, covering topics such as distribution system planning, design, and operation.
This textbook provides a comprehensive overview of electric power transmission systems, covering topics such as transmission line design, analysis, and protection.
This textbook provides a comprehensive overview of power system engineering, covering topics such as power generation, transmission, distribution, and utilization.
This textbook provides a comprehensive overview of power system protection, covering topics such as relaying, circuit breakers, and fuses.
This textbook provides a comprehensive overview of power system analysis, covering topics such as load flow analysis, fault analysis, and stability analysis.
This textbook provides a comprehensive overview of electric power substations, covering topics such as substation design, construction, and operation.
This textbook provides a comprehensive overview of electric machines and power systems, covering topics such as DC machines, AC machines, and power transmission.
This textbook provides a comprehensive overview of power system protection, covering topics such as relaying, circuit breakers, and fuses.
This textbook provides a comprehensive overview of transformers, covering topics such as transformer design, construction, and testing.
This textbook provides a comprehensive overview of power system dynamics and stability, covering topics such as transient stability, voltage stability, and frequency stability.

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