Physics - Electromagnetism - AP Physics from Udemy

This course covers the exciting topic of electromagnetism. How do magnets work? What happens when a current is place near a magnet? How can we use magnets to generate electricity? We will explore the concepts of magnetism, magnetic forces, electromagnetism (Faraday's and Lens' Laws), and EM waves.

The videos and resources will include lectures, demonstrations, and plenty of worked out example problems with High School physics curriculum and the AP Physics 1 curriculum in mind. This is perfect for any student planning to take the AP exam or any Introductory College physics student. While this course does not cover calculus based physics, any student enrolled in such course will still benefit from the ground work laid out here.

Upon completion of this course students should look to complete my other courses regarding the other content areas in AP Physics 1 and AP Physics 2.

What's inside

Learning objective

Understand the fundamentals of magnetism and electromagnetism.

Syllabus

Magnetism

1 - Magnetism Basics - AP Physics (College Physics) & Regents Physics (High Scho

Physics Course Online Course Map

2 - Magnetism - RHR1 & RHR2 - AP Physics (College Physics)

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Read about what's good

what should give you pause

and possible dealbreakers

Offers worked examples and demonstrations that align with high school and AP Physics 1 curricula, making it suitable for exam preparation and introductory college coursework

Provides a foundation in magnetism, magnetic forces, electromagnetism, and EM waves, which are essential concepts for further study in physics

Focuses on electromagnetism without calculus, which may require students to seek additional resources for calculus-based problem-solving in advanced physics courses

Explores magnetism, magnetic forces, and electromagnetism, which are foundational concepts for understanding motors, transformers, and electromagnetic waves

Recommends completing additional courses covering other content areas in AP Physics 1 and AP Physics 2, suggesting that this course is part of a larger series

Reviews summary

Solid foundation for ap electromagnetism

According to students, this course provides a positive and effective introduction to electromagnetism, particularly for those preparing for AP Physics or introductory college-level courses. Learners praise the clear explanations and worked examples which help make complex concepts understandable. The demonstrations are highlighted as a helpful visual aid. While the course lays a strong foundation, some reviewers feel that more practice problems would enhance the learning experience. Overall, it's considered a valuable resource for building foundational knowledge in electromagnetism.

Visual demos aid understanding.

"The demonstrations were a great visual aid to see the physics in action."

"Seeing the experiments helped connect the theory to real-world phenomena."

"Demonstrations clarified some of the more abstract magnetic concepts."

Builds strong foundational knowledge.

"It lays a solid foundation for understanding electromagnetism."

"This course is great for getting the basics down before moving to more advanced topics."

"It doesn't cover every single detail, but the core concepts are well explained."

Instructor teaches concepts effectively.

"The instructor is knowledgeable and explains things very well."

"I enjoyed the teaching style; it kept me engaged."

"You can tell the instructor understands how to break down physics for students."

Helpful for AP Physics and intro college.

"This course really helped me prepare for the electromagnetism section of the AP Physics exam."

"As an intro college student, this course solidified my understanding of the core principles."

"It covers the key concepts needed for a non-calculus based physics class."

"Definitely recommend if you're taking AP Physics 1 or 2."

Instructor explains concepts clearly.

"The instructor does a fantastic job explaining complex concepts in a way that's easy to grasp."

"Each video lecture broke down the topics step-by-step, which I really appreciated."

"I found the explanations very clear and easy to follow, even for difficult topics."

Could benefit from additional practice problems.

"While the examples were good, I felt I needed more practice problems to truly master the material."

"The course provides theory and examples, but you'll need external resources for more practice."

"I wish there were more quizzes or homework sets to test my understanding."

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 Physics - Electromagnetism - AP Physics with these activities:

Review Basic Circuit Analysis

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Reviewing basic circuit analysis will help you understand the behavior of current and voltage in electromagnetic systems.

Browse courses on Circuit Analysis

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Review Ohm's Law and Kirchhoff's Laws.
Practice solving simple series and parallel circuit problems.

Review 'Physics for Scientists and Engineers' by Serway and Jewett

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Reviewing this textbook will reinforce your understanding of the fundamental concepts of physics related to electromagnetism.

View Physics for Scientists and Engineers, Cengage... on Amazon

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Review the chapters on electricity and magnetism.
Work through the example problems in the book.

Read 'Electricity and Magnetism' by Purcell and Morin

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Reading this book will provide a more rigorous and complete understanding of electromagnetism.

View Electricity and Magnetism on Amazon

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Read the chapters related to magnetism and electromagnetism.
Work through the example problems in the book.

Four other activities

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Solve Magnetic Force Problems

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Practicing magnetic force problems will reinforce your understanding of the quantitative aspects of magnetism.

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Find practice problems online or in textbooks.
Solve problems involving magnetic forces on moving charges and current-carrying wires.
Check your answers and review the solutions.

Create a Presentation on Electromagnetic Induction

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Creating a presentation will help you synthesize and explain the concepts of electromagnetic induction.

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Research Faraday's Law and Lenz's Law.
Create slides explaining the principles of electromagnetic induction.
Include diagrams and examples to illustrate the concepts.
Present your findings to a friend or family member.

Build a Simple Electric Motor

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Building an electric motor will provide hands-on experience with the principles of electromagnetism.

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Research the components needed for a simple electric motor.
Gather the necessary materials.
Follow instructions to assemble the motor.
Test the motor and troubleshoot any issues.

Create a Simulation of Electromagnetic Waves

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Creating a simulation will deepen your understanding of the behavior of electromagnetic waves.

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Learn a simulation software or programming language.
Model the propagation of electromagnetic waves.
Visualize the electric and magnetic fields.
Experiment with different parameters and observe the effects.

Career center

Learners who complete Physics - Electromagnetism - AP Physics will develop knowledge and skills that may be useful to these careers:

Electrical Engineer

Electrical engineers design, develop, and test electrical equipment and systems. A role as an electrical engineer often involves working with electromagnetism, a core subject of this course. The course's focus on magnetism, magnetic forces, and electromagnetic induction directly builds a foundation for understanding how many electrical devices function and how electrical systems can be designed. The exploration of transformers and electromagnetic waves also helps build the understanding needed in this career. This course may be particularly useful to those on a path towards a career as an electrical engineer.

See salaries and explore the career path for Electrical Engineer

Telecommunications Engineer

Telecommunications engineers design, develop, and maintain telecommunications systems and networks. A telecommunications engineer uses electromagnetics in the design of telecommunications infrastructure. This course's exploration of electromagnetic waves is particularly relevant. The course will help build the understanding needed for those who want to work as a telecommunications engineer. The course's focus on magnetism and electromagnetic induction provide an essential foundation for those pursuing this field.

See salaries and explore the career path for Telecommunications Engineer

Physics Teacher

Physics teachers educate students on the fundamentals of physics. This course provides an overview of electromagnetism, including magnetism, magnetic forces, and electromagnetism. Aspiring physics teachers will find this course helpful as it reviews essential topics. The course's focus on high school and introductory college physics makes it particularly relevant for teachers preparing to teach these levels. This particular course may be useful for anyone considering becoming a physics teacher.

See salaries and explore the career path for Physics Teacher

Electronics Technician

Electronics technicians install, maintain, and repair electronic equipment. This involves a practical understanding of how circuits and electromagnetic devices work, which this course on electromagnetism helps build. The course's focus on magnetic forces, Faraday's law of induction, and electromagnetic waves directly applies to many tasks that an electronics technician might encounter. This course may be especially beneficial for an individual seeking a career as an electronics technician.

See salaries and explore the career path for Electronics Technician

Instrumentation Engineer

Instrumentation engineers design and develop instruments and control systems for various industries. The principles of electromagnetism which are covered in this course, such as magnetic forces and electromagnetic waves, are essential to understanding how many instruments work. This course may help those who want to work as an instrumentation engineer. An aspiring instrumentation engineer would benefit from the course's exploration of transformers and induced EMF.

See salaries and explore the career path for Instrumentation Engineer

Robotics Engineer

Robotics engineers design, build, and test robots for various applications. Electromagnetism is fundamental to many robotic systems. This course, which covers the basics of magnetism, magnetic forces, and electromagnetic induction, helps build that foundation. The course's exploration of motors and electromagnetic waves is also helpful for a robotics engineer to understand how robotic systems are often constructed and how they operate. This course may be beneficial for someone who wishes to become a robotics engineer.

See salaries and explore the career path for Robotics Engineer

Automotive Engineer

Automotive engineers design and develop vehicles, including their electrical and electronic systems. Electromagnetism is a key component in the design of hybrid and electric vehicles. The course’s exploration of magnets, forces, and electromagnetic waves will help an aspiring automotive engineer. This course, which explores the underlying physics, may be useful for anyone pursuing work as an automotive engineer.

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Research Scientist

Research scientists in physics conduct experiments and analyze data to deepen the understanding of fundamental physical concepts. The fundamentals of electromagnetism covered in this course may be helpful for aspiring physics research scientists. The course's exploration of magnetism, magnetic forces, electromagnetism, and electromagnetic waves builds a base for those who wish to explore cutting edge topics in physics research. This course may be particularly useful for those who want to pursue a career as a research scientist, often requiring an advanced degree.

See salaries and explore the career path for Research Scientist

Renewable Energy Specialist

Renewable energy specialists focus on sustainable energy solutions, including technologies that harness solar, wind, and other renewable resources. Electromagnetism is central to many renewable energy technologies, including those which generate electricity using magnets and currents. This course covering magnetism, magnetic forces, and electromagnetic induction, helps build an understanding of these concepts which often are used in green energy technology. This course may be useful for someone preparing for a career as a renewable energy specialist.

See salaries and explore the career path for Renewable Energy Specialist

Biomedical Engineer

Biomedical engineers design and develop medical equipment and devices. The principles of electromagnetism are used in many diagnostic and therapeutic devices. This course on magnetism and electromagnetic induction builds a base for understanding how many medical devices operate. The course's focus on transformers and electromagnetic waves may be particularly useful to a biomedical engineer who may be working on medical devices. This course may be useful for someone interested in this field.

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Materials Scientist

Materials scientists research and develop new materials with specific properties. Electromagnetism plays a role in how materials interact with electromagnetic fields. This course on magnetism, magnetic forces, and electromagnetic waves helps provide the fundamental knowledge needed. Materials scientists may find the topics of electromagnetism and its applications useful. This course may be helpful to anyone considering work as a materials scientist.

See salaries and explore the career path for Materials Scientist

Science Writer

Science writers communicate scientific findings to a broader audience. The course covers the fundamentals of electromagnetism, a crucial area of physics. A science writer covering science topics may need to write about these concepts, so this course may be helpful. The writer may need to discuss topics ranging from magnetism to magnetic forces to electromagnetic waves, and this course builds the foundation for this. This course may be of use to anyone considering work as a science writer.

See salaries and explore the career path for Science Writer

Software Developer

Software developers create software for various applications. While this job is not directly related to electromagnetism, software is often integrated into devices that rely on electromagnetism. In those cases, some familiarity can be useful. This course on the fundamental concepts of magnetism, magnetic forces, and electromagnetism may be useful to a software developer. For example, software is often used to control and analyze the data from devices that work on the principles covered in this course. This course may be of interest to a software developer.

See salaries and explore the career path for Software Developer

Data Analyst

Data analysts interpret data and identify trends, often within a business context. While electromagnetism is not directly relevant to the role of a data analyst, data is often gathered from devices that use electromagnetism. The course may help a data analyst contextualize the data. The course builds a foundation in the physics of electromagnetism, including magnetic forces and electromagnetic waves. This course may be useful to a data analyst who wishes to better understand the data they analyze.

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Patent Attorney

Patent attorneys specialize in legal matters related to intellectual property, notably inventions and patents. Some patents involve devices that use electromagnetism. This course gives a foundational knowledge of such concepts as magnetism, magnetic forces, and electromagnetic induction, and builds a familiarity with how they work. This familiarity may prove useful for a patent attorney. This course may be useful for anyone pursuing a career as a patent attorney.

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Physics - Electromagnetism - AP Physics

What's inside

Learning objective

Syllabus

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Reviews summary

Solid foundation for ap electromagnetism

Activities

Career center

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