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Jason Hafner
This fourth course serves as an introduction to the physics of electricity and magnetism. Upon completion, learners will understand how mathematical laws and conservation principles describe fields and how these fields are related to electrical circuits. Learners will gain experience in solving physics problems with tools such as graphical analysis, algebra, vector analysis, and calculus. This fourth course covers AC circuits, Impedance, and Magnetism. Each of the two modules contains reading links to a free textbook, complete video lectures, conceptual quizzes, and a set of homework problems. Once the modules are completed, the course ends with an exam. This comprehensive course is similar in detail and rigor to those taught on-campus at Rice. It will thoroughly prepare learners for their upcoming introductory physics courses or more advanced courses in physics.
Register for this course and see more details by visiting:
OpenCourser.com/course/4mnkvs/physics
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What's inside
Syllabus
AC Circuits
Maxwell and Matter
Exam
Read more
Syllabus
AC Circuits
Maxwell and Matter
Exam
Read more
Good to know
Good to know
Know what's good ,
what to watch for , and
possible dealbreakers
Suitable for self-study as this course includes interactive materials like simulations and video demonstrations
Provides problem-solving guidance through homework problems and quizzes
Provides multiple modes of learning through video lectures, readings, and practice problems
Save this course
Save Physics 102 - AC Circuits and Maxwell's Equations to your list so you can find it easily later:
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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 Physics 102 - AC Circuits and Maxwell's Equations with these
activities:
Review prerequisite math concepts
Show steps
Start by reviewing the pertinent math skills that you'll need to succeed in this electricity and magnetism course
Browse courses on
Algebra
Show steps
-
Get a notebook and pen
-
Review your old notes
-
Do a few practice problems from each previous lesson
Read Serway and Jewett's Physics for Scientists and Engineers with Modern Physics
Show steps
This book provides a comprehensive overview of the topics covered in this course
View
Physics for Scientists and Engineers with...
on Amazon
Show steps
-
Get a copy of the book
-
Read the chapters that correspond to the week's lectures
-
Take notes as you read
Organize your course materials
Show steps
Keeping your course materials organized will help you to stay on top of the material and find what you need quickly
Show steps
-
Create a system for organizing your notes
-
Keep track of your assignments and due dates
-
Make use of online resources to supplement your learning
Five other activities
Expand to see all activities and additional details
Show all eight activities
Find a tutor or mentor
Show steps
Getting help from a tutor or mentor can give you personalized support and help you to overcome specific challenges
Browse courses on
AC Circuits
Show steps
-
Reach out to your professor or TA
-
Get recommendations from classmates
-
Interview potential tutors or mentors
Form a study group
Show steps
Studying with others can help you to learn the material more effectively
Browse courses on
AC Circuits
Show steps
-
Find a few classmates who are taking the same course
-
Set up a regular meeting time
-
Go over the lecture notes together
Solve physics problems
Show steps
Practice solving physics problems regularly to improve your understanding of the concepts
Browse courses on
AC Circuits
Show steps
-
Find a set of practice problems
-
Set a timer for 30 minutes
-
Solve as many problems as you can in 30 minutes
Create a study guide
Show steps
Creating a study guide will help you to organize your notes and improve your understanding of the material
Browse courses on
AC Circuits
Show steps
-
Identify the key concepts from each lecture
-
Write down the definitions and important formulas in your own words
-
Create practice problems to test your understanding
Watch video tutorials
Show steps
Watching video tutorials can supplement your learning and help you to understand the material in a different way
Browse courses on
AC Circuits
Show steps
-
Find video tutorials that cover the topics you are struggling with
-
Take notes while you watch the videos
-
Pause the videos and rewind if you need to
Review prerequisite math concepts
Show steps
Start by reviewing the pertinent math skills that you'll need to succeed in this electricity and magnetism course
Browse courses on
Algebra
Show steps
Show steps
Show steps
- Get a notebook and pen
- Review your old notes
- Do a few practice problems from each previous lesson
Read Serway and Jewett's Physics for Scientists and Engineers with Modern Physics
Show steps
This book provides a comprehensive overview of the topics covered in this course
View
Physics for Scientists and Engineers with...
on Amazon
Show steps
Show steps
Show steps
- Get a copy of the book
- Read the chapters that correspond to the week's lectures
- Take notes as you read
Organize your course materials
Show steps
Keeping your course materials organized will help you to stay on top of the material and find what you need quickly
Show steps
Show steps
Show steps
- Create a system for organizing your notes
- Keep track of your assignments and due dates
- Make use of online resources to supplement your learning
Five other activities
Expand to see all activities and additional details
Show all eight activities
Find a tutor or mentor
Show steps
Getting help from a tutor or mentor can give you personalized support and help you to overcome specific challenges
Browse courses on
AC Circuits
Show steps
Show steps
Show steps
- Reach out to your professor or TA
- Get recommendations from classmates
- Interview potential tutors or mentors
Form a study group
Show steps
Studying with others can help you to learn the material more effectively
Browse courses on
AC Circuits
Show steps
Show steps
Show steps
- Find a few classmates who are taking the same course
- Set up a regular meeting time
- Go over the lecture notes together
Solve physics problems
Show steps
Practice solving physics problems regularly to improve your understanding of the concepts
Browse courses on
AC Circuits
Show steps
Show steps
Show steps
- Find a set of practice problems
- Set a timer for 30 minutes
- Solve as many problems as you can in 30 minutes
Create a study guide
Show steps
Creating a study guide will help you to organize your notes and improve your understanding of the material
Browse courses on
AC Circuits
Show steps
Show steps
Show steps
- Identify the key concepts from each lecture
- Write down the definitions and important formulas in your own words
- Create practice problems to test your understanding
Watch video tutorials
Show steps
Watching video tutorials can supplement your learning and help you to understand the material in a different way
Browse courses on
AC Circuits
Show steps
Show steps
Show steps
- Find video tutorials that cover the topics you are struggling with
- Take notes while you watch the videos
- Pause the videos and rewind if you need to
Career center
Learners who complete Physics 102 - AC Circuits and Maxwell's Equations will develop knowledge and skills
that may be useful to these careers:
High School Physics Teacher
High School Physics Teacher
A High School Physics Teacher teaches physics to high school students. They develop lesson plans, grade papers, and provide feedback to students. This course would be very useful for aspiring High School Physics Teachers as it provides a comprehensive overview of the principles of physics, including electromagnetism.
College Physics Teacher
College Physics Teacher
A College Physics Teacher teaches physics to college students. They develop lesson plans, grade papers, and provide feedback to students. This course would be very useful for aspiring College Physics Teachers as it provides a comprehensive overview of the principles of physics, including electromagnetism.
University Physics Teacher
University Physics Teacher
A University Physics Teacher teaches physics to university students. They develop lesson plans, grade papers, and provide feedback to students. This course would be very useful for aspiring University Physics Teachers as it provides a comprehensive overview of the principles of physics, including electromagnetism.
Electronics Engineer
Electronics Engineer
An Electronics Engineer designs and develops electronic circuits, devices, and systems. They work with a variety of electronic components, such as transistors, resistors, and capacitors. This course may be useful for aspiring Electronics Engineers as it provides a foundation in the principles of electricity and circuits, as well as an introduction to the physics of magnetism.
Nuclear Engineer
Nuclear Engineer
A Nuclear Engineer designs, develops, and operates nuclear reactors and other nuclear systems. They also work on the development of nuclear weapons. This course may be useful for those interested in a career as a Nuclear Engineer as it provides a foundation in the principles of physics, including electromagnetism and nuclear physics.
Electrical Engineer
Electrical Engineer
An Electrical Engineer designs, develops, tests, and supervises the installation of electrical systems and components. They ensure that these systems meet safety standards and performance requirements. This course may be useful for those interested in a career as an Electrical Engineer as it provides a solid foundation in the principles of electricity and circuits.
Medical Physicist
Medical Physicist
A Medical Physicist applies the principles of physics to the diagnosis and treatment of disease. They work in a variety of settings, such as hospitals, clinics, and research institutions. This course may be useful for those interested in a career as a Medical Physicist as it provides a foundation in the principles of physics, including electromagnetism and the physics of matter.
Materials Scientist
Materials Scientist
A Materials Scientist studies the structure and properties of materials, and develops new materials for use in a variety of applications. This course may be useful for aspiring Materials Scientists as it provides a foundation in the principles of physics, including electromagnetism and the physics of matter.
Research Scientist
Research Scientist
A Research Scientist conducts scientific research to further scientific knowledge or develop new materials, products, processes, or services. They typically specialize in a particular area of science, such as physics, chemistry, biology, or engineering. This course may be useful for aspiring Research Scientists as it provides a foundation in the principles of physics, including electromagnetism.
Science Writer
Science Writer
A Science Writer writes about science and technology for a variety of audiences. They may work for newspapers, magazines, websites, or other publications. This course may be useful for aspiring Science Writers as it provides a foundation in the principles of physics, including electromagnetism. This knowledge can help them to accurately and clearly communicate scientific information to a general audience.
Technical Writer
Technical Writer
A Technical Writer creates instruction manuals, technical reports, and other documents that explain complex technical information. They may work for a variety of companies and organizations, such as software companies, engineering firms, and government agencies. This course may be useful for aspiring Technical Writers as it provides a foundation in the principles of physics, including electromagnetism. This knowledge can help them to understand and explain complex technical concepts.
Technical Consultant
Technical Consultant
A Technical Consultant provides advice and support to clients on a variety of technical issues. They may work for a variety of companies and organizations, such as consulting firms, software companies, and engineering firms. This course may be useful for aspiring Technical Consultants as it provides a foundation in the principles of physics, including electromagnetism. This knowledge can help them to understand and solve complex technical problems.
Patent Attorney
Patent Attorney
A Patent Attorney helps inventors to obtain patents for their inventions. They also advise clients on patent law and intellectual property rights. This course may be useful for aspiring Patent Attorneys as it provides a foundation in the principles of physics, including electromagnetism. This knowledge can be helpful when reviewing patent applications and advising clients on intellectual property matters.
Product Manager
Product Manager
A Product Manager is responsible for the development and marketing of a product. They work with engineers, designers, and marketing teams to ensure that the product meets the needs of customers. This course may be useful for aspiring Product Managers as it provides a foundation in the principles of physics, including electromagnetism. This knowledge can help them to understand the technical aspects of a product and to make informed decisions about product development and marketing.
Financial Analyst
Financial Analyst
A Financial Analyst provides investment advice to individuals and institutions. They analyze financial data and make recommendations on how to invest money. This course may be useful for aspiring Financial Analysts as it provides a foundation in the principles of physics, including electromagnetism. This knowledge can help them to understand the financial markets and to make informed investment decisions.
For more career information including salaries, visit:
OpenCourser.com/course/4mnkvs/physics
Reading list
We've selected 12 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
Physics 102 - AC Circuits and Maxwell's Equations.
Provides a comprehensive overview of the fundamentals of electric circuits and is commonly used as a textbook for introductory courses at academic institutions.
Focuses specifically on AC circuit analysis and provides in-depth coverage of topics such as impedance, resonance, and power factor.
Provides a comprehensive introduction to electromagnetism and is commonly used as a textbook for undergraduate courses at academic institutions.
Provides a comprehensive and advanced treatment of classical electromagnetism and is commonly used as a reference for researchers and professionals in the field.
Provides a comprehensive overview of electricity, magnetism, light, and elementary modern physics, and is commonly used as a textbook for introductory courses at academic institutions.
Provides a comprehensive overview of physics, including electricity and magnetism, and is commonly used as a textbook for introductory courses at academic institutions.
Provides a comprehensive treatment of electromagnetism and waves, with a focus on applications in electrical engineering.
Save
Provides a detailed treatment of electromagnetism with a focus on applications in areas such as antennas, waveguides, and electromagnetic interference.
Provides a rigorous and advanced treatment of electromagnetism with a focus on the fundamental principles and their applications in particle physics.
Save
Provides a rigorous and advanced treatment of electromagnetism with a focus on the fundamental principles and their applications in solid-state physics.
Provides a concise and straightforward introduction to the basic laws of electromagnetism.
Save
Provides a concise and straightforward introduction to the basic laws of electromagnetism.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/4mnkvs/physics
Share
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Effort
8 weeks, 5 hours per week
Level
Intermediate
Via
Coursera
Institution
Rice University
Instructor
Jason Hafner
Language
English
Transcripts
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This course belongs to a
collection
called
Introduction to Electricity and Magnetism. It's comprised of four courses:
- Physics 102 - Electric Potential and DC Circuits
- Physics 102 - Electric Charges and Fields
- Physics 102 - Magnetic Fields and Faraday's Law
- Physics 102 - AC Circuits and Maxwell's Equations (viewing)
Good to know
Suitable for self-study as this course includes interactive materials like simulations and video demonstrations
Provides problem-solving guidance through homework problems and quizzes
Provides multiple modes of learning through video lectures, readings, and practice problems
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