![]() ![]() So what that really means is everywhere you go in space, the electric field vectors look the same. So let's make sure we all agree on what a uniform, Field means, okay? So I'll often say, we have a uniform e-field. It's interesting and we like to write problems about So one thing about this is often we'll start with a uniform field. So let's do a charged particle, Forces and motion. Now, that we have electric fields and how they create forces on particles, we can start to mix it with kinematics. It will thoroughly prepare learners for their upcoming introductory physics courses, or more advanced courses in physics. This comprehensive course series is similar in detail and rigor to what is taught on-campus. ![]() Once the modules are completed, the course ends with an exam. Each module contains reading links to a free textbook, complete video lectures, conceptual quizzes, and a set of homework problems. The course follows the typical progression of topics of a first-semester university physics course: charges, electric forces, electric fields potential, magnetic fields, currents, magnetic moments, electromagnetic induction, and circuits. They will gain experience in solving physics problems with tools such as graphical analysis, algebra, vector analysis, and calculus. ![]() Upon completion, learners will have an understanding of how the forces between electric charges are described by fields, and how these fields are related to electrical circuits. This course serves as an introduction to the physics of electricity and magnetism. ![]()
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