Rice University - Physics 102 - Magnetic Fields and Faraday's Law
- Offered byCoursera
Physics 102 - Magnetic Fields and Faraday's Law at Coursera Overview
Duration | 26 hours |
Start from | Start Now |
Total fee | Free |
Mode of learning | Online |
Official Website | Explore Free Course  |
Credential | Certificate |
Physics 102 - Magnetic Fields and Faraday's Law at Coursera Highlights
- Flexible deadlines Reset deadlines in accordance to your schedule Shareable Certificate Earn a Certificate upon completion 100% online Start instantly and learn at your own schedule Course 3 of 4 in the Introduction to Electricity and Magnetism Specialization
Physics 102 - Magnetic Fields and Faraday's Law at Coursera Course details
- This course serves as an introduction to the physics of electricity and magnetism
- 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
- They will gain experience in solving physics problems with tools such as graphical analysis, algebra, vector analysis, and calculus
- 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
- Each module 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 series is similar in detail and rigor to what is taught on-campus. It will thoroughly prepare learners for their upcoming introductory physics courses, or more advanced courses in physics.
Physics 102 - Magnetic Fields and Faraday's Law at Coursera Curriculum
Magnetic Fields
The Big Picture
Bar Magnets and Pseudoscience
Magnetic Dipoles
Oersted's Demonstration
B Near a Wire
Moving Charge
Right Hand Rule
Magnetic Field Unit
Deflecting Charged Particles
Circular Motion Demonstration
Radius of Circular Motion
Frequency of Circular Motion
Bouncing an Electron off a Magnetic Field 1
Bouncing an Electron off a Magnetic Field 2
A Microscopic Unit for Energy
Bouncing from E Fields and B Fields
Non-Uniform Magnetic Field
Preramble
Setting Up the Problem
Solution for a Straight Wire
Solution for a Curved Wire
Force on a Square Loop
The Loop Moves!
Torque on a Square Loop: Qualitative
A Review of Torque
Torque on a Square Loop: Derivation
Torque on a Triangular Loop
Magnetic Dipole Moment of a Loop
Potential Energy of a Loop
Top Ten List
Welcome!
Grading Philosophy and Advice
University Physics
University Physics
University Physics
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University Physics
A Wire's Field
Which Poles?
Straight Wire and Loop
Flying Proton
Circular Motion?
Cartesian Motion
ANY Circumstance?
Force on a Wire
Dog Door
Resistive Loop
Magnetic Fields Homework
Sources of B
Magnetic Field from Current
Magnetic Field of a Straight Wire: Set Up
Magnetic Field of a Straight Wire: Solution
Magnetic Field of a Straight Wire: 3D Structure
Magnetic Field at the Center of a Current Loop
Magnetic Field off Axis from a Current Loop
Creating the Ampere
Statement of Ampere's Law
Ampere's Law for a Straight Wire
Several Amperian Loops
The Valentine's Day Monopole
The Ideal Solenoid
Amperian Loops Around the Solenoid
Ampere's Law Around the Solenoid
Magnetic Fields of a Toroid
Just Another Day in Houston
University Physics
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University Physics
Two Wires
Arc-Loop
Parallel Wires
Five Wires
Do You Believe?
Toroid and Loop
Sources of B Homework
Faraday's Law
Historical Reenactment
Faraday's Law
Induction by a Moving Charge
Induction Due to Changes in Geometry
Move a Conductor in a Magnetic Field
Move a Wire Loop in a Uniform Magnetic Field
Move a Slider in a Uniform Magnetic Field
Damping the Moving Slider
Statement of Lenz's Law
Use of Lenz's Law
Energy of Lenz's Law
Induced Current Loops also Flow in Solids
Examples of Eddy Currents
What if There is No Loop or Block?
Updating Faraday's Law
Induced Electric Currents
How Does Nature Pick the Loop?
Introduction to the Generator
Power Created by a Generator
Mechanically Powering a Generator
Top Ten List
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University Physics
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Deformable Loop
The Approaching Bar Magnet
Hanging by a Thread
Another Slider
Eddy Energy
Neutral Wire
Faraday's Law Homework
Exam
Exam
Physics 102 - Magnetic Fields and Faraday's Law at Coursera Admission Process
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