| 1 - AI-Based Magnetic Navigation in Autonomous Vehicles A Case Study.html | 34.7 KB | ||
| 1 - Advanced applications of magnetostatics.html | 20 KB | ||
| 1 - Applications of Magnetostatics with an AI Approach.html | 38.2 KB | ||
| 1 - Integration with Future AI Trends in Magnetostatics.html | 21 KB | ||
| 1 - The Future of AI and Magnetostatics.html | 25.2 KB | ||
| 1 - The Transformative Impact of AI-Assisted Magnetostatics Across Industries.html | 51.4 KB | ||
| 1 -Basic information Electrostatics.mp4 | 195 MB | ||
| 1 -Maxwell's 1st equation.mp4 | 135.5 MB | ||
| 1 -Time varying electric and magnetic fields.mp4 | 75.3 MB | ||
| 1 -Welcome & Introduction.mp4 | 228.5 MB | ||
| 10 -Biot-Savert's law.mp4 | 88.7 MB | ||
| 2 - Material.html | 44.6 KB | ||
| 2 - Over view of course.html | 8.3 KB | ||
| 2 -Bridge course Basics.mp4 | 195 MB | ||
| 2 -Faraday's laws.mp4 | 75.3 MB | ||
| 2 -Maxwell's 2nd equation.mp4 | 90.6 MB | ||
| 3 - Material.html | 51.6 KB | ||
| 3 -Basic information Gauss law in electrostatics.mp4 | 135.5 MB | ||
| 3 -Maxwell's 3rd equation.mp4 | 111 MB | ||
| 3 -integral and differential form of Faraday'S LAWS.mp4 | 75.3 MB | ||
| 4 -Basic information Maxwell's first equation.mp4 | 135.5 MB | ||
| 4 -Maxwell's 3rd equation.mp4 | 122.1 MB | ||
| 4 -Maxwell's 4th equation.mp4 | 122.1 MB | ||
| 5 -Introduction of Magnetostatics.mp4 | 55.9 MB | ||
| 5 -Lenz's law.mp4 | 55.5 MB | ||
| 5 -Physical significance of Maxwell's equations.mp4 | 105.5 MB | ||
| 6 - Magnetostatics Clear and Detailed Notes.html | 23.8 KB | ||
| 6 -Basic information Flipped class.mp4 | 195 MB | ||
| 6 -Displacement current.mp4 | 122.1 MB | ||
| 6 -Electromagnetic wave and wave equation.mp4 | 162.3 MB | ||
| 7 -Ampere's law.mp4 | 70.6 MB | ||
| 7 -Gauss law of Magnetostatics.mp4 | 90.6 MB | ||
| 8 -Maxwell's 4th equation.mp4 | 122.1 MB | ||
| 8 -Maxwell's first equation in differential and integral form.mp4 | 135.5 MB | ||
| 9 -Maxwell's second equation in differential form and integral form.mp4 | 90.7 MB | ||
| Bonus Resources.txt | 102.4 B | ||
| Get Bonus Downloads Here.url | 204.8 B | ||
| ▲ 37 total files | |||
Magnetostatics: Basics to cutting edge applications
https://WebToolTip.com
Published 5/2025
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 11h 0m | Size: 2.92 GB
Merging Traditional Electromagnetism with Artificial Intelligence for Next-Gen Solutions
What you'll learn
Describe the fundamental principles of magnetostatics, including Biot–Savart Law, Ampère’s Law, and magnetic boundary conditions, and explain their significance
pply core magnetostatic equations and vector field concepts to analyze magnetic field distributions in simple current-carrying systems, coils, and magnetic mate
Evaluate the performance of magnetic devices (e.g., sensors, transformers, magnetic shields) using analytical methods and simulations, and compare the effective
Design and develop AI-driven or simulation-based models for advanced magnetostatic applications such as magnetic levitation systems, biomedical targeting, or sm
Requirements
Requirements or Prerequisites This course is designed to be accessible to both beginners and intermediate learners. To get the most out of it, you should have: Basic knowledge of physics and mathematics A general understanding of concepts like electric current, vectors, and elementary calculus will be helpful but is not mandatory. An interest in electromagnetism or modern technologies Whether you're a student, a professional, or just curious, a passion for understanding how magnetic fields work will go a long way. A computer or laptop with internet access Required for viewing lectures, participating in interactive simulations, and exploring optional AI and modeling tools.
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