Interface conditions describe the behaviour of electromagnetic fields; electric field, electric displacement field, and the magnetic field at the interface of two materials. The differential forms of these equations require that there is always an open neighbourhood around the point to which they are applied, otherwise the vector fields and H are not differentiable. In other words, the medium must be continuous. On the interface of two different media with different values for electrical permittivity and magnetic permeability, that condition does not apply. However, the interface conditions for the electromagnetic field vectors can be derived from the integral forms of Maxwell's equations. (Wikipedia).
Electromagnetic Boundary Conditions Explained
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From playlist Electromagnetics
Normal Magnetic Field Boundary Conditions
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From playlist Electromagnetics
Tangential Magnetic Field Boundary Conditions
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From playlist Electromagnetics
Fresnel Equations Part 1: The Boundary Conditions
The Fresnel Equations Part 3 of a series on electromagnetic radiation: The Fresnel Equations - deriving from Maxwell's equations the boundary conditions when EM radiation passes between two dielectrics and deriving the Fresnel equations which describe the proportion of the E vector which i
From playlist Electricity & Magnetism
Electric Field (2 of 3) Calculating the Magnitude and Direction of the Electric Field
Explains how to calculate the electric field of a charged particle and the acceleration of an electron in the electric field. You can see a listing of all my videos at my website, http://www.stepbystepscience.com An electric field is an area that surrounds an electric charge, and exerts f
From playlist Electricity and Magnetism
Electric Field (3 of 3) Calculating the Electric Field In Between Two Charges
Explains how to calculate the electric field between two charges and the acceleration of a charge in the electric field. You can see a listing of all my videos at my website, http://www.stepbystepscience.com An electric field is an area that surrounds an electric charge, and exerts force
From playlist Electricity and Magnetism
AWESOME Physics demonstrations. Electromagnetic forces on a carrying wire with explanation!
This equipment shows the electromagnetic force acting on two parallel current carrying wires. When the currents are in the same direction, there is an attraction force between the two wires. When the currents are in the opposite direction, there is a repulsion force between the two wires.
From playlist ELECTROMAGNETISM
Electric Field (1 of 3) An Explanation
Explains how to determine the direction and magnitude of the electric field from charged particles. You can see a listing of all my videos at my website, http://www.stepbystepscience.com An electric field is an area that surrounds an electric charge, and exerts force on other charges in t
From playlist Electricity and Magnetism
Normal Electric Field Boundary Conditions
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From playlist Electromagnetics
PHYS 201 | Light on Glass 5 - Maxwellian Boundary Conditions
Using Maxwell's Equations we find that the tangential components of the electric and magnetic fields are equal on both sides of the interface. This means at the tangential fields are continuous. -----Light and Glass playlist - https://www.youtube.com/playlist?list=PL9_sR6QqqcymZOwSp8hynhG
From playlist PHYS 201 | Light and Glass
12. EM Waves: Reflection at a Single Interface
MIT 2.57 Nano-to-Micro Transport Processes, Spring 2012 View the complete course: http://ocw.mit.edu/2-57S12 Instructor: Gang Chen License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT 2.57 Nano-to-Micro Transport Processes, Spring 2012
Lecture 3 (CEM) -- Electromagnetic Principles
This lecture steps the student through some random topics in electromagnetics that will be important in order to understand the upcoming numerical methods. It is not a review of electromagnetics, just select topics that will be important.
From playlist UT El Paso: CEM Lectures | CosmoLearning.org Electrical Engineering
Topological Effects due to Reflection of Light Beam by Nirmal Viswanathan
DISCUSSION MEETING STRUCTURED LIGHT AND SPIN-ORBIT PHOTONICS ORGANIZERS: Bimalendu Deb (IACS Kolkata, India), Tarak Nath Dey (IIT Guwahati, India), Subhasish Dutta Gupta (UOH, TIFR Hyderabad, India) and Nirmalya Ghosh (IISER Kolkata, India) DATE: 29 November 2022 to 02 December 2022 VE
From playlist Structured Light and Spin-Orbit Photonics - Edited
Lecture 1 (CEM) -- Introduction to CEM
This lecture introduces the course and steps the student through an overview of most of the major techniques in computational electromagnetics.
From playlist UT El Paso: CEM Lectures | CosmoLearning.org Electrical Engineering
Fresnel Equations at Normal Incidence
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From playlist Electromagnetics
PHYS 201 | Light on Glass 1 - Polarization Relative to a Surface
Here are the definitions of modes of the polarization of EM waves as they interact with a surface. We also set up our plane waves to study reflected and transmitted waves. -----Light and Glass playlist - https://www.youtube.com/playlist?list=PL9_sR6QqqcymZOwSp8hynhGeNTdEQp3Ji -----Use the
From playlist PHYS 201 | Light and Glass
11. Energy Transfer by Waves: Plane Waves
MIT 2.57 Nano-to-Micro Transport Processes, Spring 2012 View the complete course: http://ocw.mit.edu/2-57S12 Instructor: Gang Chen License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT 2.57 Nano-to-Micro Transport Processes, Spring 2012
Mod-02 Lec-10 Potential and Potential Energy II
Electromagnetic Theory by Prof. D.K. Ghosh,Department of Physics,IIT Bombay.For more details on NPTEL visit http://nptel.ac.in
From playlist IIT Bombay: Electromagnetic Theory