Seonglae ChoMoving magnet and conductor problem
The origin of Electromagnetic waves, and why they behave as they do
What is an electromagnetic wave? How does it appear? And how does it interact with matter? The answer to all these questions in 12 minutes.
0:00 - Introduction
1:31 - Frequencies
2:37 - Thermal radiation
3:53 - Polarisation
6:47 - Interference
7:27 - Scattering
8:47 - Reflection
10:09 - Refraction
This video is narrated by Octave Masson.
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Alessandro Roussel,
For more info: http://www.alessandroroussel.com/en
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To learn more :
https://en.wikipedia.org/wiki/Electromagnetic_radiation
https://www.youtube.com/watch?v=V_jYXQFjCmA
The Electromagnetic field, how Electric and Magnetic forces arise
What is an electric charge? Or a magnetic pole? How does electromagnetic induction work? All these answers in 14 minutes!
0:00 - The Electric charge
3:06 - The Electric field
4:51 - The Magnetic force
7:45 - The Magnetic field
11:00 - The Electromagnetic field, Maxwell's equations
This video is narrated by Octave Masson.
For more videos, subscribe to the YouTube channel : https://www.youtube.com/ScienceClicEN
And if you liked this video, you can share it on social networks !
To support me on Patreon : http://www.patreon.com/ScienceClic
or on Tipeee : http://tipeee.com/ScienceClic
Facebook Page : http://facebook.com/ScienceClic
Twitter : http://twitter.com/ScienceClic
Instagram : http://instagram.com/ScienceClic
Alessandro Roussel,
For more info: http://www.alessandroroussel.com/en
_________________________________________________
ScienceClic Français : http://youtube.com/ScienceClic
ScienceClic Español : http://youtube.com/ScienceClicES
_________________________________________________
To learn more :
https://en.wikipedia.org/wiki/Electromagnetic_field
https://www.youtube.com/watch?v=XoVW7CRR5JY
Korean
아인슈타인이 바라본 전기력과 자기력
특수상대성이론이 탄생하기 전 아인슈타인은 그의 무한한 상상력으로 우주를 그려 전기력과 자기력에 대한 새로운 해석을 발견합니다. 그의 발견은 훗날 인류의 지적 수준을 한 단계 진화 시키게 됩니다.
이 영상은 주)카이스토리와 함께합니다.
#상대성이론 #아인슈타인 #물리학
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Wiki area
Classical electromagnetism and special relativity
The theory of special relativity plays an important role in the modern theory of classical electromagnetism. It gives formulas for how electromagnetic objects, in particular the electric and magnetic fields, are altered under a Lorentz transformation from one inertial frame of reference to another. It sheds light on the relationship between electricity and magnetism, showing that frame of reference determines if an observation follows electric or magnetic laws. It motivates a compact and convenient notation for the laws of electromagnetism, namely the "manifestly covariant" tensor form.
https://en.wikipedia.org/wiki/Classical_electromagnetism_and_special_relativity
Relativistic electromagnetism
Relativistic electromagnetism is a physical phenomenon explained in electromagnetic field theory due to Coulomb's law and Lorentz transformations.
https://en.wikipedia.org/wiki/Relativistic_electromagnetism
