Understanding the Orientation of Light Waves: Electro vs. Magnetic Aspects"

AI Thread Summary
Electromagnetic radiation features a magnetic aspect oriented 90 degrees anti-clockwise to the electric aspect when the radiation travels towards an observer. This relationship is derived from Maxwell's Equations, although specific derivations were not provided in the discussion. The textbook "Optics" by Hecht & Zajac is referenced for further reading, but the exact details on orientation were not transcribed. There is curiosity about experimental evidence supporting the orientation of electric and magnetic fields in light waves, but specific studies were not mentioned. The conversation highlights a need for clarity on the interaction of photons with electrons and the implications of magnetic orientation.
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Electromagnetic radiation has a magnetic aspect at 90 degrees to the electro aspect of the radiation.

We see light, experience heat, use radio, x-rays, microwaves, etc.

Can someone please help me with this question about the above:

- Which way is the magnetic aspect orientated to the electro aspect? Clockwise or anti-clockwise?
 
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If the radiation is traveling towards you, the magnetic field is 90 degrees anti-clockwise from the electric field.
 
Thanks Redbelly. How do you know that though? Is there some info on this?
 
Ultimately, it's a consequence of Maxwell's Equations, though I myself don't know how to derive it. I just looked it up in a textbook from when I took a class in optics; the book is "Optics" by Hecht & Zajac, though I think newer editions just list Hecht as author.

Also found this on the web:

http://en.wikipedia.org/wiki/Electromagnetic_radiation#Properties
http://www.phy.ntnu.edu.tw/ntnujava/index.php?topic=35

This might lead you to more info:
http://www.google.com/search?hl=en&...ctric+propagation&btnG=Google+Search&aq=f&oq=
 
Thanks again RedBelly. You couldn't transcribe the paragraphs from your textbook that mention which direction the magnetic aspect is to the electro aspect? If it mentions why that would be great too. I looked at the sites you gave but I couldn't really find this specific info.

I know that an electric current through a wire produces an anticlockwise magnetic aspect to the direction the current flows. I presume that a current of anti-electrons through an antimatter wire would produce a clockwise magnetic aspect to the direction of current flow.

Photons in our matter world tend to interact with electrons rather than the protons.
As opposites attract I would have expected photons to have an opposite magnetic aspect to electrons; not the same.

So when you said they were the same I was surprised. This is why I really need to know if there is some experimental evidence of the orientation.
 
Well, to be honest I just looked at the figure in the book, and didn't follow the derivation. It has been more than 20 years since I had the class.

While I would imagine there is experimental data on the relative orientation of E and B in electromagnetic waves, I am not specifically aware of what that data is.
 
Thanks for trying to help Redbelly. Hopefully someone else might know?
 

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