[Physics] EM waves

[Hans van Leunen]

This only happens in conditions in which the total change of the underlying field equals zero. It is a general feature of all basic fields. See The Mother of all Field Equations. http://vixra.org/abs/1709.0324
Greetings,
Hans
>----Origineel Bericht----
>Van : art at funkhouser.ch
>Datum : 01/12/2017 15:49
>Aan : physics at tuks.nl
>Onderwerp : [Physics] EM waves
>
>Hi,
>
>When I first learned about E and B fields, I was told that the E field 
>is at its maximum when the B field is changing the most rapidly.
>
>And the same for the B field.
>
>This would imply that the E and B vectors in a plane polarized EM wave 
>would be shifted 90° in phase.
>
>Maxwell's equations, though, predict that they would be in phase (i.e., 
>no phase shift).
>
>If the energy of an EM wave is proportional to E^2 (also to B^2), then 
>it (the energy) would be pulsed (if they are in phase).
>
>Apparently EM waves start out from an antenna with a 90° phase shift 
>(near field) and are later in phase (far field).
>
>As the EM wave proceeds from the near field to the far field, the E 
>vector and the B vector must slowly shift phase in order to end up being 
>in phase.
>
>At some time this must have been experimentally verified.
>
>Can someone point me to the paper (maybe even in the 1800s) where this 
>was shown to be true?
>
>Or later replication(s)?
>
>Thank you.
>
>Best,
>
>Art Funkhouser, Bern, Switzerland
>
>
>
>
>
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