Ultimate proof of Magnetic Vortex, free book and videos

[picowatt]

We both know the internal structure of a magnet is different from the internal structure of a stainless pot.  The former will show the charge field being tapped, and the latter will not.

Gravock

I don't believe that the "internal structure" of the magnet has anything to do with the reflected heat observed.  Aiming the FLIR so that the plane of its detector is parallel to any fairly planar surface of similar reflectivity, with the FLIR settings and ambient conditions similar to those used during the FLIR video, would demonstrate the same reflected heat from the FLIR.  In other words, if the FLIR can "see itself" in the reflective surface, its emitted heat will be observed.

And again, TA stated that the magnet itself was warmer than its surroundings, which is not at all evident at the time stamps I cited.

PW

[gravityblock]

I don't believe that the "internal structure" of the magnet has anything to do with the reflected heat observed.  Aiming the FLIR so that the plane of its detector is parallel to any fairly planar surface of similar reflectivity, with the FLIR settings and ambient conditions similar to those used during the FLIR video, would demonstrate the same reflected heat from the FLIR.  In other words, if the FLIR can "see itself" in the reflective surface, its emitted heat will be observed.

And again, TA stated that the magnet itself was warmer than its surroundings, which is not at all evident at the time stamps I cited.

PW

The magnet became warmer due to it recycling the charge field (heat) coming from the FLIR.  Notice how the heat is concentrated and radiated in specific areas of the magnet more than other regions of the magnet.

Gravock

[picowatt]

The magnet became warmer due to it recycling the charge field (heat) coming from the FLIR.

Gravock

So you would rather believe that the large thermal mass of the magnet, in but an instant, suddenly flared to a higher temperature as soon as the FLIR could see its reflection, and then just as rapidly, the magnet returned to its quiescent temperature as soon as the FLIR could no longer see its reflection?

PW

[Rfacts]

Identification and Suppression of Thermal Reflections in Infrared Thermal Imaging
M. Vollmer, S. Henke, D. Karstädt, K.-P. Möllmann, and F. Pinno
University of Applied Sciences, Brandenburg

ABSTRACT
Thermal reflections are a common source of problems in interpreting infrared (IR) thermal images.  In particular,
atomically smooth surfaces like glass, metals, or wet surfaces, and also brick and concrete, may easily give rise to
reflections of infrared radiation from often uncared sources.  If unnoticed, these thermal reflections may give rise to
misinterpretations of the object temperature.  After analyzing the differences between object IR radiation and thermal
reflections theoretically, possibilities to suppress or at least identify such reflections by use of IR polarizers are discussed.
Theoretical predictions and experimental results are very promising.

http://www.aikencolon.com/assets/images/FLIR/iseries/pdfs/Idustrial-Mechanical-iseries/2004-05420Vollmer_FINAL.pdf

Attached Picture: An oxidized old brass plate with a lot of surface roughness in the 1μm scale or below is scattering
light diffusely for visible light, but at least in part specularly for thermal IR radiation of λ≈ 10μm.

[gravityblock]

The new LED bulb taps the Charge Field

Gravock