In 2011, National Geographic revealed this photo from Michael Theusner, claiming it was the primary photograph ever of the quadruple rainbow. I didn't find picture credit on the web, or I discovered web monikers. In this image, we find that the center band of the Sun is about ¼ the radius, or vapeconsider   a little less. The truth is, it did not come to me till I seemed carefully at Alexander's band. As long because it creates the dark band, by whatever course of, it would be sufficient to explain what we see, by my new mechanics (see part two of this paper).

Photographs are fantastic, and actually, it is images that have allowed me to get beyond Descartes and the remainder of ossified theory in this case. The falls provide that above the cut-off line, vapetoward   but not beneath. So the reflected gentle beneath the cut-off line can be a lot dimmer than the front light. In other phrases, the differences between the completely different bands in the Solar Corona are too nice to trigger the bands we see within the sky, which show much less distinction.

However it does not. That is one among the great mysteries of rainbows, and at all times has been, and but the historic explanation completely ignores it. Go to part 3, where I show a new explanation for the white rainbow, or fog bow. Unfortunately, like all else, this explanation of the dark is completely illogical. That stated, my coloration creation can be simply as revolutionary as my curve creation, vaporwhite by way of bands of darkish and mild. In fact which means the curve of the rainbow is just the curve of the Solar itself.

A vibrant patch within the far sky acts as a reflector, and vapeanchor the dense atmosphere in between acts as a display. We only have a patch of white as our reflector. The rainbow is bigger or smaller, showing closer to you or vapingnear further away, vapingnear relying on the relative positions of the vivid reflecting place way in front of you and of the patch of thick atmosphere that's appearing as a display.