OBSERVATIONS
1. THE RECORDING.
A. DISCONTINUOUS ABILITY OF RECORDING.
The photographs of two sections of the Athens Acropolis, in homepage, taken amid the flash of many cameras, of thousands of people who was taking photos the same time .
However no other recording of orbs outside the present, was not known. ( It is possible of course to there were other recordings that were not published ).
This proves that the orbs, are not recorded necessarily by everybody, even if they are taking photos of the same object at the same time.
The discontinuity of the ability to recording, it seems to apply also to a particular person in different circumstances of place and time.
B. THE DISTANSE.
The optical approximate calculation, of the distance by the observer of an unknown bright shape, is only possible if there are points of reference.
That is if the bright shape overlaps, or is half-hidden towards the objects whose distance is known.
After studying over 1000 photographs of bright spheres ( orbs ), I observed orbs half-hidden behind nearby objects, that were situated at close distance, like houses, trees, etc. ( See the photos ), but they were never captured behind distant ones ( like hills or mountains ).
Therefore conclude that the sum of orbs captured by a camera is found at a distance of tens of meters from the photographer.
The largest distance that the orbs can be captured in camera, seems to be affected by the brightness of the camera's flash, by the brightness of the orbs themselves, by the brightness of the atmosphere, by the atmospheric moisture, and other factors that may affect this distance, or the concept of distance.
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PHOTOS :
2. SHAPE.
When we study the pictures of these bright spheres, it is easy to infer that calling these bright shapes ‘ spheres ' ( orbs ), does not correspond to reality, for the following reasons.
a). A round bright shape is not necessarily a sphere but can also be a disk, a lens, a hemisphere, e.t.c. This reason is partly valid. It is true that some bright shapes can be perceived as a hemisphere or a quadrant of a sphere, while the shapes of the disc and the lens one ( without being completely excluded ) should be captured by another angle as well, although this cannot happen. Moreover, the shadows of some round bright shapes appear to be spheres.
b). The second reason their name is given arbitrarily is proved valid. That is, not all bright shapes that are captured by a camera are round, but they can also have the shape of a circle, a polygon, a rod, a toroid or even an irregular shape.
In reality, the bright spheres can have any shape.
Α. ORBS.
We call lights orbs, lights forms, that appear in photographs, without most of the time to have become visible in natural vision. We call orbs lights forms, that presented a perfect circular shape.
We also distinguish them, in seemingly immobile and moving.We are call them seemingly immobile, for perhaps these light forms are moving slowly. We also call moving, the light forms with an elongated bright trace.
All light spheres they are surrounded by a perimeter luminescence, in which there are concentric light housings, seperated by relatively dark zones. ( Picture 1. )
Moving towards the interior of the sphere, the light housings and the intermediate zones, become thinner and more inconspicuous as they are confused with overlying light structures. Usually two to four concentric light housings are clearly distinguished.
Light housings can not be distinguished in light spheres of exceptional brilliance, as well as in intense moving ones. ( With a great luminous trace ).
Light spheres of high brightness are surrounded by a blue-red luminescence. The red color always appears in the part of the perimeter that facing the inside of the photo, while the blue is in the periphery of the photo. ( Picture 2. ).
They follow photos of motionless and moving liht spheres.
PHOTOS :
B. SPHEROIDS.
We call spheroids lights forms, whose perimeter, consists of two circular arcs : a larger and a smaller one.
All the properties of lights orbs, are also presented on spheroids.
The spheroids, however, have an extra remarkable property :
The large arc of the perimeter is always focused on the inside of photography, whil the small bow to the periphery oh photography. ( Picture 2. ).
Therefore, in the blue-red spheroids the red color always appears in the large bow and the blue in the small.
Perhaps the shape of the spheroid is due to the interaction of the light spheres with the light of the camera. If this is the case, obviously this interaction does not happen everywhere, otherwise they would not co-exist spheroids and spheres.
PHOTOS :
C. ORBS WITH MARKS
Some orbs have dark areas, resembling holes, cracks or marks.
PHOTOS :
D. ORBS WITH VARIOUS SHAPES.
The following pictures show bright balls of various shapes, such as polygonal or irregular.
The Φ42 distinguished a bright form that resembles a cylindrical torus, which appears in front of a bright rod.
The Φ42a is the electronic processing of the Φ42 which makes it more conspicuous.
PHOTOS :
E. LIGHTS ORBS WITH CHANNELS.
Some lights orbs have elongated protrusions resembling channels .
In some photos, the channels are distinguished, with the usual structure of bright spheres, while in others, the usual structure is not distinct, and lights orbs are presented like tangled balls of wool.
In these photos, the whole site seems full of channels, and lights orbs, are just the brightest areas of this space.There is strong evidence that all the light orbs, carry that channels.
If this is true, then the names : '' orbs '' or '' spheroids '' are inaccurate for these bright forms, whose exact name is : symvolometronia.
Συμβολομετρόνιο είναι το οντικό μέτρο μίας συμβολής νοών.
PHOTOS :
The following pictures, is arranged in vertical pairs. In the upper photo of the couple shows an enlargement of the original image, while the bottom, shows an electronic processing, that makes it more conspicuous .
In some cases the faces is very distinctly, as in some from these photos, and in the following.
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