T W A U ... The Chase....today's...
Film, Media & TV1 min ago
take a look at http://mindfake.com/illusion_21.html, this is so clever and slightly weird but how does it work?
No best answer has yet been selected by sudu. Once a best answer has been selected, it will be shown here.
For more on marking an answer as the "Best Answer", please visit our FAQ.Well, I think this is how they work, and please correct me if i'm wrong, but you know how if you look into a light for a few minutes then looks away you see different shapes and spots, then they fade?
I think the people who have created this have done the opposite and shown you the outcome of what it would look like first and then you brain comes up with the original.
Sorry if it's confusing, it's just how i imagined this worked.
It's not particularly special - if you look at the same thing for a while then your eyes get used to seeing what they're looking at. So the part of your eye which has been looking at a black area gets used to it, and as soon as you close your eyes, the back of the eye compensates for what it is used to and becomes over-sensitive to white instead. (And the same thing the other way round for looking at white areas). It doesn't have to be black and white - if it were a yellow face on a red background, then your eyes would "see" a blue face on a green background afterwards. Also, you don't have to close your eyes to make it work. It would work almost as well, as long as you look at a blank surface (e.g. an empty sheet of white paper).
A more extreme example of this phenomenon is if you accidentally catch a glimpse of the sun - for a few seconds afterwards the same part of your eye will be "blind" and will only see a black spot while it recovers. Obviously you should never look directly at the sun deliberately.
To be honest, that's not strictly correct. Colour and contast opponency are present in early stages of visual processing (at the eyeball and where it meets the optic nerve (retina and ganglia), however, it is not in fact a delay in normalization of this opponency that causes the after effect. It can best be explained as follows:
-the visual system never normally has to view high contrast images, statically, for a long period. It is not tuned to do this.
-when this does occur, however, the retinal rods in this case (or cones for colour, since this can be a colour after effect too) become fatigued and the summed output of the local groups of retinal cells becomes inverted...what should say 'black' now says white, etc.
It can take about 10 minutes for these neurons to overcome this fatigue and begin discharging properly anc communicating the right signal with the other cells in the ganglion.