Studies Say Only 1% Of People Can Find The Animal In This Picture. Can You?
With numerous articles about optical illusions with images that trick the mind orbiting social media, you’ve probably wondered how they work.
One of these images is the one shown in this article and apparently only 1% of the people can solve it. The photograph is supposed to have an animal (panda) that a very low percent of people can see.
This is called the McCollough effect which is a trick on the mind. After staring at a colored grating for several minutes, your brain will start to see a pink tinge or other colors when viewing the black and white stripes.
Tilting your head 90 degrees can either improve or reduce the effect. Rotating the induction images can reverse the effect. Additionally, the more you look at the induction images, the longer the effect will be.
This visual illusion is called an afterimage since you’re removing the stimulus but the sight persists. Scientists claim that it results from a continued activation of our visual system.
Strong colors make a bigger impression on the visual system. They trick it into believing that you’re still seeing the colors when they’re not there.
The same thing happens when a flash from the camera stays in the vision even after closing the eyes. The Journal of Experimental Psychology claimed that the effect can last for more than three months if a person looks at the colorful gratings for a long period. The person that discovered this effect was the US psychologist Celeste McCollough Howard by which the effect was named by. He called the effect ‘contingent aftereffect’ which is an illusion affecting the brain for an extended period.
You can test it yourself with the images below (the test is not harmful; it will affect your vision only for a while).
An experiment was conducted on a person that suffered significant brain damage. This 1995 research claimed that the effect worked using the red-and-green gratings and the black-and-white gratings, leading researchers to think that the effect occurs within the visual cortex. Julien Ciroux agrees with this research.
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