18 Optical Illusions That Will Mess with Your Vision

Bright Side

Get ready for a mind-bending ride because we've got 18 optical illusions lined up that'll seriously mess with your vision. From mind-boggling patterns to mind-blowing shapes, these illusions will have you questioning what's real and what's just playing games with your brain. So, grab a snack, sit back, and get ready to put your perception to the test. It's like a rollercoaster for your eyeballs—you won't believe what you're seeing! After all, who needs reality when you've got optical illusions to keep things interesting?  #brightside   Animation is created by Bright Side.  ---------------------------------------------------------------------------------------- Music from TheSoul Sound: https://thesoul-sound.com/   Listen to Bright Side on:  Spotify - https://open.spotify.com/show/0hUkPxD34jRLrMrJux4VxV Apple Podcast - https://podcasts.apple.com/podcast/idhttps-podcasts-apple-com-podcast-bright-side/id1554898078 ---------------------------------------------------------------------------------------- Our Social Media: Facebook - https://www.facebook.com/brightside/ Instagram - https://www.instagram.com/brightside.official/ Tik Tok - https://www.tiktok.com/@brightside.official?lang=en Snapchat - https://www.snapchat.com/p/c6a1e38a-bff1-4a40-9731-2c8234ccb19f/1866144599336960  Stock materials (photos, footages and other):  https://www.depositphotos.com  https://www.shutterstock.com  https://www.eastnews.ru  ---------------------------------------------------------------------------------------- For more videos and articles visit: http://www.brightside.me

Transcript

00:00Believe it or not, this optical illusion will let you know if you should drive in the rain

00:13or not.

00:14Take a look at this image.

00:16Try to find the sequence of numbers hidden inside it.

00:19OK, go!

00:22Did you say 3,452,839?

00:32If you did, then your contrast sensitivity is on point!

00:36The so-called contrast sensitivity helps you to clearly see the outline of small objects.

00:42If this feature is not well developed in your system, then you shouldn't really drive in

00:46the rain or even when it's foggy out.

00:53Take a look at this image.

00:55What animal is not depicted here?

00:57A rabbit, a duck, or a snail?

01:07The picture definitely doesn't depict a snail!

01:10Way to go if you got that right!

01:17How many different scenes can you spot in this image?

01:20Three?

01:21Four?

01:22Take a guess!

01:29It's only two!

01:30You should be able to see the chalice in the first scene.

01:33And then, when you change your focus, you should be able to spot the profile of two

01:37faces with a white background.

01:43OK, take a look at both images.

01:47Can you tell if the circle on the right is larger than the circle on the left?

01:58Believe it or not, these two circles are actually the exact same size!

02:04This illusion is known as the Ebbinghaus illusion, and it was discovered by a German

02:08physiologist in the early 1900s.

02:12One of the possible explanations for why our brain glitches when looking at this image

02:16is due to the size of the external circles.

02:20Since the circles on the right are much bigger, they make the one from the right look smaller

02:25than the one on the left.

02:31Can you stare at this parrot's eye for 15 seconds?

02:35Just keep staring at it, and I'll tell you when you can close your eyes.

02:38You're about to witness a great example of an afterimage!

02:43Three, two, one, and close your eyes!

03:01Can you see a red parrot?

03:06Isn't it amazing that even though this parrot is black and white, you have the illusion

03:10of seeing the color red?

03:12Again, this is just your brain trying to guess the color of something!

03:20Behind all of these little black dots, there's an image.

03:24Are you part of the 1% of people that can see it?

03:34It's a minion!

03:35Congrats if you spotted that!

03:40Here's another one in this style.

03:42Can you see what's hidden here?

03:51It's a ninja turtle!

03:52Honestly, did you need to be a bit of a ninja to see that one?

03:59And what about this one?

04:08My my, it's Homer Simpson!

04:13So now there's something hidden behind black stripes.

04:16How's your x-ray vision working?

04:25You got it if you said it's one of the dragons from How to Train Your Dragon!

04:30That's cute!

04:35Can you tell which circle in this image is the darkest one?

04:42Uh oh, that was totally a trick question!

04:48All the circles are exactly the same color.

04:50This is a classic example of the saturation optical illusion.

04:54It shows how our brain perceives color in a very subjective way.

04:58The lighting and background of an object influence how we see it.

05:02So when the gray circle is put against a darker background, we tend to believe it's brighter

05:07than its true color, and vice versa.

05:14This illusion is called the impossible triangle.

05:17But wait, what makes it so impossible?

05:20You only have a few seconds to figure that out!

05:30The so-called Penrose Triangle is also known as the impossible triangle, because it could

05:35never exist in reality.

05:38This magical triangle defies the laws of Euclidean geometry.

05:42If you follow the ball sliding on the surface of the triangle from the top point, you'll

05:47notice something strange.

05:49It looks like the left side of the triangle is extending away from the viewer, while the

05:54right side is closer to you.

05:56The Penrose Triangle is the type of geometrical figure that can only exist as an optical illusion,

06:02because this is what it looks like if we dismember it.

06:06Not a triangle at all, huh?

06:12Take a look at this image.

06:14Which line do you think continues the black one?

06:17The red line or the blue line?

06:26As much as it looks like it's the blue line, it's actually the red line.

06:30This illusion was first talked about in the 1960s, and it's called the Poggendorf illusion.

06:36This is a classic example of how our brain perceives geometric shapes and depth.

06:42According to scientists, our brain tries to perceive two-dimensional pictures with three-dimensional

06:47properties.

06:48This is why it distorts the depth between lines in this image.

06:52Pretty intense, huh?

06:57Take a look at this staircase.

07:00Now let's flip the image upside down.

07:02It still looks like a staircase, but instead of going from right to left, it looks like

07:06it's going from left to right.

07:09Don't blink though.

07:10If you blink, the illusion will disappear, and you will be left with the original image.

07:21This illusion is known as Schroeder staircase, and it was invented by a German scientist,

07:26Heinrich Schroeder, back in 1858.

07:30It's really simple, but it talks about the same principle we saw in the previous illusion.

07:35If we dismember the staircase, you'll notice that the image is actually flat.

07:40What our brain perceives as a three-dimensional image is just a combination of shadow and

07:45light.

07:46This means that the 3D itself is already an optical illusion.

07:52This happens because our brain captures images and tries to fit them into what it already

07:57knows.

07:58It sees a shadow in a 2D image and it understands it as depth.

08:03Basically, it creates an unreal perspective of the object in front of our eyes.

08:08In this case, we call it a three-dimensional perspective.

08:15These circles seem to be moving pretty much everywhere they're told.

08:19Do you believe they are really moving, or could we say that they're stationary?

08:31I know it's hard to believe, but they're not moving an inch.

08:35This illusion has baffled the internet, but this is what's going on behind the scenes.

08:40There's a very, very thin inner and outer edge to these circles, and these edges are

08:46a different color than the bulk of the circle.

08:49To create the illusion, animators make these outer edges move.

08:53But since there's a variation in color, our brain interprets it as the entire circle moving.

08:59That's why even if we block the arrows, we still have the impression that the circles

09:03are moving.

09:08Take a look at this image.

09:10It looks like the square in the middle is breathing, right?

09:13Like it's growing in size and then shrinking.

09:16What if I told you that it's just rotating, but not changing in size?

09:27Here's what's happening.

09:28This illusion is called motion binding.

09:31It happens when our brain tries to predict the movement of one of the elements in the

09:35image.

09:36Crazy stuff!

09:41Let's try another one.

09:43Stare at the cross in the middle of this image for 10 seconds, starting now.

09:59Did all of the colors from the image fade away and all you could see was a white page?

10:04Bizarrely, our brain just erases all the nuanced colors and leaves you with a white screen.

10:13First up, we have what looks like a gray bar moving up and down on an orange background.

10:18But if you stare at this little black dot, you may see the gray bar turn into a different

10:23color.

10:24What color did you see?

10:32Did you say blue?

10:33Yep, that was it!

10:39There is a graphic city with a dot in the middle of it.

10:42Stare at this dot for around 10 seconds, starting now.

10:52Wow, what just happened?

11:00Even after the picture turns black and white, our brain is still able to perceive the original

11:05colors.

11:06This is another example of an afterimage.

11:10After we fed our brain with a fixed image of something, when we turn it black and white,

11:14our brain is still trying to guess the colors of it.

11:18That's it for today!

11:21So hey, if you pacified your curiosity, then give the video a like and share it with your

11:25friends.

11:26Or if you want more, just click on these videos and stay on the Bright Side!

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