Ten of the greatest optical illusions

Ten of the greatest optical illusions

By RICHARD WISEMAN,

Professor of psychology, University of Hertfordshire



From normal-looking upside-down faces

turning grotesque to horizontal lines appearing

to slope but are in fact parallel,

RICHARD WISEMAN chooses his ten favourite optical illusions


1. CHECKER SHADOW




Although it may seem impossible to believe, the squares marked 'A' and 'B'
are actually exactly the same shade of grey

This amazing illusion was created by Edward H Adelson from the Massachusetts Institute
of Technology.

Although it may seem impossible to believe, the squares marked 'A' and 'B'
are actually exactly the same shade of grey!

Your eyes and brain are constantly trying to figure out the colour of the objects around you,
and in doing so automatically compensate for shadows.

The square marked 'B' is in the shadow cast by the green cylinder,
while the square marked 'A' is outside of the shadow.

Your eyes and brain see that the two squares are the same shade of grey,
but then think, 'Hold on - if a square in a shadow reflects the same amount of light
as a square outside of the shadow, then in reality it must be a much lighter shade of grey.'

As a result, your brain alters your perception of the image
so that you see what it thinks is out there in the real world.




2. GRID



As you move your eyes around the image, dark dots quickly appear and disappear
at the intersections.

However, whenever you look directly on any intersection, the dark dots vanish

The original version of this illusion was first reported by German physiologist Ludimar Hermann
in 1870, and simply involves a white grid on a black background.

As you move your eyes around the image, dark dots quickly appear and disappear at the intersections.

However, whenever you look directly on any intersection, the dark dots vanish.

For years it was widely believed that the illusion worked because of 'lateral inhibition'
- the term used to describe the complex way in which the cells on the back of the retina
respond to areas of black and white.

There is, however, little point in explaining the theory.

Why? Because a few years ago it was shown to be completely untrue,
and thus the explanation for the illusion remains a mystery...




3. THATCHER







This upside-down picture of ex-Prime Minister Margaret Thatcher
looks perfectly normal (left) but when you rotate the photograph the right way up,
the face will appear grotesque (right)

This upside-down photograph of ex-Prime Minister Margaret Thatcher looks perfectly normal.

However, when you rotate the photograph the right way up the face will appear grotesque,
thus proving that 'the lady's not for turning'.

The grotesque face is due to the eyes and mouth being inverted.

But why don't you spot this when the photograph is upside down?

There are specific parts of your brain dedicated to face perception.
However, because you rarely encounter upside-down faces,
these parts of your brain work best with upright faces.
When presented with an upside-down face, your brain is able to identify
the different parts of the face, such as the eyes and mouth,
but unable to perceive the relationship between these parts;
hence it doesn't spot the distorted face.




4. TABLETOPS



In this classic illusion, the two tabletops look completely different shapes
but are actually identical

In this classic illusion, created by Stanford University psychologist Roger Shepard
, the two tabletops look completely different shapes but are actually identical.

The illusion works for two reasons.

First, vertical lines tend to look relatively long while horizontal lines tend to look relatively short.

Also, the legs induce a sense of perspective, causing the back of the tabletop on the left
to appear to be much further away than the back of the tabletop on the right.

Your brain alters your perception of the tabletops,
making the left one appear completely different to the right one.



5. CAFE WALL



The horizontal lines in this image appear to be sloping,
but in reality they're parallel to one another

The horizontal lines in this image appear to be sloping, but in reality they're parallel to one another.

Why does it work? Although it's easy to see the mortar line between two black tiles
or two white tiles, it's much harder to see the mortar line between a white tile and a black one.

Your brain fills in the gap by seeing it as part of either a white or black tile.

This, in turn, makes the tiles look wider at one end than at the other,
creating the illusion of a series of wedge-shaped tiles, which makes the lines appear to slant.



6. LEANING TOWERS



These two photographs of the Leaning Tower of Pisa are identical,
yet when your eyes and brain see two towers that are parallel,
they assume that they must be diverging as they rise into the air

These two photographs of the Leaning Tower of Pisa are identical,
yet the tower on the right appears to lean more than the tower on the left.

Created by Frederick Kingdom and colleagues from McGill University in Montreal,
the illusion works because your eyes and brain treat the two photographs
as if they're part of a single scene.

If the two towers really were next to one another and rising at the same angle,
they'd appear to converge due to perspective.

So when your eyes and brain see two towers that are parallel,
they assume that they must be diverging as they rise into the air,
and thus create the resulting illusion. Each year the Neural Correlate Society
holds the Best Illusion of the Year Contest to find new and wonderful illusions.

The Leaning Tower illusion won the contest in 2007.




This image looks like physicist Albert Einstein. However, move a few feet away from the screen and suddenly it'll transform into Marilyn Monroe
7. EINSTEIN

This amazing image looks like physicist Albert Einstein.

However, move a few feet away from the screen and suddenly it'll transform into Marilyn Monroe.

The work of Aude Oliva and her colleagues at the Massachusetts Institute of Technology,
the illusion was created in three steps.

First, the researchers obtained a photograph of Marilyn Monroe
and removed the fine-grained facial features, such as any wrinkles or other blemishes.

Second, they obtained a photograph of Albert Einstein and removed the more coarse features,
such as the shape of the mouth or nose.

Finally, the two images were superimposed on top of one another.

Because the fine-grained features are visible close up, the image looks like Albert Einstein
when you're just a few inches away from the page.

However, move a few feet away and suddenly only the coarse features are visible,
magically transforming the image into Marilyn Monroe.





8. DUCK-RABBIT



This image is known as a 'bistable' image. You won't be able to see both pictures at the same time and will instead flip between seeing the duck and then the rabbit
When you first look at this picture you'll probably see a rabbit facing to the right. However, if you continue to look at the picture it'll flip to become a duck looking to the left. This is known as a 'bistable' image. You won't be able to see both pictures at the same time and will instead flip between seeing the duck and then the rabbit. This illusion was originally popularised in 1899 by American psychologist Joseph Jastrow, who used it to make the point that we 'see' with our brains as well as our eyes.






9. ROTATING SNAKES



The effects of this image works best in peripheral vision,
so when you stare at one of the coils it will appear stationary while those aroun
d it will appear to rotate
Although the coils in the image appear to be rotating,
in reality they're completely stationary.

The effect works best in peripheral vision, so when you stare at one of the coil
s it will appear stationary while those around it will appear to rotate.

This wonderful illusion was created by Japanese psychologist Akiyoshi Kitaoka
from Ritsumeikan University in Kyoto. Vision experts aren't exactly certain why it works;
however, their research has revealed that the shading of the segments
that make up the rings is crucial.

These segments are arranged in a repetitive pattern consisting of a relatively dark area
(yellow) followed by a brighter one (white), then a less bright one (blue),
and finally the darkest area (black). Information from high-contrast parts
of the image (yellow-white, white-blue and blue-black) travels to the brain faster
than that from low-contrast parts (blue-black).

It's believed that this 'staggered' information mimics the type of input
that the eyes and brain receive when they see genuine motion,
and so you end up believing that you're looking at actual movement.




10. IMPOSSIBLE TRIANGLE



The dice appear to form an impossible triangle. If the position of the camera was to shift slightly,
you would see that in reality the 'triangle' is actually created by three lines of dice arranged
in the shape of the letter 'Z'

The dice appear to form an impossible triangle.
Your eyes and brain are fooled because they assume that all of the corners of the triangle
are touching one another.

In reality, the photograph has been taken from a very specific angle.

If the position of the camera was to shift slightly, you would see that in reality
the 'triangle' is actually created by three lines of dice arranged in the shape of the letter 'Z'.
As such, one of the 'corners' in the photograph actually consists of two ends
that are a very long way apart.

This idea is based on a drawing of an impossible triangle originally created
by physicist Roger Penrose in 1954.

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