{"id":434,"date":"2023-03-02T20:16:50","date_gmt":"2023-03-02T20:16:50","guid":{"rendered":"https:\/\/content.one.lumenlearning.com\/introductiontopsychology\/chapter\/illusions\/"},"modified":"2025-11-14T00:59:54","modified_gmt":"2025-11-14T00:59:54","slug":"illusions","status":"publish","type":"chapter","link":"https:\/\/content.one.lumenlearning.com\/introductiontopsychology\/chapter\/illusions\/","title":{"raw":"Perception and Illusions: Learn It 4\u2014Illusions","rendered":"Perception and Illusions: Learn It 4\u2014Illusions"},"content":{"raw":"<h2>Why Illusions?<\/h2>\r\n\r\n[caption id=\"attachment_3721\" align=\"alignright\" width=\"512\"]<a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/14154724\/Horizontal_3d_graffiti_%C5%81%C3%B3d%C5%BA_Schillera_Passage.jpg\"><img class=\"wp-image-3721 size-full\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/14154724\/Horizontal_3d_graffiti_%C5%81%C3%B3d%C5%BA_Schillera_Passage.jpg\" alt=\"3D street art showing a rubix cube, deck of cards, waterfall, and blocks all on a 2D surface.\" width=\"512\" height=\"343\" \/><\/a> <strong>Figure 1<\/strong>. This 3-D street art demonstrates how artists utilize illusions to portray depth on a 2-D sidewalk.[\/caption]\r\n\r\n<p data-start=\"579\" data-end=\"1038\">For more than a century, psychologists and neuroscientists have studied how we interpret the sensory world. Although vision and hearing have received the most attention, researchers have also examined smell, taste, touch, pain, balance, and movement. One of the most powerful tools for studying perception is the <strong data-start=\"894\" data-end=\"917\">perceptual illusion<\/strong>\u2014a carefully designed stimulus that exposes how the brain organizes, interprets, and sometimes misinterprets information.<\/p>\r\n<p data-start=\"1040\" data-end=\"1218\"><strong data-start=\"1040\" data-end=\"1076\">Illusions are not just \u201ctricks.\u201d<\/strong><br data-start=\"1076\" data-end=\"1079\" \/>\r\nThey reveal the rules, shortcuts, and assumptions your brain uses to turn incomplete or ambiguous sensory input into a coherent experience.<\/p>\r\n<h3 data-start=\"1225\" data-end=\"1260\"><strong data-start=\"1228\" data-end=\"1260\">Why Scientists Use Illusions<\/strong><\/h3>\r\n<p data-start=\"1262\" data-end=\"1392\">Scientists create illusions based on what they know about the perceptual system. A successful illusion lets researchers explore:<\/p>\r\n<ul>\r\n\t<li data-start=\"1396\" data-end=\"1424\">What people experience<\/li>\r\n\t<li data-start=\"1427\" data-end=\"1487\">How the brain interprets ambiguous or conflicting cues<\/li>\r\n\t<li data-start=\"1490\" data-end=\"1553\">Which brain regions support specific perceptual processes<\/li>\r\n\t<li data-start=\"1556\" data-end=\"1618\">How attention, context, and expectation shape perception<\/li>\r\n\t<li data-start=\"1621\" data-end=\"1672\">What variables strengthen or weaken an illusion<\/li>\r\n<\/ul>\r\n<p data-start=\"1674\" data-end=\"1908\">Artists use many of the same principles. For centuries, painters and designers have relied on illusions of depth, shadow, and perspective to create the <em data-start=\"1826\" data-end=\"1838\">appearance<\/em> of a three-dimensional world on a flat canvas or sidewalk (Figure 1).<\/p>\r\n<h3>Depth\u00a0Illusions<\/h3>\r\n<p>When we look at the world, we are not very good at detecting the absolute qualities of things\u2014their exact size or color or shape. What we are very good at is judging objects in the context of other objects and conditions. Let's take a look at a few illusions to see how they are based on insights about our perception. Look at Figure 2 below. Which of the two horizontal yellow lines looks wider, the top one or the bottom one?<\/p>\r\n\r\n[caption id=\"attachment_3649\" align=\"aligncenter\" width=\"225\"]<a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210125\/Ponzo_illusion.gif\"><img class=\"wp-image-3649 size-full\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210125\/Ponzo_illusion.gif\" alt=\"Lines of a railroad track as they converge off into the distance. One yellow line is close to the front of the image on the tracks and another line of the same size is placed towards the back of the image along the tracks. Because of the converging lines, the yellow line in the back appears larger than the line in the foreground.\" width=\"225\" height=\"166\" \/><\/a> <strong>Figure 2<\/strong>. The Ponzo Illusion.[\/caption]\r\n\r\n<p>Most people experience the top line as wider. They are both exactly the same length. This experience is called the<strong> Ponzo Illusion<\/strong>. Even though you know that the lines are the same length, it is difficult to see them as identical. Our perceptual system takes the context into account, here using the converging \u201crailroad tracks\u201d to produce an experience of depth. Then, using some impressive mental geometry, our brain adjusts the experienced length of the top line to be consistent with the size it would have if it were that far away: if two lines are the same length on my retina, but different distances from me, the more distant line must be in reality, longer. You experience a world that \u201cmakes sense\u201d rather than a world that reflects the actual objects in front of you.<\/p>\r\n<p>There are many depth illusions. It is difficult to see the drawing on the left below as a two-dimensional figure. The converging lines and smaller square at the center seem to coax our perceptual systems into seeing depth, even though we know that the drawing is flat. This urge to see depth is probably so strong because our ability to use two-dimensional information to infer a three-dimensional world is essential for allowing us to operate in the world. The picture on the right below is a driving tunnel, something you would need to process at high speed if you were in a car going through it. Your quick and detailed use of converging lines and other cues allows you to make sense of this 3-D world.<\/p>\r\n\r\n[caption id=\"attachment_3650\" align=\"aligncenter\" width=\"514\"]<a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210639\/Screen-Shot-2017-02-07-at-3.04.55-PM.png\"><img class=\"wp-image-3650 size-full\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210639\/Screen-Shot-2017-02-07-at-3.04.55-PM.png\" alt=\"The drawing on the left shows a large square with a smaller square on the inside and lines connecting the corners of the inner and outer square. The secong image shows the inside of a tunnel.\" width=\"514\" height=\"222\" \/><\/a> <strong>Figure 3<\/strong>. Understanding depth enables us to function in a 3-dimensional world.[\/caption]\r\n\r\n<h3>Light, Contrast, and Size Illusions<\/h3>\r\n<p>Depth is not the only quality in the world that shows how we adjust what we experience to fit the surrounding world. Look at the two gray squares in the figure below. Which one looks darker?<\/p>\r\n\r\n[caption id=\"attachment_3654\" align=\"aligncenter\" width=\"557\"]<a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07211928\/Simultaneous_Contrast.jpg\"><img class=\"wp-image-3654\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07211928\/Simultaneous_Contrast.jpg\" alt=\"A dark black square with a gray square in the center next to a white square with a gray square in the middle. The black surrounding the gray makes the gray appear lighter than with the white background.\" width=\"557\" height=\"278\" \/><\/a> <strong>Figure 4<\/strong>. Which gray square appears darker?[\/caption]\r\n\r\n<p data-start=\"3666\" data-end=\"3839\">Most people say the square on the right looks darker, even though the two are physically identical. The brain interprets each gray square <strong data-start=\"3806\" data-end=\"3838\">relative to its surroundings<\/strong>:<\/p>\r\n<ul>\r\n\t<li data-start=\"3843\" data-end=\"3902\">The gray square next to a white background appears darker<\/li>\r\n\t<li data-start=\"3905\" data-end=\"3956\">The same gray on a black background looks lighter<\/li>\r\n<\/ul>\r\n<p data-start=\"3958\" data-end=\"4069\">This reflects how the visual system enhances contrast to help us detect edges and boundaries in the real world.<\/p>\r\n<h3 data-start=\"4076\" data-end=\"4095\"><strong data-start=\"4079\" data-end=\"4095\">Benary Cross<\/strong><\/h3>\r\n<p>Here is another example below. The two triangular figures are identical in shade, but the triangle on the left looks lighter against the dark background of the cross when compared to the triangle in the white area on the right.<\/p>\r\n\r\n[caption id=\"attachment_3655\" align=\"aligncenter\" width=\"300\"]<a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07212941\/569px-Benary_Cross.svg_.png\"><img class=\"wp-image-3655 size-medium\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07212941\/569px-Benary_Cross.svg_-300x300.png\" alt=\"Gray cross with a lighter gray triangle inside of the cross arm, and another outside of the arm of the cross. The triangle outside of the cross arm appears darker with its greater contrast against the white background.\" width=\"300\" height=\"300\" \/><\/a> <strong>Figure 5<\/strong>. Benary Cross[\/caption]\r\n\r\n<h3 data-start=\"4430\" data-end=\"4467\"><strong data-start=\"4433\" data-end=\"4467\">Shadow and Lightness Constancy<\/strong><\/h3>\r\n<p>Our visual systems work with more than simple contrast. They also use our knowledge of how the world works to adjust our perceptual experience. Look at the checkerboard below.<\/p>\r\n<p>There are two squares with letters in them, one marked \u201cA\u201d and the other \u201cB\u201d. Which one of those two squares is darker?<\/p>\r\n\r\n[caption id=\"attachment_3656\" align=\"aligncenter\" width=\"300\"]<a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07213735\/Optical.greysquares.arp_.jpg\"><img class=\"wp-image-3656 size-medium\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07213735\/Optical.greysquares.arp_-300x242.jpg\" alt=\"A checkerboard with a large green cylinder on top of the gameboard, casting a shadow on the board. The shadow makes the pieces appear darker, so much so that the lighter &quot;B&quot; piece is actually the same color as the darker &quot;A&quot; piece.\" width=\"300\" height=\"242\" \/><\/a> <strong>Figure 6<\/strong>. Which looks darker, A or B?[\/caption]\r\n\r\n<p>This seems like an easy comparison, but the truth is that squares A and B are identical in shade. Our perceptual system adjusts our experience by taking some visual information into account. First, \u201cA\u201d is one of the \u201cdark squares\u201d and \u201cB\u201d is a \u201clight square\u201d if we take the checkerboard pattern into account.<\/p>\r\n<p>Perhaps even more impressive, our visual systems notice that \u201cB\u201d is in a shadow. Object in a shadow appear darker, so our experience is adjusted to take account of effect of the shadow, resulting in perceiving square B as being lighter than square A, which sits in the bright light. And if you really don't believe your eyes, take a look at a <a href=\"https:\/\/www.youtube.com\/watch?v=z9Sen1HTu5o\" target=\"_blank\" rel=\"noopener\">video showing the same color tiles here<\/a>.<\/p>\r\n<section class=\"textbox interact\">\r\n<h3 data-start=\"5190\" data-end=\"5235\"><strong data-start=\"5192\" data-end=\"5235\">Size Illusions: The Ebbinghaus Illusion<\/strong><\/h3>\r\n<p data-start=\"5237\" data-end=\"5358\"><span style=\"font-family: 'Public Sans', -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, Oxygen-Sans, Ubuntu, Cantarell, 'Helvetica Neue', sans-serif;\">One final illusion takes us back to adjustment for size. Look at the two sets of circles below. Your task is to adjust the center circle on the left so it is the same actual size as the center circle on the right. The surrounding circles will not change in size, though the right of circles will expand to accommodate the size of the center circle. Use the slide bar with the label \u201cSize of left circle\u201d to make your adjustments. When you are satisfied with your adjustment, check your accuracy by clicking on the \u201cVerify Diameter\u201d button. Click \u201cReset\u201d to try again.<\/span><\/p>\r\n<center><iframe src=\"https:\/\/s3-us-west-2.amazonaws.com\/oerfiles\/Psychology\/interactives\/circles1.html\" width=\"530\" height=\"430\" data-mce-fragment=\"1\"><\/iframe><\/center>This illusion is called the Ebbinghaus illusion, created by Hermann Ebbinghaus, one of the early founders of experimental psychology.<\/section>\r\n<p>Here is another example of the Ebbinghaus illusion:<\/p>\r\n<p><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/02202255\/650px-Mond-vergleich.svg_.png\"><img class=\"aligncenter wp-image-3581 \" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/02202255\/650px-Mond-vergleich.svg_.png\" alt=\"Large blue circles surrounding a small orange circle and a large (appearing) orange circle surrounded by blue circles. The center orange circles are in fact the same size.\" width=\"356\" height=\"219\" \/><\/a><\/p>\r\n<p>In this version of the illusion, most people see the circle on the right as larger than the one on the left. The two orange circles are exactly the same size. The Ebbinghaus illusion again illustrates the tendency of our perceptual systems to adjust our experience of the world to the surrounding context.<\/p>\r\n<section class=\"textbox tryIt\">[ohm2_question height=\"400\"]4060[\/ohm2_question]<\/section>\r\n<section class=\"textbox linkToLearning\">If you want to explore more visual illusions, <a href=\"https:\/\/michaelbach.de\/ot\/\" target=\"_blank\" rel=\"noopener\">visit this website\u00a0with dozens of interesting illusions<\/a> created by Michael Bach.<\/section>","rendered":"<h2>Why Illusions?<\/h2>\n<figure id=\"attachment_3721\" aria-describedby=\"caption-attachment-3721\" style=\"width: 512px\" class=\"wp-caption alignright\"><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/14154724\/Horizontal_3d_graffiti_%C5%81%C3%B3d%C5%BA_Schillera_Passage.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-3721 size-full\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/14154724\/Horizontal_3d_graffiti_%C5%81%C3%B3d%C5%BA_Schillera_Passage.jpg\" alt=\"3D street art showing a rubix cube, deck of cards, waterfall, and blocks all on a 2D surface.\" width=\"512\" height=\"343\" \/><\/a><figcaption id=\"caption-attachment-3721\" class=\"wp-caption-text\"><strong>Figure 1<\/strong>. This 3-D street art demonstrates how artists utilize illusions to portray depth on a 2-D sidewalk.<\/figcaption><\/figure>\n<p data-start=\"579\" data-end=\"1038\">For more than a century, psychologists and neuroscientists have studied how we interpret the sensory world. Although vision and hearing have received the most attention, researchers have also examined smell, taste, touch, pain, balance, and movement. One of the most powerful tools for studying perception is the <strong data-start=\"894\" data-end=\"917\">perceptual illusion<\/strong>\u2014a carefully designed stimulus that exposes how the brain organizes, interprets, and sometimes misinterprets information.<\/p>\n<p data-start=\"1040\" data-end=\"1218\"><strong data-start=\"1040\" data-end=\"1076\">Illusions are not just \u201ctricks.\u201d<\/strong><br data-start=\"1076\" data-end=\"1079\" \/><br \/>\nThey reveal the rules, shortcuts, and assumptions your brain uses to turn incomplete or ambiguous sensory input into a coherent experience.<\/p>\n<h3 data-start=\"1225\" data-end=\"1260\"><strong data-start=\"1228\" data-end=\"1260\">Why Scientists Use Illusions<\/strong><\/h3>\n<p data-start=\"1262\" data-end=\"1392\">Scientists create illusions based on what they know about the perceptual system. A successful illusion lets researchers explore:<\/p>\n<ul>\n<li data-start=\"1396\" data-end=\"1424\">What people experience<\/li>\n<li data-start=\"1427\" data-end=\"1487\">How the brain interprets ambiguous or conflicting cues<\/li>\n<li data-start=\"1490\" data-end=\"1553\">Which brain regions support specific perceptual processes<\/li>\n<li data-start=\"1556\" data-end=\"1618\">How attention, context, and expectation shape perception<\/li>\n<li data-start=\"1621\" data-end=\"1672\">What variables strengthen or weaken an illusion<\/li>\n<\/ul>\n<p data-start=\"1674\" data-end=\"1908\">Artists use many of the same principles. For centuries, painters and designers have relied on illusions of depth, shadow, and perspective to create the <em data-start=\"1826\" data-end=\"1838\">appearance<\/em> of a three-dimensional world on a flat canvas or sidewalk (Figure 1).<\/p>\n<h3>Depth\u00a0Illusions<\/h3>\n<p>When we look at the world, we are not very good at detecting the absolute qualities of things\u2014their exact size or color or shape. What we are very good at is judging objects in the context of other objects and conditions. Let&#8217;s take a look at a few illusions to see how they are based on insights about our perception. Look at Figure 2 below. Which of the two horizontal yellow lines looks wider, the top one or the bottom one?<\/p>\n<figure id=\"attachment_3649\" aria-describedby=\"caption-attachment-3649\" style=\"width: 225px\" class=\"wp-caption aligncenter\"><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210125\/Ponzo_illusion.gif\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-3649 size-full\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210125\/Ponzo_illusion.gif\" alt=\"Lines of a railroad track as they converge off into the distance. One yellow line is close to the front of the image on the tracks and another line of the same size is placed towards the back of the image along the tracks. Because of the converging lines, the yellow line in the back appears larger than the line in the foreground.\" width=\"225\" height=\"166\" \/><\/a><figcaption id=\"caption-attachment-3649\" class=\"wp-caption-text\"><strong>Figure 2<\/strong>. The Ponzo Illusion.<\/figcaption><\/figure>\n<p>Most people experience the top line as wider. They are both exactly the same length. This experience is called the<strong> Ponzo Illusion<\/strong>. Even though you know that the lines are the same length, it is difficult to see them as identical. Our perceptual system takes the context into account, here using the converging \u201crailroad tracks\u201d to produce an experience of depth. Then, using some impressive mental geometry, our brain adjusts the experienced length of the top line to be consistent with the size it would have if it were that far away: if two lines are the same length on my retina, but different distances from me, the more distant line must be in reality, longer. You experience a world that \u201cmakes sense\u201d rather than a world that reflects the actual objects in front of you.<\/p>\n<p>There are many depth illusions. It is difficult to see the drawing on the left below as a two-dimensional figure. The converging lines and smaller square at the center seem to coax our perceptual systems into seeing depth, even though we know that the drawing is flat. This urge to see depth is probably so strong because our ability to use two-dimensional information to infer a three-dimensional world is essential for allowing us to operate in the world. The picture on the right below is a driving tunnel, something you would need to process at high speed if you were in a car going through it. Your quick and detailed use of converging lines and other cues allows you to make sense of this 3-D world.<\/p>\n<figure id=\"attachment_3650\" aria-describedby=\"caption-attachment-3650\" style=\"width: 514px\" class=\"wp-caption aligncenter\"><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210639\/Screen-Shot-2017-02-07-at-3.04.55-PM.png\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-3650 size-full\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07210639\/Screen-Shot-2017-02-07-at-3.04.55-PM.png\" alt=\"The drawing on the left shows a large square with a smaller square on the inside and lines connecting the corners of the inner and outer square. The secong image shows the inside of a tunnel.\" width=\"514\" height=\"222\" \/><\/a><figcaption id=\"caption-attachment-3650\" class=\"wp-caption-text\"><strong>Figure 3<\/strong>. Understanding depth enables us to function in a 3-dimensional world.<\/figcaption><\/figure>\n<h3>Light, Contrast, and Size Illusions<\/h3>\n<p>Depth is not the only quality in the world that shows how we adjust what we experience to fit the surrounding world. Look at the two gray squares in the figure below. Which one looks darker?<\/p>\n<figure id=\"attachment_3654\" aria-describedby=\"caption-attachment-3654\" style=\"width: 557px\" class=\"wp-caption aligncenter\"><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07211928\/Simultaneous_Contrast.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-3654\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07211928\/Simultaneous_Contrast.jpg\" alt=\"A dark black square with a gray square in the center next to a white square with a gray square in the middle. The black surrounding the gray makes the gray appear lighter than with the white background.\" width=\"557\" height=\"278\" \/><\/a><figcaption id=\"caption-attachment-3654\" class=\"wp-caption-text\"><strong>Figure 4<\/strong>. Which gray square appears darker?<\/figcaption><\/figure>\n<p data-start=\"3666\" data-end=\"3839\">Most people say the square on the right looks darker, even though the two are physically identical. The brain interprets each gray square <strong data-start=\"3806\" data-end=\"3838\">relative to its surroundings<\/strong>:<\/p>\n<ul>\n<li data-start=\"3843\" data-end=\"3902\">The gray square next to a white background appears darker<\/li>\n<li data-start=\"3905\" data-end=\"3956\">The same gray on a black background looks lighter<\/li>\n<\/ul>\n<p data-start=\"3958\" data-end=\"4069\">This reflects how the visual system enhances contrast to help us detect edges and boundaries in the real world.<\/p>\n<h3 data-start=\"4076\" data-end=\"4095\"><strong data-start=\"4079\" data-end=\"4095\">Benary Cross<\/strong><\/h3>\n<p>Here is another example below. The two triangular figures are identical in shade, but the triangle on the left looks lighter against the dark background of the cross when compared to the triangle in the white area on the right.<\/p>\n<figure id=\"attachment_3655\" aria-describedby=\"caption-attachment-3655\" style=\"width: 300px\" class=\"wp-caption aligncenter\"><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07212941\/569px-Benary_Cross.svg_.png\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-3655 size-medium\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07212941\/569px-Benary_Cross.svg_-300x300.png\" alt=\"Gray cross with a lighter gray triangle inside of the cross arm, and another outside of the arm of the cross. The triangle outside of the cross arm appears darker with its greater contrast against the white background.\" width=\"300\" height=\"300\" \/><\/a><figcaption id=\"caption-attachment-3655\" class=\"wp-caption-text\"><strong>Figure 5<\/strong>. Benary Cross<\/figcaption><\/figure>\n<h3 data-start=\"4430\" data-end=\"4467\"><strong data-start=\"4433\" data-end=\"4467\">Shadow and Lightness Constancy<\/strong><\/h3>\n<p>Our visual systems work with more than simple contrast. They also use our knowledge of how the world works to adjust our perceptual experience. Look at the checkerboard below.<\/p>\n<p>There are two squares with letters in them, one marked \u201cA\u201d and the other \u201cB\u201d. Which one of those two squares is darker?<\/p>\n<figure id=\"attachment_3656\" aria-describedby=\"caption-attachment-3656\" style=\"width: 300px\" class=\"wp-caption aligncenter\"><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07213735\/Optical.greysquares.arp_.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-3656 size-medium\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/07213735\/Optical.greysquares.arp_-300x242.jpg\" alt=\"A checkerboard with a large green cylinder on top of the gameboard, casting a shadow on the board. The shadow makes the pieces appear darker, so much so that the lighter &quot;B&quot; piece is actually the same color as the darker &quot;A&quot; piece.\" width=\"300\" height=\"242\" \/><\/a><figcaption id=\"caption-attachment-3656\" class=\"wp-caption-text\"><strong>Figure 6<\/strong>. Which looks darker, A or B?<\/figcaption><\/figure>\n<p>This seems like an easy comparison, but the truth is that squares A and B are identical in shade. Our perceptual system adjusts our experience by taking some visual information into account. First, \u201cA\u201d is one of the \u201cdark squares\u201d and \u201cB\u201d is a \u201clight square\u201d if we take the checkerboard pattern into account.<\/p>\n<p>Perhaps even more impressive, our visual systems notice that \u201cB\u201d is in a shadow. Object in a shadow appear darker, so our experience is adjusted to take account of effect of the shadow, resulting in perceiving square B as being lighter than square A, which sits in the bright light. And if you really don&#8217;t believe your eyes, take a look at a <a href=\"https:\/\/www.youtube.com\/watch?v=z9Sen1HTu5o\" target=\"_blank\" rel=\"noopener\">video showing the same color tiles here<\/a>.<\/p>\n<section class=\"textbox interact\">\n<h3 data-start=\"5190\" data-end=\"5235\"><strong data-start=\"5192\" data-end=\"5235\">Size Illusions: The Ebbinghaus Illusion<\/strong><\/h3>\n<p data-start=\"5237\" data-end=\"5358\"><span style=\"font-family: 'Public Sans', -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, Oxygen-Sans, Ubuntu, Cantarell, 'Helvetica Neue', sans-serif;\">One final illusion takes us back to adjustment for size. Look at the two sets of circles below. Your task is to adjust the center circle on the left so it is the same actual size as the center circle on the right. The surrounding circles will not change in size, though the right of circles will expand to accommodate the size of the center circle. Use the slide bar with the label \u201cSize of left circle\u201d to make your adjustments. When you are satisfied with your adjustment, check your accuracy by clicking on the \u201cVerify Diameter\u201d button. Click \u201cReset\u201d to try again.<\/span><\/p>\n<div style=\"text-align: center;\"><iframe loading=\"lazy\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/oerfiles\/Psychology\/interactives\/circles1.html\" width=\"530\" height=\"430\" data-mce-fragment=\"1\"><\/iframe><\/div>\n<p>This illusion is called the Ebbinghaus illusion, created by Hermann Ebbinghaus, one of the early founders of experimental psychology.<\/section>\n<p>Here is another example of the Ebbinghaus illusion:<\/p>\n<p><a href=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/02202255\/650px-Mond-vergleich.svg_.png\"><img loading=\"lazy\" decoding=\"async\" class=\"aligncenter wp-image-3581\" src=\"https:\/\/s3-us-west-2.amazonaws.com\/courses-images\/wp-content\/uploads\/sites\/855\/2017\/02\/02202255\/650px-Mond-vergleich.svg_.png\" alt=\"Large blue circles surrounding a small orange circle and a large (appearing) orange circle surrounded by blue circles. The center orange circles are in fact the same size.\" width=\"356\" height=\"219\" \/><\/a><\/p>\n<p>In this version of the illusion, most people see the circle on the right as larger than the one on the left. The two orange circles are exactly the same size. The Ebbinghaus illusion again illustrates the tendency of our perceptual systems to adjust our experience of the world to the surrounding context.<\/p>\n<section class=\"textbox tryIt\"><iframe loading=\"lazy\" id=\"ohm4060\" class=\"resizable\" src=\"https:\/\/ohm.one.lumenlearning.com\/multiembedq.php?id=4060&theme=lumen&iframe_resize_id=ohm4060&source=tnh&show_question_numbers\" width=\"100%\" height=\"400\"><\/iframe><\/section>\n<section class=\"textbox linkToLearning\">If you want to explore more visual illusions, <a href=\"https:\/\/michaelbach.de\/ot\/\" target=\"_blank\" rel=\"noopener\">visit this website\u00a0with dozens of interesting illusions<\/a> created by Michael Bach.<\/section>\n","protected":false},"author":20,"menu_order":32,"template":"","meta":{"_candela_citation":"[{\"type\":\"pd\",\"description\":\"Ponzo 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