The image features a comparison of how humans and starlings perceive the same starling. On the left, a starling is shown in human vision, appearing mostly dark with subtle speckles. On the right, the same starling is depicted in bird vision, showcasing vibrant colors and bolder markings. The top text reads, "Left: how humans see starlings. Right: how starlings may see each other - with bolder markings and more color."
Below the images, there are two graphs illustrating the differences in color perception. The left graph, labeled "Human Vision," shows a spectrum with peaks at 424, 530, and 560 nanometers, corresponding to the colors violet, green, and red, respectively. The right graph, labeled "Bird Vision," displays a broader spectrum with peaks at 370, 445, 508, and 665 nanometers, indicating a wider range of colors visible to birds, including ultraviolet.
The image effectively communicates the concept that birds, particularly starlings, have a more extensive color spectrum than humans, allowing them to perceive a wider range of colors and details in their environmen
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The image features a comparison of how humans and starlings perceive the same starling. On the left, a starling is shown in human vision, appearing mostly dark with subtle speckles. On the right, the same starling is depicted in bird vision, showcasing vibrant colors and bolder markings. The top text reads, "Left: how humans see starlings. Right: how starlings may see each other - with bolder markings and more color."
Below the images, there are two graphs illustrating the differences in color perception. The left graph, labeled "Human Vision," shows a spectrum with peaks at 424, 530, and 560 nanometers, corresponding to the colors violet, green, and red, respectively. The right graph, labeled "Bird Vision," displays a broader spectrum with peaks at 370, 445, 508, and 665 nanometers, indicating a wider range of colors visible to birds, including ultraviolet.
The image effectively communicates the concept that birds, particularly starlings, have a more extensive color spectrum than humans, allowing them to perceive a wider range of colors and details in their environment.
Provided by @altbot, generated privately and locally using Ovis2-8B
Altbot
Als Antwort auf Degrowth or Extinction • • •The image features a comparison of how humans and starlings perceive the same starling. On the left, a starling is shown in human vision, appearing mostly dark with subtle speckles. On the right, the same starling is depicted in bird vision, showcasing vibrant colors and bolder markings. The top text reads, "Left: how humans see starlings. Right: how starlings may see each other - with bolder markings and more color."
Below the images, there are two graphs illustrating the differences in color perception. The left graph, labeled "Human Vision," shows a spectrum with peaks at 424, 530, and 560 nanometers, corresponding to the colors violet, green, and red, respectively. The right graph, labeled "Bird Vision," displays a broader spectrum with peaks at 370, 445, 508, and 665 nanometers, indicating a wider range of colors visible to birds, including ultraviolet.
The image effectively communicates the concept that birds, particularly starlings, have a more extensive color spectrum than humans, allowing them to perceive a wider range of colors and details in their environmen
... mehr anzeigenThe image features a comparison of how humans and starlings perceive the same starling. On the left, a starling is shown in human vision, appearing mostly dark with subtle speckles. On the right, the same starling is depicted in bird vision, showcasing vibrant colors and bolder markings. The top text reads, "Left: how humans see starlings. Right: how starlings may see each other - with bolder markings and more color."
Below the images, there are two graphs illustrating the differences in color perception. The left graph, labeled "Human Vision," shows a spectrum with peaks at 424, 530, and 560 nanometers, corresponding to the colors violet, green, and red, respectively. The right graph, labeled "Bird Vision," displays a broader spectrum with peaks at 370, 445, 508, and 665 nanometers, indicating a wider range of colors visible to birds, including ultraviolet.
The image effectively communicates the concept that birds, particularly starlings, have a more extensive color spectrum than humans, allowing them to perceive a wider range of colors and details in their environment.
Provided by @altbot, generated privately and locally using Ovis2-8B
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