You discover that the convergence ratio for the photoreceptors in the Zerons is opposite to that of humans, i.e the convergence ratio for rods is lower and the convergence ratio of cones is higher. The site and distribution of the photoreceptors is the same as in humans. Question: What might be true for Zerons vision? The images formed in the dark are sharper than those formed in light The central parts of their visual field aren't as sharp as the peripheral parts of their visual fields. They are better at forming color contrasts in images They have poor differentiation between black and white

Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
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You discover that the convergence ratio for the photoreceptors in the Zerons is opposite to that of
humans, i.e the convergence ratio for rods is lower and the convergence ratio of cones is higher. The
site and distribution of the photoreceptors is the same as in humans.
Question: What might be true for Zerons vision?
The images formed in the dark are sharper than those formed in light
The central parts of their visual field aren't as sharp as the peripheral parts of their visual fields.
They are better at forming color contrasts in images
They have poor differentiation between black and white
Transcribed Image Text:You discover that the convergence ratio for the photoreceptors in the Zerons is opposite to that of humans, i.e the convergence ratio for rods is lower and the convergence ratio of cones is higher. The site and distribution of the photoreceptors is the same as in humans. Question: What might be true for Zerons vision? The images formed in the dark are sharper than those formed in light The central parts of their visual field aren't as sharp as the peripheral parts of their visual fields. They are better at forming color contrasts in images They have poor differentiation between black and white
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