As eccentricity increases, does cone density increase or decrease?

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Multiple Choice

As eccentricity increases, does cone density increase or decrease?

Explanation:
Cone distribution is highest at the fovea and drops off as you move away from it. Eccentricity measures distance from the fovea, so increasing eccentricity means you’re looking farther into the peripheral retina where fewer cones are packed per unit area. This comes from the retina’s organization: central vision requires very dense cone packing for sharp detail and color, while the periphery has much lower cone density and more rods to detect light and motion at lower resolution. So, as eccentricity increases, cone density decreases.

Cone distribution is highest at the fovea and drops off as you move away from it. Eccentricity measures distance from the fovea, so increasing eccentricity means you’re looking farther into the peripheral retina where fewer cones are packed per unit area. This comes from the retina’s organization: central vision requires very dense cone packing for sharp detail and color, while the periphery has much lower cone density and more rods to detect light and motion at lower resolution. So, as eccentricity increases, cone density decreases.

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