This is because the periphery is more sensitive to light than the rest of your eyes. The reason it is so sensitive is due to a higher rod density in that area of the eyes, which are not as sensitive to color unlike the cones which make up most of our central vision.

Rods and cones, my friend. Rods and cones.

Those are the cells that your eyes use to see.

Cones are very specialized to see color and they are very focused in the central area of your eye, facing forward.

Rods are scattered more widely around the edges of the eye, and contribute a lot to peripheral vision. They’re not very good at perceiving colors, but they’re excellent at gathering a lot of light .

Rods are basically your night and peripheral vision. This also explains why low-light vision loses all color perception.

Cones are you visual acuity.

So, it’s just the way the vision cells in your eyes are arranged and how they function differently.

This is because the periphery is more sensitive to light than the rest of your eyes. The reason it is so sensitive is due to a higher rod density in that area of the eyes, which are not as sensitive to color unlike the cones which make up most of our central vision.

This is because the periphery is more sensitive to light than the rest of your eyes. The reason it is so sensitive is due to a higher rod density in that area of the eyes, which are not as sensitive to color unlike the cones which make up most of our central vision.

Rods and cones, my friend. Rods and cones.

Those are the cells that your eyes use to see.

Cones are very specialized to see color and they are very focused in the central area of your eye, facing forward.

Rods are scattered more widely around the edges of the eye, and contribute a lot to peripheral vision. They’re not very good at perceiving colors, but they’re excellent at gathering a lot of light .

Rods are basically your night and peripheral vision. This also explains why low-light vision loses all color perception.

Cones are you visual acuity.

So, it’s just the way the vision cells in your eyes are arranged and how they function differently.

Rods and cones, my friend. Rods and cones.

Those are the cells that your eyes use to see.

Cones are very specialized to see color and they are very focused in the central area of your eye, facing forward.

Rods are scattered more widely around the edges of the eye, and contribute a lot to peripheral vision. They’re not very good at perceiving colors, but they’re excellent at gathering a lot of light .

Rods are basically your night and peripheral vision. This also explains why low-light vision loses all color perception.

Cones are you visual acuity.

So, it’s just the way the vision cells in your eyes are arranged and how they function differently.

Imagine you have two kinds of eyes: one that can see colors and shapes very well, and one that can see in the dark very well. The color eyes are in the middle of your eyeballs, and the dark eyes are around them. When you are in a bright place, you use your color eyes more, and when you are in a dark place, you use your dark eyes more. But sometimes, when you are in a very dark place, your color eyes get confused and can’t see anything. Your dark eyes can still see a little bit, but only around the edges of your vision. So when you look directly at something in the dark, you are using your color eyes that can’t see it. But when you look away from it, you are using your dark eyes that can see it a little bit. That’s why things in the dark look clearer in your peripheral vision than when you look directly at them.

Imagine you have two kinds of eyes: one that can see colors and shapes very well, and one that can see in the dark very well. The color eyes are in the middle of your eyeballs, and the dark eyes are around them. When you are in a bright place, you use your color eyes more, and when you are in a dark place, you use your dark eyes more. But sometimes, when you are in a very dark place, your color eyes get confused and can’t see anything. Your dark eyes can still see a little bit, but only around the edges of your vision. So when you look directly at something in the dark, you are using your color eyes that can’t see it. But when you look away from it, you are using your dark eyes that can see it a little bit. That’s why things in the dark look clearer in your peripheral vision than when you look directly at them.

Imagine you have two kinds of eyes: one that can see colors and shapes very well, and one that can see in the dark very well. The color eyes are in the middle of your eyeballs, and the dark eyes are around them. When you are in a bright place, you use your color eyes more, and when you are in a dark place, you use your dark eyes more. But sometimes, when you are in a very dark place, your color eyes get confused and can’t see anything. Your dark eyes can still see a little bit, but only around the edges of your vision. So when you look directly at something in the dark, you are using your color eyes that can’t see it. But when you look away from it, you are using your dark eyes that can see it a little bit. That’s why things in the dark look clearer in your peripheral vision than when you look directly at them.