This is one of the. Most interesting things ever…. I’m going to use your information in my speaking project and I’ll put this vid as a resource for sure ❤❤❤
I tried the closing one eye experiment but I could stil see the dots and the gap between the red lines..I guess the distance scales of the video are off too..
At 3:00, how is itn higher resolution processi ng at the bfovea if you only have five cells versus one hundred million on the periphery..because the light is more focused in the fewert number of cels I suppose? She should've clarified this.
She said 100s per cell on periphery. If the receptors are distributed somewhat evenly that means you have at least 20 times more cells for detecting light in the center compared to periphery, hence the higher resolution.
This is one of the. Most interesting things ever…. I’m going to use your information in my speaking project and I’ll put this vid as a resource for sure ❤❤❤
Any reference of neural circuit? Thanks.
I tried the closing one eye experiment but I could stil see the dots and the gap between the red lines..I guess the distance scales of the video are off too..
At 3:00, how is itn higher resolution processi ng at the bfovea if you only have five cells versus one hundred million on the periphery..because the light is more focused in the fewert number of cels I suppose? She should've clarified this.
She said 100s per cell on periphery. If the receptors are distributed somewhat evenly that means you have at least 20 times more cells for detecting light in the center compared to periphery, hence the higher resolution.