Want this question answered?
Retina
Ganglion cells, bipolar cells, photoreceptors.
No it is not. It is there in stratosphere.
it's separate and not together so it would be a separate layer
The ozone layer happens by UV rays.They decompose and replenish it.
Retina
We can classify neural networks in several groups according to following criteria:Perceptron networksNumber od layers:single layer neural networksmultiple layer neural networksDirection of signal propagation:forward propagationrecurentOther structuresKohonen networksHopfield networksOther typesRadial Basis Function networksOrtogonal activating function neural networksmany others... see wikipedia
The transparent inner neural layer of the RETINA
The neural tube is the part of the development of the central nervous system in a developing embryo. What is pretty amazing about this is that within the first 4 weeks of development from conception, the entire framework of the central nervous system will have finished forming! Around day 18, the neural plate appears at the midline of the thickening of the ectoderm, the outermost layer of the germinal sac. Essentially what happens over the next couple of days is that the neural plate forms a depression, which eventually is pushed down and separated from the original cell layer by the fusion of the neural crests, resulting in the formation of a neural tube - this is rather hard to explain without a proper diagram!
Ganglion cells, bipolar cells, photoreceptors.
Retina
False.
true
No it is not. It is there in stratosphere.
it's separate and not together so it would be a separate layer
The choroid, also known as thechoroideaorchoroid coat, is thevascular layer of the eye, containingconnective tissue, and lying between theretina and thesclera.The choroid providesoxygen and nourishment to the outer layers of theretina. Along with theciliary body andiris, the choroid forms theuveal tract.
The retina is responsible for transducing light into neural impulses. It is a layer of tissue located at the back of the eye that contains photoreceptor cells (rods and cones) that convert light into electrical signals that can be processed by the brain.