Our eyes and ears might be called transformers since they sense the light and sound around us and turn them into electrical impulses that the brain can interpret. These electrical impulses that have been transformed by the eye and ear reach the brain and turned into message that we can interpret. For the eye, the process being as eye admits light waves, bends them at the cornea and lens, and then focuses them on the retina. At the back of each eye, never fibers bundle together to from optic nerves. Which join and then split into two optic tracts? Some of the fibers cross, so that part of the input from the right visual field goes into the left side of the brain, and vice versa. The process in the ear is carried out through sensory cells that are carried in fluid-filled canals and that are extremely sensitive to vibration. Sound that is transformed into electricity travels along nerve fibers in the auditory nerve. These fibers form a synopsis with neurons that carry the message to the auditory cortex on each side of the brain.
Our eyes and ears might be called transformers since they sense the light and sound around us and turn them into electrical impulses that the brain can interpret. These electrical impulses that have been transformed by the eye and ear reach the brain and turned into message that we can interpret. For the eye, the process being as eye admits light waves, bends them at the cornea and lens, and then focuses them on the retina. At the back of each eye, never fibers bundle together to from optic nerves. Which join and then split into two optic tracts? Some of the fibers cross, so that part of the input from the right visual field goes into the left side of the brain, and vice versa. The process in the ear is carried out through sensory cells that are carried in fluid-filled canals and that are extremely sensitive to vibration. Sound that is transformed into electricity travels along nerve fibers in the auditory nerve. These fibers form a synopsis with neurons that carry the message to the auditory cortex on each side of the brain.