I think your brain processes visual information first because you naturally see things before you hear them. Like when you see a person hit a pitch, you see it but and instant later you hear the "crack". That has to do with light traveling faster than sound.
The visual cortex processes visual information in the brain. This part is present in occipital lobe.
One visual centre of the brain I know of is called the Visiospatial Sketchpad. This is where the brain is responsible for the temporary storage of visual and spatial information before being stored in your long term memory.
Your occipital lobe will affect your ability to process visual information if damaged.
A learning disability is a term to describe specific kinds of learning problems. A learning disability can cause a person to have trouble learning and using certain skills. Researchers believe that learning disabilities are caused by differences in how a person's brain works and how it processes information. Therefore an audio visual learning disability would mean that they have trouble processing information through auditory methods and visual methods they would however be able to process the information through hands on methods also known as tactile methods.
Yes, the visual pathways cross over in the brain. The right side of the brain processes left eye visual information and vice versa.
The optic radiations, one on each side of the brain, carry information from the thalamic lateral geniculate nucleus to layer 4 of the visual cortex. (primary visual cortex)
Because the visual channel to the brain can handle the most information.
Information visualization is the study of interactive visual representation. It shows how your brain interacts with the other things in your body and the world on the outside of your body.
occipital lobe- located just anterior to the occipital bone, it is responsible for the mechanical control of eyesight and the integration of visual input with other sensory experiences.
optic nerve is the one that transmits visual information from the retina to the brain.
photo-receptors that read messages from the outer world, create these messages into electric currents which then flow to the brain.
the information processor in a visual color measuring system is the human brain.