White Matter and Grey Matter
There are two important components of the central nervous system known as the Grey Matter and White Matter.
Grey Matter is composed of neurons. Quite simply, grey matter is associated with the processing and cognition of the brain. It embodies the knowledge from outside material. The grey matter incorporates regions of the brain involved in muscle control and sensory perceptions- such examples include seeing and hearing, memory, emotions and speech.
The other main component of the brain is White Matter. White matter predominantly consists of neuronal tissue containing myelinated axons that basically transmit signals and link connections from one region of the cerebrum to another.
Grey and white matter is dispersed throughout various regions of the brain. Over the years, many professionals have proven that white matter may be significantly (to a large degree) the factor that determines an individual’s I.Q. It can be summarized that the ability to link knowledge is more beneficial than having a vast volume of knowledge itself.
Therefore, it is relatable in the fact that the differences in levels of white and grey matter is likely due to varying levels of stimulations required for normal brain development, according to neurologists. People have uncovered the fact that although Einstein did not have more grey matter than that of an average individual, he certainly did have more white matter. This proves that his brain had the greater ability to fill the gap connections within the grey matter- which means incorporating unrelated knowledge to form more. From this, we can more accurately assume that increased volume of white matter in Einstein’s brain has a profound effect on his IQ.
Grey Matter is composed of neurons. Quite simply, grey matter is associated with the processing and cognition of the brain. It embodies the knowledge from outside material. The grey matter incorporates regions of the brain involved in muscle control and sensory perceptions- such examples include seeing and hearing, memory, emotions and speech.
The other main component of the brain is White Matter. White matter predominantly consists of neuronal tissue containing myelinated axons that basically transmit signals and link connections from one region of the cerebrum to another.
Grey and white matter is dispersed throughout various regions of the brain. Over the years, many professionals have proven that white matter may be significantly (to a large degree) the factor that determines an individual’s I.Q. It can be summarized that the ability to link knowledge is more beneficial than having a vast volume of knowledge itself.
Therefore, it is relatable in the fact that the differences in levels of white and grey matter is likely due to varying levels of stimulations required for normal brain development, according to neurologists. People have uncovered the fact that although Einstein did not have more grey matter than that of an average individual, he certainly did have more white matter. This proves that his brain had the greater ability to fill the gap connections within the grey matter- which means incorporating unrelated knowledge to form more. From this, we can more accurately assume that increased volume of white matter in Einstein’s brain has a profound effect on his IQ.