Recently, scientists at the Stanford University School of Medicine in the United States have pinpointed the number of "hot spots" in the brain, measuring 1/15 inch (1.7 mm) of brain area. Digital "hotspots" are sites in the brain that are first activated when people see ordinary numbers such as "6" and "38". This discovery helps to further search the brain for the flow of mathematical information to process brain regions and to guide clinical studies of patients with digital literacy and computational disabilities who are not capable of processing digital information. Rust Filter,Basket Filter,Stainless Steel Filter,Stainless Steel Water Filter Jiangsu Qiantu Trading Co., Ltd. , https://www.qtprimingpump.com
This is the first such study to date, proving the existence of a set of neurons that specifically deal with numbers in the human brain. “The response of this small group of nerve cells to numbers is more than the response to similar symbols, sounds, and meanings,†said Joseph Paviz, associate professor of neuroscience and neuroscience at the Stanford University’s Human Intracranial Cognitive Electrophysiology program. "This is a much stronger proof." This strongly proves that our brain circuits can be changed through education, because nobody knows numbers by nature. "In early studies, they already knew which areas of the brain were activated when a person focused on math problems. They noticed that there was a site in the lower arm, which was about 1 million to 2 million nerves." The metaclusters of neurons are extremely active in mathematical calculations. To further verify the universality, they sought seven patients with epilepsy who had implanted electrodes in the inferior temporal gyrus and nearby brain regions. They were asked to participate in experiments.
Pavizi said that the digital-processing neurons cluster is located in a larger group of neurons, and this larger group is activated by the visual symbols of line segments and curves at various angles. "In these neuronal populations, responses to numbers are more important than meanings and phonological responses. In many cases, these sites do respond more strongly to disordered letters and disordered numbers; however, in larger neural populations In the "Visual Digital Zone", the real number is more likely than the wrong type, consent or homophonic word."