A person may be genius who displays exceptional intellectual ability, creative productivity and universal originality to a higher degree that is associated with the achievement of new advances in the domain of source knowledge. An individual becomes genius because of specialized anatomical regions of brain developed with the visuo-spatial learnography of higher level knowledge transfer and imagery brainpage modulation.
Specialized visuo-spatial learnography is applied to create big ideas and new theories, and invent the new discoveries of science and technology for the advancement of human civilization. The genius area of human brain is defined by the midline region of precuneus, retrosplenial cortex and posterior cingulate cortex. It projects the seventh dimension of knowledge transfer for high performing students.
Physics head also launches the five sections of source chapter in the classroom but he should be an expert in the fifth section of physics chapter. It represents the seventh dimension of knowledge transfer known as dark knowledge. Actually, this is the dimension of new knowledge, discoveries and theoretical explanations. High level topics are described in the fifth section of source chapters and harder questions are asked to activate the visuo-spatial learnography of student’s brain.
The brainpage modules of visualization are processed in the application of advanced knowledge transfer for the solution of complex and most challenging tasks. Visuo-spatial learnography of the brain is higher level knowledge transfer to apply intuitive ideas in the problem solving activities of harder tasks. It activates the genius area of human brain, especially the area of precuneus, retrosplenial cortex and posterior cingulate cortex in the right hemisphere of cerebral cortex.
The precuneus of human brain is involved with episodic memory, visuo-spatial processing, reflections upon self and the aspects of consciousness. The mental imagery concerning the self has been located in the forward part of precuneus. The posterior areas are involved with episodic memory and its another area has been linked to visuo-spatial imagery. Precuneus has been suggested to be involved in directing attention in space both when an individual makes movements and when it is performed in imaging or preparing those actions. It has been described that together with posterior cingulate cortex, the precuneus of parietal lobe is pivotal for visuo-spatial imagery and conscious information processing.
Taxshila School is the core academy of proficiency scholars for the age group of 10-14 years (adolescence). The collaboration of miniature schools has been designed for the learnography of Taxshila School. The core academy of knowledge transfer means core subjects that are biology, chemistry, innovation, mathematics and physics. Taxshila School runs for the classes of 9, 10, 11 and 12, and its academic span is the period of four years.
The normal size of brainpage classroom has been designed for 50 students. There are seven miniature schools in the classroom and each miniature school is formed by a group of seven students. Therefore, the classroom will have (7×7+1) = 50 students altogether with one phase superior. This is the core academy of knowledge transfer for biology, chemistry, innovation, mathematics and physics. Hence, all the students of a country will be produced as science graduates, the key resource of future workforce.
READ MORE …
Happiness Classroom ! Book is the transfer source of knowledge and student’s brain is the transfer target of learning. To be high performing students, make brainpage in collaborative classroom by applying the seven dimensions of knowledge transfer. The motor science of knowledge transfer should be launched in the classroom for the learning development and brainpage modules of Autistic or ADHD students. Let the students use motor knowledge to make smart brainpage in the classroom from book to brain direct learning transfer. The cyclozeid of knowledge transfer is rehearsed in the classroom to produce high speed zeidstream in the working mechanism of brain circuits.