Chapter brain, limbic brain and core brain of knowledge transfer for high performing kids

School 2020

• Chapter brain, limbic brain and core brain of knowledge transfer for high performing kids
• No cerebellum or lack of cerebellar parts in human brain
• Laws of Motor Science
• Cerebellar learnography of student’s brain for school learning and knowledge transfer
• Make high performing brainpage schools to change the world with pencil power and knowledge transfer

Learning is knowledge transfer to student’s brain circuits

A student’s brain has 12 distinct anatomical regions to process the learning transfer of subject matter. Cognition, emotion and intuition are the three functional aspects of learning transfer. Hence, brain learnography deals with the three basic parts of learning brain such as chapter brain, limbic brain and core brain. Each of these learning parts consists of four distinct anatomical regions to process, modulate and regulate the brainpage circuitry of knowledge transfer.

1. Chapter Brain

This part of the student’s brain deals with the learning transfer of cognitive knowledge. Cerebral cortex is the largest part of human brain in respect to the volume of gray matter and white matter. Chapter brain consists of the neocortex and cortical circuits of cerebrum defined as the learning parts of cognition. It spans through the frontal, parietal, occipital and temporal lobes of human brain. In fact, temporal lobe is significant in learning transfer considered as the knowledge processor of student’s brain.

The primary cortex of chapter brain is found in small size, but association cortex occupies the large area of cerebral cortex. In this way, primary and association cortices are considered as the main parts of chapter brain which are folded, convoluted and twisted with sulci and gyri to increase the surface area of gray matter. Cognitive knowledge is processed in the frontal, parietal, occipital and temporal regions of chapter brain to develop the matrix, spectrum and blocks of learning transfer.

2. Limbic Brain

This part of the student’s brain deals with the learning transfer of emotional knowledge. Learning and working passions are generated in the limbic brain of human beings. It spans through four distinct regions of the subcortical brain such as cingulate gyrus, parahippocampal gyrus, diencephalon and basal ganglia. Emotion is modulated in posterior cingulate cortex and then projected to anterior cingulate cortex for the production of zeid factors. These factors of the working passion are passed to the amygdala for the modulation of emotional drives. Hippocampus is important for learning and memory which has reciprocal connections with amygdala circuitry and the hypothalamus of diencephalon.

Papez Circuit deals with the functional streams of emotions and zeid factors in limbic circuits while McLean Circuit is significant in the generation of emotional drives and the consolidation of learning and memory. In this way, McLean proposed the theory of memory circuit by including the role of amygdala that emotional factors are important in the learning transfer to consolidate memory finally in the cortical regions of chapter brain. The cognitive circuit, limbic circuit and motor circuit of basal ganglia are converged by the thalamus of diencephalon to bring significant changes in the behaviors and functions of learning transfer through direct and indirect pathways.

3. Core Brain

This part of the student’s brain deals with the learning transfer of intuitive knowledge. Brainstem is the main part of core brain which deals with the basic functions of life such as breathing, circulation and digestion. The core brain of learnography spans through four distinct regions – cerebellum, medulla, pons and mid brain. Cerebellum is mainly known for the functions of precise motor coordination with space and time. It also coordinates the the functions of emotional and cognitive knowledge in learning transfer.

All types of learning such as declarative knowledge, emotional knowledge and implicit knowledge are ultimately converted into motor knowledge in basal ganglia circuitry with specific zeid factor. Then well-defined motor knowledge is projected to the circuits of cerebellum for the fine-tuning of learning transfer with order, space and time. Learning transfer becomes useless in practice if it is not converted into corresponding motor knowledge. Cerebellar basal ganglia circuitry of human brain plays a crucial role in the effective knowledge transfer of academic performance. ln fact, core brain is the house of dark knowledge that deals with the intuitive ideas, creativity and innovation of advanced technology.