The future of learning is motor-driven student learnography. In Book to Brain Learnography , the activation of key motor circuits - such as motor cortex, basal ganglia and cerebellum - ensures that knowledge is not only retained but also applied with precision. Discover how motor knowledge transfer fuels the creation of brainpages, enhancing cognitive processing and leading to improved active student achievement. Parts of Human Brain: Neuroscience of Knowledge Transfer This article explores the activation of motor circuits like the motor cortex, basal ganglia and cerebellum , explaining how student motor-driven engagement creates durable brainpage maps and modules from knowledge transfer. Active motor learning, book reading, writing and peer sharing stimulate deeper knowledge retention and improve cognitive processing. This model provides practical strategies to integrate motor knowledge transfer into modern classrooms for lasting student achievement. Highlights: Motor-Centric Approach...