Action-based learning says the brain changes most when learners do things with knowledge transfer—touch it, move it, build it, and test it. In learnography, these purposeful actions convert learning into motor knowledge, and consolidate it as brainpage modules. These neural imprints drive long-term retention, faster retrieval, and transfer across contexts.| Taxshila Page
Discover how brainpage hours in the Taxshila Model of learnography redefine subject mastery by focusing on active knowledge processing instead of passive teaching hours.| Taxshila Page
In a world where education still clings to lecture-based pedagogy, Taxshila Model introduces a bold alternative: learnography. This brain-based framework replaces traditional teaching with learner training, transforming classrooms into the gyanpeeth spaces of autonomous learning and deep knowledge transfer.| Taxshila Page
Explore human intelligence how learner's brain builds, stores and executes knowledge through neural mechanisms that mirror computer programming.| taxshilateachers.blogspot.com
📕 Research Introduction: Mapping the Brain of Learnography| Taxshila Page
📘 Research Introduction: Genius Brain and Visual Learnography| Taxshila Page
🧠 Research Introduction: Hippocampus in Learnography| Taxshila Page
🚸 Research Introduction: Four Pillars of Student Excellence| Taxshila Page
Metacognition, motor science and reflective learning empower learners to build long-term memory, autonomy, and real-world problem-solving skills.| taxshilateachers.blogspot.com