Abstract The system of modern education faces a significant paradox. Students exhibit high levels of focus, motivation and self-driven behavior as mobile gamers. Yet they become passive and disengaged learners in traditional classrooms. This article explores the underlying causes of this contradiction and introduces a transformative framework based on brainpage theory and system learnography. By analyzing the roles of self-driven, self-directed and passive learners, it illustrates how conventional teaching methods often suppress the natural learning instincts seen in gaming environments. The concept of happiness classroom is presented as a learner-centric model that activates motor science, promotes brainpage development, and fosters autonomous knowledge acquisition. The article concludes with practical insights into how academic learning practices can be realigned with the neuroscience of engagement and motivation, turning passive learners into proactive participants in their own lear...

Abstract Modern education is running on the periods of teacher-centric classrooms . The transition from traditional education to learner-driven methodologies is reshaping modern knowledge acquisition. This article explores the distinction between self-driven learners and self-directed learners . The self-driven learners are fueled by intrinsic motivation and curiosity, while self-directed learners take the full control of their learning pathways through structured planning and self-regulation. This study is grounded in brainpage theory, system learnography and happiness classroom model. Taxshila Model highlights how motor science, thalamic cyclozeid rehearsal (TCR) and SOTIM framework enable deep knowledge transfer and retention. Miniature school approach empowers the learners to become small teachers, actively constructing and refining their brainpage modules. By fostering both self-driven and self-directed learning , learnography can shift from passive teaching to active brainpage de...

Push and Pull Theory of Learning Pathways redefines education by focusing on zeid energy. This is the brain's operational fuel for knowledge transfer. This dynamic zeid energy approach transitions students from teacher-driven learning to personalized learning and self-directed exploration , leveraging small teachers and collaborative strategies in the Happiness Classroom. Find out how to optimize brain energy for transformative brainpage learnography! Push and Pull Theory of Knowledge Transfer Explore how zeid energy drives effective knowledge transfer, empowering students through optimized learning strategies and dynamic classroom models . Understand how to transition from push-driven teaching to pull-based autonomous learning in the Happiness Classroom. Highlights: Role of Energy Dynamics in Learning Understanding Zeid Energy in Learning Push Phase: Driving Students on Learning Pathways Pull Phase: Harnessing Energy for Autonomous Learning Zeid Pathways in System Learnography Imp...

Small teachers do not teach in the classroom, but they share knowledge transfer and brainpage learning with their peers in task solving activities. In the dynamic world of knowledge transfer, the concept of "small teachers" is redefining the traditional teaching classroom . These small teachers are autonomous learners, a key component of the innovative learnography system. Bike Autonomous Learners: Application of Motor Science This article delves into how small teachers create brainpage maps and modules, engage in self-directed learning, and develop critical thinking skills. By taking control of their own learning processes, they transform the learning experience for themselves and their peers . System learnography deals with the role and benefits of small teachers as autonomous learners in knowledge transfer processing. Discover how collaborative learning environments and teacher facilitation support the growth of small teachers, paving the way for a more dynamic and effecti...