1000 Ashram schools

4,50,000 students

  • Ashram schools, which are residential schools that provide education and other services to children from marginalized communities, have been established in many remote parts of India to address the educational needs of underprivileged children. However, there are several issues associated with these schools, such as poor infrastructure, shortage of trained teachers, limited curriculum, inadequate funding, lack of community involvement, and instances of child abuse and neglect. Addressing these issues is crucial to ensuring that ashram schools are effective and serve the needs of the children they are intended to help.

Metaknowledger

Computational Learning Platform

  • Metaknowledger is a cutting-edge computational learning platform that is designed to revolutionize STEM education. Metaknowledger platform represents every piece of knowledge as a block of code, which is then stored on the blockchain ledger. By representing knowledge in this way, Metaknowledger creates a highly structured and interconnected learning environment that allows learners to build on their existing knowledge and acquire new skills and competencies.
    One of the key benefits of the Metaknowledger platform is its ability to provide learners with a personalized and adaptive learning experience. Because every piece of knowledge is represented in a block of code on the blockchain ledger, learners can easily share and collaborate on code and projects with their peers, creating a dynamic and supportive learning community.
    Whether you're a student, educator, or lifelong learner, Metaknowledger offers a powerful and innovative approach to learning that will help you achieve your goals and advance your career.

PHYSICS

Explore the fundamental principles that govern the natural world, from the tiniest subatomic particles to the largest structures in the universe. Through hands-on experiments and interactive simulations, students will gain a deep understanding of the laws of physics and their practical applications in fields such as engineering, technology, and space exploration.

CHEMISTRY

Our chemistry program uses our computational learning platform to provide students with a hands-on approach to learning about the properties and behavior of matter. Through virtual experiments and interactive simulations, students will develop a deep understanding of chemical concepts and their practical applications in fields such as medicine, materials science, nanotechnology, and energy.

MATHEMATICS

Our mathematics program is designed to help students develop problem-solving skills and a deep understanding of mathematical concepts through our novel computational learning platform. From algebra to calculus and beyond, students will learn to think critically and creatively about mathematical problems, developing the skills they need to succeed in any field that requires quantitative reasoning.

BIOLOGY

Explore the fascinating world of living organisms, from the molecular level to the ecosystem level. By combining interactive simulations with hands-on experiments, students will gain a deep understanding of the principles of genetics, ecology, and physiology, and how they apply to real-world challenges such as disease, conservation, and climate change.

FAQ

  • Metaknowledger promotes computational thinking which is a problem-solving approach that involves breaking down complex problems into smaller, more manageable parts, and then using logical reasoning and systematic analysis to solve them. It involves the use of algorithms, abstraction, and decomposition to solve problems and create solutions.
    Some key elements of computational thinking include:
    Decomposition: Breaking down a problem into smaller, more manageable parts.
    Abstraction: Identifying the key features of a problem and ignoring extraneous details.
    Algorithms: Developing a step-by-step process for solving a problem.
    Pattern recognition: Identifying patterns in data and using them to solve problems.
    Data representation: Using data structures, such as lists and tables, to organize and manipulate information.
    Debugging: Identifying and correcting errors in a solution.
    Optimization: Finding the most efficient solution to a problem by minimizing time, space, or other resources.
    Developing computational thinking skills can help individuals become more effective problem-solvers and more proficient in using technology to solve complex problems.

  • STEM (Science, Technology, Engineering, and Mathematics) education refers to education and learning activities related to these four academic disciplines. STEM education is focused on helping students develop critical thinking and problem-solving skills through hands-on, experiential learning, often using real-world examples and challenges.
    The goal of STEM education is to prepare students for careers in fields that are based on scientific and technological principles, such as engineering, computer science, and medicine. It also aims to encourage students to pursue further education and training in these fields and to develop the skills and knowledge needed to solve complex problems and create innovative solutions.
    STEM education can take place in a variety of settings, including schools, after-school programs, and community organizations. It includes activities such as hands-on experiments, design challenges, and project-based learning, as well as traditional classroom instruction.

  • We are working with the selected Ashram schools to develop and implement certain modules of the platform. Please note that the selection process for Ashram schools may vary and will be based on the program's criteria and objectives. Interested individuals are encouraged to stay tuned for the announcement of the public launch to learn more about the platform and how they can access it. Information on how to access the platform will be made available to the public at the time of the launch.