We are pushing the boundary of Computation and Artificial Intelligence (AI) everyday. Our participants from the every corner of the world
are joining to our mission of computational transformation and data awareness in Physics Education. Computation has matured into subdisciplines that have yielded a constellation
of methods ranging from AI, smart governance, healthcare, security, education etc. Our attempt will be
connecting people in Physics from every corner of the world to the common ground of Nepal Physical Society. We hope the valuable assessment, and
guidance can be developed through focused studies, monitoring and analysis in our projects and implement them in the Physics Education. Let's unite to bring
the Computational revolution!
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Your participation will elevate our global understanding
We are working in the separate focused group to design various projects in the Physics Classroom (e.g., Numerical Methods, Classical Mechanics, Statistical Physics, Quantum Physics, Electrodynamics and Condensed Matter Physics) to innovative Physics topics (e.g., Quantum Computing, Computational Neuro physics, Computational Genomics, Econophysics, Machine Learning and AI).
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Our training syllabus will guide you to your destination.
Getting Started with Latex, Jupyter Notebook, Github etc for classroom projects.
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Introductory courses in Python programming and data visualization for classroom.
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Walk through our projects contributed by our participants.
In this section we will discuss how to interpret and visualize different physical phenomena and equations related to numerical and mathematical methods by using computational advanced tools based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss how to interpret and visualize different physical phenomena, complex system and equations related to electrodynamics by using computational advanced tools based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss how to interpret and visualize different physical phenomena (e.g., the behavior of complex, many particle systems and their thermodynamics) based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss how to interpret and visualize different physical phenomena and equations related to quantum mechanics by using computational advanced tools based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss how to interpret and visualize different physical phenomena and equations related to classical mechanics by using computational advanced tools based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss about how to interpret and visualize different physical phenomena and equations related to nuclear and particle physics by using computational advanced tools based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss how to interpret and visualize different physical phenomena and equations related to solid state physics by using computational advanced tools based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss how to interpret and visualize different physical phenomena and equations by using advanced computational tools based on undergraduate and graduate syllabus. Please click the link to see details.
In this section we will discuss how to interpret and visualize complex system using quantum Computing with QisKit, and several data-visualization techniques different physical phenomena and system related to modern advancement in computation by using modern tools.
