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This Course aims to Consolidate the ideas at the intersection of computing and physics. Contribute to the books resulting from the course with the help of your questions.
Computing via Physics: Explore the fundamental ideas that contributed to the "digitisation" of physical theory, from the prescriptive insights of Newton to modern computational physics, with a nod to quantum computing.
This Course aims to Consolidate the ideas at the intersection of computing and physics. Contribute to the books resulting from the course with the help of your questions.
Physics via Computing: Study the concepts and notions at the centre of the ongoing endeavour to synthesize two important traditions of thought, and become intimately familiar with the ideas and methods needed to perform serious research at the cutting-edge of quantum computing, physical information and modern physics.
Learn about the fundamental/supporting concepts in detail: statistical modelling, linear algebra, programming, rudimentary information theory etc. Highly vital material, all in one place.
Become an expert in the most intricately complex body of ideas and methods ever to have been clubbed together for a common purpose. Gain insights into little-discussed yet fundamental notions such as the foundational role of parameterisation and the relation between variational calculus and basic vector algebra.
Transcend the formulaic approaches to a subject that has been paralysed by rote and routine for decades. Study the underlying motivations and driving forces behind the invention of such fundamental constructions as Lebesgue measures and the implicit function theorem.
