#TSSM (The Sub Structure Mosaic) --- SynTalk episode artwork

EPISODE · Sep 30, 2023 · 1H 16M

#TSSM (The Sub Structure Mosaic) --- SynTalk

from SynTalk · host SynTalk

Are humans statistical systems with random biases? Is the world fundamentally discrete, & the continuum an emergent property? Or, is the quantum world foamy? Should black holes be a part of the Standard Model? Does the Standard Model (surely) undergird the periodic table? Is space-time merely a causal ordering of events? Where does physics end, and chemistry begin? Can the shape of water molecule be inferred from macroscopic water? How is the whole different from the sum of its parts? Can having a very old universe help with these questions? What may have led to structures in the early universe? Are the various scales interconnected? Are molecular geometries & properties better understood via electron density functions rather than wave functions? ‘How’ are n-electron systems confined? Can you ‘visualize’ the (network-like) posets? When/which systems self organize? Are there different collective behaviours at different scales? Can we synthesize a complete living system? Can the spectra of any newly synthesized molecule be predicted – & how? Can earthquakes be predicted precisely? &, what are a few open questions? SynTalk thinks about these & more questions using ideas from statistical physics (Prof. Deepak Dhar, IISER, Pune), quantum chemistry (Prof. Kalidas Sen, University of Hyderabad, Hyderabad), & quantum physics (Prof. Sumati Surya, Raman Research Institute (RRI), Bangalore). Listen in...

Episode metadata supplied by the publisher feed · Published Sep 30, 2023

Are humans statistical systems with random biases? Is the world fundamentally discrete, & the continuum an emergent property? Or, is the quantum world foamy? Should black holes be a part of the Standard Model? Does the Standard Model (surely) undergird the periodic table? Is space-time merely a causal ordering of events? Where does physics end, and chemistry begin? Can the shape of water molecule be inferred from macroscopic water? How is the whole different from the sum of its parts? Can having a very old universe help with these questions? What may have led to structures in the early universe? Are the various scales interconnected? Are molecular geometries & properties better understood via electron density functions rather than wave functions? ‘How’ are n-electron systems confined? Can you ‘visualize’ the (network-like) posets? When/which systems self organize? Are there different collective behaviours at different scales? Can we synthesize a complete living system? Can the spectra of any newly synthesized molecule be predicted – & how? Can earthquakes be predicted precisely? &, what are a few open questions? SynTalk thinks about these & more questions using ideas from statistical physics (Prof. Deepak Dhar, IISER, Pune), quantum chemistry (Prof. Kalidas Sen, University of Hyderabad, Hyderabad), & quantum physics (Prof. Sumati Surya, Raman Research Institute (RRI), Bangalore). Listen in...

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#TSSM (The Sub Structure Mosaic) --- SynTalk

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Are humans statistical systems with random biases? Is the world fundamentally discrete, & the continuum an emergent property? Or, is the quantum world foamy? Should black holes be a part of the Standard Model? Does the Standard Model (surely)...

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