Book 106 - Burny

List as much existing science, engineering, math, philosophy as you can. List as much open questions in all subfields as you can. List as many problems that the world faces, short term and long term, as you can. List as much proposed solutions to all these science, engineering, math, philosophy questions and world problems as you can. If you think you can't do it, just do it, you can do it! Write a gigantic list of as much science as you can. Write a gigantic list of as much theoretical science as you can. Write a gigantic list of as much applied science as you can. Write a gigantic list of as much engineering as you can. Write a gigantic list of as much mathematics as you can. Write a gigantic list of as much philosophy as you can. Write a gigantic list of as much problems that the world faces, short term and long term, as you can. Write a gigantic list of as many open questions in all these subfields as you can. Write a gigantic list of as many open questions in all these topics as you can. Write a gigantic list of as much proposed solutions to all these open questions as you can. If you think you can't do it, just do it, you can do it! [x.com](https://twitter.com/burny_tech/status/1770496133791465874) List of sciences, open questions in various subfields, and proposed solutions Sciences: Physics: 1. Mechanics 2. Thermodynamics 3. Electromagnetism 4. Optics 5. Quantum mechanics 6. Relativity 7. Particle physics 8. Nuclear physics 9. Condensed matter physics 10. Astrophysics 11. Cosmology 12. Geophysics 13. Biophysics Chemistry: 14. Analytical chemistry 15. Inorganic chemistry 16. Organic chemistry 17. Physical chemistry 18. Biochemistry 19. Medicinal chemistry 20. Environmental chemistry 21. Polymer chemistry 22. Electrochemistry 23. Thermochemistry 24. Photochemistry 25. Radiochemistry 26. Astrochemistry Biology: 27. Anatomy 28. Physiology 29. Genetics 30. Microbiology 31. Botany 32. Zoology 33. Ecology 34. Evolutionary biology 35. Cell biology 36. Molecular biology 37. Neuroscience 38. Immunology 39. Virology 40. Paleontology 41. Biotechnology Earth Sciences: 42. Geology 43. Meteorology 44. Oceanography 45. Hydrology 46. Seismology 47. Volcanology 48. Glaciology 49. Paleoclimatology 50. Soil science 51. Atmospheric science 52. Planetary science Astronomy: 53. Observational astronomy 54. Radio astronomy 55. Infrared astronomy 56. Optical astronomy 57. Ultraviolet astronomy 58. X-ray astronomy 59. Gamma-ray astronomy 60. Astrometry 61. Celestial mechanics 62. Cosmology 63. Astrobiology 64. Archaeoastronomy Interdisciplinary Fields: 65. Materials science 66. Nanotechnology 67. Quantum computing 68. Bioinformatics 69. Computational biology 70. Systems biology 71. Synthetic biology 72. Biomedical engineering 73. Environmental science 74. Climate science 75. Geochemistry 76. Astrogeology 77. Space weather 78. Science education 79. History of science 80. Philosophy of science Questions: Physics: 1. What is the nature of dark matter and dark energy? 2. How can quantum mechanics and general relativity be reconciled? 3. Is string theory the correct theory of quantum gravity? 4. What caused the matter-antimatter asymmetry in the universe? 5. What is the origin of neutrino masses? 6. Is there a theory of everything? 7. What happens inside a black hole? 8. Are there additional dimensions of space-time? 9. What is the nature of time? 10. Is the universe finite or infinite? Chemistry: 11. How did life originate from chemical processes? 12. Can we design catalysts for any desired chemical reaction? 13. What is the ultimate limit of chemical complexity? 14. How can we efficiently store and transport hydrogen for energy applications? 15. Can we develop new materials that can efficiently capture and convert solar energy? 16. How can we design drugs that target specific proteins or DNA sequences? 17. What is the role of quantum effects in chemical reactions? 18. How can we predict the properties of complex materials from their molecular structure? 19. Can we develop self-healing materials? 20. How can we efficiently convert carbon dioxide into useful chemicals? Biology: 21. How did life originate on Earth? 22. What is the basis of consciousness? 23. How do genes and the environment interact to produce complex traits? 24. Can we regenerate organs or tissues? 25. How do cells communicate and coordinate their activities? 26. What is the role of the microbiome in health and disease? 27. Can we cure all cancers? 28. How do memories form and how are they stored in the brain? 29. Can we reverse the aging process? 30. What is the basis of complex behaviors and emotions? Earth Sciences: 31. How did the Earth and other planets form? 32. What is the structure and composition of the Earth's interior? 33. How do plate tectonics work? 34. Can we predict earthquakes and volcanic eruptions? 35. What causes mass extinctions? 36. How will climate change affect the Earth's ecosystems? 37. What is the role of the ocean in regulating the Earth's climate? 38. How do clouds form and what is their effect on climate? 39. What is the origin of the Earth's magnetic field? 40. How do we sustainably manage Earth's resources? Astronomy: 41. Is there life elsewhere in the universe? 42. What is the nature of dark matter and dark energy? 43. How did the first stars and galaxies form? 44. What is the ultimate fate of the universe? 45. What is the nature of black holes? 46. Are there other universes? 47. What is the origin of cosmic rays? 48. How do planets form? 49. What is the nature of gravity? 50. Are there habitable planets around other stars? Interdisciplinary Fields: 51. Can we create artificial intelligence that rivals human intelligence? 52. How can we use nanotechnology to create new materials and devices? 53. Can we develop quantum computers that can solve problems faster than classical computers? 54. How can we use bioinformatics to understand complex biological systems? 55. Can we create synthetic life forms? 56. How can we use materials science to create sustainable and environmentally friendly technologies? 57. Can we develop personalized medicine based on an individual's genetic profile? 58. How can we mitigate and adapt to climate change? 59. Can we develop new energy technologies that are clean, sustainable, and affordable? 60. How can we use science to address global challenges such as poverty, inequality, and conflict? Proposed solutions: Physics: 1. Dark matter: WIMPs, axions, sterile neutrinos, modified gravity theories 2. Quantum gravity: String theory, loop quantum gravity, causal dynamical triangulations 3. Matter-antimatter asymmetry: Leptogenesis, baryogenesis, CP violation 4. Neutrino masses: Seesaw mechanism, neutrino oscillations, Majorana neutrinos 5. Theory of everything: M-theory, loop quantum gravity, causal sets 6. Black hole information paradox: Hawking radiation, firewall hypothesis, holographic principle 7. Extra dimensions: Kaluza-Klein theory, Randall-Sundrum model, brane-world scenarios 8. Nature of time: Block universe, causal set theory, loop quantum cosmology 9. Finite or infinite universe: Cosmic microwave background radiation, topology of the universe Chemistry: 10. Origin of life: RNA world hypothesis, iron-sulfur world hypothesis, panspermia 11. Efficient hydrogen storage: Metal hydrides, chemical hydrides, carbon nanostructures 12. Solar energy conversion: Perovskite solar cells, artificial photosynthesis, quantum dots 13. Targeted drug delivery: Nanoparticles, antibody-drug conjugates, cell-penetrating peptides 14. Quantum effects in chemistry: Quantum tunneling, quantum coherence, entanglement 15. Predicting material properties: Density functional theory, machine learning, computational chemistry 16. Self-healing materials: Reversible covalent bonding, supramolecular chemistry, biomimetics 17. Carbon dioxide conversion: Electrochemical reduction, photocatalysis, enzymatic conversion Biology: 18. Origin of life: Abiogenesis, hydrothermal vent hypothesis, clay hypothesis 19. Consciousness: Integrated information theory, global workspace theory, quantum consciousness 20. Gene-environment interactions: Epigenetics, systems biology, genome-wide association studies 21. Organ regeneration: Stem cell therapy, tissue engineering, 3D bioprinting 22. Cell communication: Quorum sensing, gap junctions, exosomes 23. Microbiome and health: Probiotics, fecal microbiota transplantation, personalized nutrition 24. Cancer treatment: Immunotherapy, targeted therapy, precision medicine 25. Memory formation and storage: Synaptic plasticity, engram cells, optogenetics 26. Reversing aging: Senolytics, telomerase activation, caloric restriction mimetics 27. Complex behaviors and emotions: Connectomics, neuromodulation, computational psychiatry Earth Sciences: 28. Earth and planet formation: Nebular hypothesis, planetesimal hypothesis, giant impact hypothesis 29. Earth's interior structure: Seismic tomography, mineral physics, numerical modeling 30. Plate tectonics: Mantle convection, slab pull, ridge push 31. Earthquake and volcano prediction: Seismic monitoring, geodetic measurements, machine learning 32. Mass extinctions: Bolide impact hypothesis, volcanism, climate change 33. Climate change effects: Ecological niche modeling, species distribution modeling, ecosystem experiments 34. Ocean's role in climate: Ocean circulation models, carbon cycle models, paleoceanography 35. Cloud formation: Aerosol-cloud interactions, cloud microphysics, large eddy simulations 36. Earth's magnetic field: Dynamo theory, paleomagnetism, numerical simulations 37. Sustainable resource management: Circular economy, life cycle assessment, ecosystem services valuation Astronomy: 38. Life in the universe: Biosignatures, habitable zones, technosignatures 39. Dark matter and dark energy: Particle detectors, gravitational lensing, cosmological simulations 40. First stars and galaxies: James Webb Space Telescope, 21-cm cosmology, numerical simulations 41. Fate of the universe: Dark energy models, cosmological constant, big rip scenario 42. Black hole nature: Event Horizon Telescope, gravitational wave astronomy, holographic duality 43. Multiverse theories: Eternal inflation, string theory landscape, quantum cosmology 44. Cosmic ray origin: Supernova remnants, active galactic nuclei, pulsars 45. Planet formation: Core accretion model, disk instability model, exoplanet observations 46. Gravity: Modified Newtonian dynamics (MOND), tensor-vector-scalar gravity (TeVeS), entropic gravity 47. Habitable exoplanets: Biosignatures, exoplanet atmospheres, planetary habitability index Interdisciplinary Fields: 48. Artificial intelligence: Deep learning, reinforcement learning, explainable AI 49. Nanotechnology: Self-assembly, molecular machines, nanorobotics 50. Quantum computing: Quantum algorithms, error correction, quantum supremacy 51. Bioinformatics: Network analysis, machine learning, multi-omics data integration 52. Synthetic life: Minimal genome, xenobiology, protocells 53. Sustainable materials: Bioplastics, green chemistry, life cycle assessment 54. Personalized medicine: Pharmacogenomics, precision oncology, gene therapy 55. Climate change mitigation: Carbon capture and storage, renewable energy, geoengineering 56. Clean energy technologies: Fusion power, advanced nuclear reactors, grid-scale energy storage 57. Global challenges: Science diplomacy, evidence-based policymaking, transdisciplinary research