Track 14: Astrophysics
Astrophysics is a field of space science that uses the principles of chemistry and pharmacology to try to comprehend the macrocosm and how we fit within it. Astrophysics is a field of space science that uses the principles of chemistry and pharmacology to try to comprehend the macrocosm and how we fit within it. The study of the universe's stars, planets, worlds, nebulae, and other objects covers themes like its creation, evolution, and demise. The Sun, other stars, planets, extrasolar planets, the astral medium, and the cosmic microwave background are some of the topics explored. All electromagnetic diapason corridors are examined for emigrations from these things, and the parcels studied include refulgence, viscosity, temperature, and chemical composition. Astrophysicists use generalisations and methods from a wide range of scientific fields because astrophysics is such a broad field of study, including classical mechanics, electromagnetism, statistical mechanics, thermodynamics, amount mechanics, reciprocity, nuclear and particle physics, and infinitesimal and molecular physics. In reality, modern astronomical research frequently necessitates a significant amount of effort in the fields of theory and experimental drugs.
Related Conference of Track 14: Astrophysics
8th International Conference on Astronomy, Astrophysics and Space Science
16th International Conference on Exhibition on Lasers, Optics & Photonics
10th International Conference on Quantum Physics and Mechanics
9th International Meeting on Fluid Dynamics & Fluid Mechanics
Track 14: Astrophysics Conference Speakers
Recommended Sessions
- Track 10: Quantum Chemistry
- Track 11: Quantum entanglement
- Track 12: Quantum Field Theory (QFT)
- Track 13: Quantum Sensing
- Track 14: Astrophysics
- Track 15: Quantum Simulation
- Track 16: Quantum numbers and orbitals
- Track 17: Quantum Information Science(QIS)
- Track 18: Molecular Physics
- Track 19: Quantum electrodynamics (QED)
- Track 1: Quantum Technology
- Track 20: In-depth Quantum Physics
- Track 2: Quantum Computing
- Track 3: Nuclear physics
- Track 4: Wave function
- Track 5: Quantum Dynamics
- Track 6: Quantum Materials
- Track 7: Quantum cryptography
- Track 8: Quantum Mechanics
- Track 9: Quantum Gravity
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