A mysterious ghostly particle that exist in our universe #shorts #space #science

Do you know, there exists a particle which is visually massless and can pass through anything without any problem? Meet the neutrino. Neutrinos are subatomic particles that are so tiny and lightweight that they are often referred to as ghost particles. They have no electrical charge and interact very weakly with matter, which means they can pass through entire planets, stars, and even us humans, without being stopped or deflected. They are produced in massive quantities by nuclear reactions in stars, as well as by cosmic ray interactions with Earth's atmosphere. They are also created in nuclear reactors and particle accelerators on Earth. Despite their elusive nature, neutrinos play an important role in the universe. as they hold important clues to some of the biggest mysteries of the universe. their behavior could help us understand why there is more matter than antimatter in the universe, and why the universe is expanding at an accelerating rate. So the next time you look up at the stars, remember that the universe is filled with these tiny, elusive particles called neutrinos, silently passing through everything in their path. Voice over by lovo.ai edited by me :) keywords & tags:- Neutrino Subatomic particle Electron Muon Tau Oscillation Nuclear reactions Stars Cosmic rays Earth's atmosphere Nuclear reactors Particle accelerators Massless Lightweight Ghost particle Electric charge Weakly interacting Dark matter Antimatter Matter Universe Expansion Cosmic mysteries Space Galaxy Astronomy Astrophysics Nuclear physics Particle physics Dark energy Quantum mechanics Elementary particle Physics Science Research Experiment Detection Technology Detector Super Kamiokande IceCube DUNE NOvA T2K Neutrino factory Neutrino telescope Neutrino oscillation experiments Neutrino mass Neutrino energy Neutrino flavor Neutrino interaction Neutrino astronomy Neutrino detection Neutrino properties Neutrino sources Neutrino energy spectrum Neutrino cross-section Neutrino scattering Neutrino background Neutrino astrophysics Neutrino cosmology Neutrino flux Neutrino mixing Neutrino interaction with matter Neutrino detectors in space Neutrino theory Neutrino decay Neutrino mass hierarchy Neutrino physics beyond the Standard Model Neutrino detectors underground Neutrino data analysis Neutrino radiation Neutrino experiments Neutrino beams Neutrino sources and detection techniques Neutrino beams and detectors Neutrino experiments at CERN Neutrino beamline Neutrino beam flux Neutrino beams and detectors in Europe Neutrino beams and detectors in Asia Neutrino beams and detectors in the Americas Neutrino beams and detectors in Africa Neutrino detectors and data analysis Neutrino mass and mixing Neutrino oscillation parameters Neutrino observatories Neutrino telescopes Neutrino radiation detection Neutrino radiation sources Neutrino radiation and detection techniques Neutrino radiation and its effects Neutrino radiation shielding Neutrino radiation therapy Neutrino radiation hazards Neutrino radiation in space Neutrino radiation measurement Neutrino radiation detectors Neutrino radiation and cancer Neutrino radiation and radiation therapy Neutrino radiation and radiation shielding Neutrino radiation and space exploration Neutrino radiation and human health Neutrino radiation and particle physics Neutrino radiation and astrophysics Neutrino radiation and cosmology Neutrino radiation and nuclear physics Atom Nucleus Electron Proton Neutron Quark Gluon Photon Boson Fermion Hadron Meson Baryon Lepton Antiparticle Annihilation Fusion Fission Beta decay Alpha decay Quantum mechanics Quantum field theory Quantum entanglement Uncertainty principle Schrödinger equation Wave-particle duality Superposition Quantum tunneling Quantum computing Quantum teleportation Entangled particles Quantum states Bell's inequality Decoherence EPR paradox Quantum electrodynamics Quantum chromodynamics Standard Model Grand Unified Theory String theory M-theory Black holes Hawking radiation Wormholes Time travel Cosmic inflation Multiverse Many-worlds interpretation Copenhagen interpretation EPR experiment Quantum nonlocality Quantum fluctuations Zero-point energy Casimir effect Quantum field Quantum gravity Dark energy Dark matter Elementary particles Supersymmetry Neutrino oscillations Quantum measurement problem Quantum coherence Entanglement swapping Quantum key distribution Quantum cryptography Quantum algorithms Quantum error correction Quantum gate Quantum bit Quantum dot Quantum well Quantum wire Quantum hall effect Quantum point contact Quantum spintronics Quantum magnetism Quantum phase transitions Bose-Einstein condensate Degenerate matter High-energy physics Particle detectors Accelerators Cosmic rays Neutron stars Pulsars Gravitational waves Dark energy surveys Dark matter experiments Antimatter experiments Proton decay experiments Nuclear fusion experiments Nuclear fission experiments Beta decay experiments Alpha decay experiments