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Wu_experiment abstract "The Wu experiment was a nuclear physics experiment conducted in 1956 by the Chinese American physicist Chien-Shiung Wu in collaboration with the Low Temperature Group of the US National Bureau of Standards. The experiment's purpose was to establish whether or not conservation of parity (P-conservation), which was previously established in the electromagnetic and strong interactions, also applied to weak interactions. If P-conservation were true, a mirrored version of the world (where left is right and right is left) would behave as the mirror image of the current world. If P-conservation were violated, then it would be possible to distinguish between a mirrored variation of the world and the mirror image of the current world.The experiment established that conservation of parity was violated (P-violation) by the weak interaction. This result was not expected by the physics community, which had previously regarded parity as a conserved quantity. Tsung-Dao Lee and Chen-Ning Yang, the theoretical physicists who originated the idea of parity nonconservation and proposed the experiment, received the 1957 Nobel Prize in physics for this result.".
Wu_experiment thumbnail Wu_experiment_at_Bureau_of_Standards.jpg?width=300.
Wu_experiment wikiPageExternalLink index.cfm.
Wu_experiment wikiPageID "36284621".
Wu_experiment wikiPageLength "16483".
Wu_experiment wikiPageOutDegree "85".
Wu_experiment wikiPageRevisionID "674725676".
Wu_experiment wikiPageWikiLink Absolute_zero.
Wu_experiment wikiPageWikiLink Adiabatic_demagnetization.
Wu_experiment wikiPageWikiLink Beta_decay.
Wu_experiment wikiPageWikiLink B–Bbar_oscillation.
Wu_experiment wikiPageWikiLink C-symmetry.
Wu_experiment wikiPageWikiLink CP-symmetry.
Wu_experiment wikiPageWikiLink CP-violation.
Wu_experiment wikiPageWikiLink CPT_symmetry.
Wu_experiment wikiPageWikiLink CPT_theorem.
Wu_experiment wikiPageWikiLink CP_violation.
Wu_experiment wikiPageWikiLink Category:1956_in_Washington,_D.C..
Wu_experiment wikiPageWikiLink Category:1956_in_science.
Wu_experiment wikiPageWikiLink Category:Electroweak_theory.
Wu_experiment wikiPageWikiLink Category:Physics_experiments.
Wu_experiment wikiPageWikiLink Charge_conjugation.
Wu_experiment wikiPageWikiLink Chen-Ning_Yang.
Wu_experiment wikiPageWikiLink Chien-Shiung_Wu.
Wu_experiment wikiPageWikiLink Chinese_American.
Wu_experiment wikiPageWikiLink Chinese_Americans.
Wu_experiment wikiPageWikiLink Chirality_(physics).
Wu_experiment wikiPageWikiLink Cobalt-60.
Wu_experiment wikiPageWikiLink Conserved_quantity.
Wu_experiment wikiPageWikiLink Cryogenics.
Wu_experiment wikiPageWikiLink Dark_matter.
Wu_experiment wikiPageWikiLink Electromagnetic_interaction.
Wu_experiment wikiPageWikiLink Electromagnetism.
Wu_experiment wikiPageWikiLink Electron.
Wu_experiment wikiPageWikiLink Electron_antineutrino.
Wu_experiment wikiPageWikiLink Electron_neutrino.
Wu_experiment wikiPageWikiLink Electroweak_interaction.
Wu_experiment wikiPageWikiLink Ernest_Ambler.
Wu_experiment wikiPageWikiLink Eugene_Wigner.
Wu_experiment wikiPageWikiLink Excited_state.
Wu_experiment wikiPageWikiLink Fermis_interaction.
Wu_experiment wikiPageWikiLink Fundamental_interaction.
Wu_experiment wikiPageWikiLink Gamma_ray.
Wu_experiment wikiPageWikiLink Georges_M._Temmer.
Wu_experiment wikiPageWikiLink Goldhaber_experiment.
Wu_experiment wikiPageWikiLink Helicity_(particle_physics).
Wu_experiment wikiPageWikiLink Henry_Boorse.
Wu_experiment wikiPageWikiLink Isotopes_of_cobalt.
Wu_experiment wikiPageWikiLink Isotopes_of_nickel.
Wu_experiment wikiPageWikiLink Kaon.
Wu_experiment wikiPageWikiLink Lagrangian_(field_theory).
Wu_experiment wikiPageWikiLink Landé_g-factor.
Wu_experiment wikiPageWikiLink Lepton.
Wu_experiment wikiPageWikiLink Literature_review.
Wu_experiment wikiPageWikiLink Low-temperature_physics.
Wu_experiment wikiPageWikiLink Magnetic_refrigeration.
Wu_experiment wikiPageWikiLink Mark_W._Zemansky.
Wu_experiment wikiPageWikiLink Mark_Zemansky.
Wu_experiment wikiPageWikiLink Martin_Gardner.
Wu_experiment wikiPageWikiLink National_Bureau_of_Standards.
Wu_experiment wikiPageWikiLink National_Institute_of_Standards_and_Technology.
Wu_experiment wikiPageWikiLink Neutrino.
Wu_experiment wikiPageWikiLink Neutron.
Wu_experiment wikiPageWikiLink Nickel-60.
Wu_experiment wikiPageWikiLink Nobel_Prize_in_Physics.
Wu_experiment wikiPageWikiLink Nobel_Prize_in_physics.
Wu_experiment wikiPageWikiLink Nuclear_physics.
Wu_experiment wikiPageWikiLink Operator_(mathematics).
Wu_experiment wikiPageWikiLink Parity_(physics).
Wu_experiment wikiPageWikiLink Pion.
Wu_experiment wikiPageWikiLink Proton.
Wu_experiment wikiPageWikiLink Radionuclide.
Wu_experiment wikiPageWikiLink Scientific_control.
Wu_experiment wikiPageWikiLink Spectroscopy.
Wu_experiment wikiPageWikiLink Standard_Model.
Wu_experiment wikiPageWikiLink Strong_interaction.
Wu_experiment wikiPageWikiLink T-symmetry.
Wu_experiment wikiPageWikiLink The_Ambidextrous_Universe.
Wu_experiment wikiPageWikiLink Time-reversal_symmetry.
Wu_experiment wikiPageWikiLink Tsung-Dao_Lee.
Wu_experiment wikiPageWikiLink Unstable_isotope.
Wu_experiment wikiPageWikiLink W_and_Z_bosons.
Wu_experiment wikiPageWikiLink W_boson.
Wu_experiment wikiPageWikiLink Weak_interaction.
Wu_experiment wikiPageWikiLink Wolfgang_Pauli.
Wu_experiment wikiPageWikiLink Τ–θ_puzzle.
Wu_experiment wikiPageWikiLink File:Chien-shiung_Wu_(1912-1997).jpg.
Wu_experiment wikiPageWikiLink File:Wu-Experiment_(English).png.
Wu_experiment wikiPageWikiLink File:Wu_experiment.jpg.
Wu_experiment wikiPageWikiLink File:Wu_experiment_at_Bureau_of_Standards.jpg.
Wu_experiment wikiPageWikiLinkText "An experiment".
Wu_experiment wikiPageWikiLinkText "Wu experiment".
Wu_experiment align "left".
Wu_experiment direction "vertical".
Wu_experiment footer "Bottom: P-asymmetry: A clock built like its mirrored image will not behave like the mirrored image of the original clock.".
Wu_experiment footer "Top: P-symmetry: A clock built like its mirrored image will behave like the mirrored image of the original clock.".
Wu_experiment hasPhotoCollection Wu_experiment.
Wu_experiment image "Parity clocks - P-conservation.svg".
Wu_experiment image "Parity clocks - P-violation.svg".
Wu_experiment width "300".