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- MiHsC abstract "MiHsC, acronym for Modification of inertia by a Hubble-scale Casimir effect, or quantised inertia, is a cosmological theory developed by Mike McCulloch, a physicist at Plymouth University, England. The theory attempts to explain the cause of inertia, which is not completely defined by general and special relativity.MiHsC theory relies on Mach's Principle and the Zero-point field of quantum theory. The theory posits a boundary exists as to how far away objects influencing inertia can be. This boundary is the point at which light (and therefore any information) will never be able to reach an object, because either cosmic acceleration or its own acceleration outpaces the speed of light. Anything beyond this event horizon (called the Hubble horizon or the Rindler horizon respectively) is outside the observable universe, and therefore can't affect the object at the center of the Rindler space.The Rindler event horizon is effectively the same as a black hole's event horizon. At a black hole's event horizon, quantum virtual particle pairs are occasionally separated by gravity, resulting in particle emissions known as the Hawking radiation. For a Rindler horizon, a similar radiation is suspected to exist, called the Unruh radiation.MiHsC posits that Unruh radiation causes inertia: as a particle accelerates, the Rindler information horizon expands in the direction of acceleration, and contracts behind it. This is similar in form to the Casimir effect: a non-fitting partial wave would allow an observer to infer what lies beyond the event horizon, so it would not be a horizon anymore. This logical assumption disallows Unruh waves that don't fit behind an accelerating object. As a result, more Unruh radiation pressure hits the object coming from the front than from the rear and this imbalance pushes it back against its acceleration, resulting in the effect we observe as inertia.There is also an event horizon much further away, at the Hubble horizon, so even in front of the accelerating object, some of the Unruh waves are disallowed, especially the very long Unruh waves that exist if the object has a very low acceleration. Then MiHsC predicts such an object with very low acceleration would lose inertial mass in a new way.Unlike alternative modified models of gravity, MiHsC does not use any ad hoc parameters to fit observations. It notably resolves the observed discrepancies in galactic rotation velocities and cosmological acceleration without the need for dark matter or dark energy, and proposes an explanation for the Pioneer and flyby anomalies. It would also explain the anomalous thrust detected in recent experiments of the EmDrive without violating conservation of momentum. It has been suggested there may be a link between MiHsC and holographic entropic gravity models.As of 2015, McCulloch is still refining MiHsC theory and intends to publish further papers which may include testable predictions. He wrote a book summarizing the theory.".
- MiHsC wikiPageExternalLink physicsfromtheedge.blogspot.fr.
- MiHsC wikiPageID "47552303".
- MiHsC wikiPageLength "8883".
- MiHsC wikiPageOutDegree "40".
- MiHsC wikiPageRevisionID "683834874".
- MiHsC wikiPageWikiLink Accelerating_universe.
- MiHsC wikiPageWikiLink Black_hole.
- MiHsC wikiPageWikiLink Casimir_effect.
- MiHsC wikiPageWikiLink Category:Astronomical_hypotheses.
- MiHsC wikiPageWikiLink Category:Astrophysics.
- MiHsC wikiPageWikiLink Category:Classical_mechanics.
- MiHsC wikiPageWikiLink Category:Theories_of_gravitation.
- MiHsC wikiPageWikiLink Category:Unsolved_problems_in_physics.
- MiHsC wikiPageWikiLink Cosmological_horizon.
- MiHsC wikiPageWikiLink Cosmology.
- MiHsC wikiPageWikiLink Dark_energy.
- MiHsC wikiPageWikiLink Dark_matter.
- MiHsC wikiPageWikiLink Entropic_gravity.
- MiHsC wikiPageWikiLink Event_horizon.
- MiHsC wikiPageWikiLink Flyby_anomaly.
- MiHsC wikiPageWikiLink Galaxy_rotation_curve.
- MiHsC wikiPageWikiLink General_relativity.
- MiHsC wikiPageWikiLink Gravity.
- MiHsC wikiPageWikiLink Hawking_radiation.
- MiHsC wikiPageWikiLink Holographic_principle.
- MiHsC wikiPageWikiLink Inertia.
- MiHsC wikiPageWikiLink Light.
- MiHsC wikiPageWikiLink Machs_Principle.
- MiHsC wikiPageWikiLink Machs_principle.
- MiHsC wikiPageWikiLink Modified_Newtonian_dynamics.
- MiHsC wikiPageWikiLink Modified_models_of_gravity.
- MiHsC wikiPageWikiLink Momentum.
- MiHsC wikiPageWikiLink Observable_universe.
- MiHsC wikiPageWikiLink Pioneer_anomaly.
- MiHsC wikiPageWikiLink Plymouth_University.
- MiHsC wikiPageWikiLink Quantum_field_theory.
- MiHsC wikiPageWikiLink RF_resonant_cavity_thruster.
- MiHsC wikiPageWikiLink Radiation_pressure.
- MiHsC wikiPageWikiLink Rindler_coordinates.
- MiHsC wikiPageWikiLink Special_relativity.
- MiHsC wikiPageWikiLink Speed_of_light.
- MiHsC wikiPageWikiLink Unruh_effect.
- MiHsC wikiPageWikiLink Vacuum_polarization.
- MiHsC wikiPageWikiLink Vacuum_state.
- MiHsC wikiPageWikiLinkText "MiHsC".
- MiHsC day "18".
- MiHsC hasPhotoCollection MiHsC.
- MiHsC help "off".
- MiHsC month "September".
- MiHsC page "MiHsC".
- MiHsC substed "yes".
- MiHsC timestamp "20150918141225".
- MiHsC wikiPageUsesTemplate dated.
- MiHsC wikiPageUsesTemplate Template:Reflist.
- MiHsC year "2015".
- MiHsC subject Category:Astronomical_hypotheses.
- MiHsC subject Category:Astrophysics.
- MiHsC subject Category:Classical_mechanics.
- MiHsC subject Category:Theories_of_gravitation.
- MiHsC subject Category:Unsolved_problems_in_physics.
- MiHsC hypernym Theory.
- MiHsC type Book.
- MiHsC comment "MiHsC, acronym for Modification of inertia by a Hubble-scale Casimir effect, or quantised inertia, is a cosmological theory developed by Mike McCulloch, a physicist at Plymouth University, England. The theory attempts to explain the cause of inertia, which is not completely defined by general and special relativity.MiHsC theory relies on Mach's Principle and the Zero-point field of quantum theory. The theory posits a boundary exists as to how far away objects influencing inertia can be.".
- MiHsC label "MiHsC".
- MiHsC wasDerivedFrom MiHsC?oldid=683834874.
- MiHsC isPrimaryTopicOf MiHsC.