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Origin of Inertia Extended Mach’s Principle and Cosmological Consequences Amitabha Ghosh Apeiron Montreal Published by Apeiron 4405, rue St-Dominique Montreal, Quebec H2W 2B2 Canada http://redshift.vif.com © Amitabha Ghosh First Published 2000 Canadian Cataloguing in Publication Data Ghosh, Amitabha, 1941 Dec. 3- Origin of inertia : extended Mach’s principle and cosmological consequences Includes Index ISBN 0-9683689-3-X 1. Inertia (Mechanics) 2. Mach’s principle. 3. Celestial mechanics. I. Title. QC137.G48 2000 521 C00-900906-X Cover design by Priyadarshi Patnaik Contents 1 Introduction 1 1.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1.2 MeanRestFrame . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.3 LawsofMotionandUniversalGravitation . . . . . . . . . . . . . . . 5 1.3.1 Thediscoveryofdynamics . . . . . . . . . . . . . . . . . . . 5 1.3.2 Thelawsofmotionanduniversalgravitation . . . . . . . . . 6 1.3.3 Thebasicnatureofmotion . . . . . . . . . . . . . . . . . . . 7 2 DifficultieswithNewton’sLawsofMotion 9 2.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 2.2 DifficultiesAssociatedwiththeLaws . . . . . . . . . . . . . . . . . 10 2.3 DifficultieswiththePredictions . . . . . . . . . . . . . . . . . . . . 13 2.4 ProposedModifications . . . . . . . . . . . . . . . . . . . . . . . . . 15 3 Mach’sPrincipleandInertialInduction 23 3.1 TheOriginofInertia . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.2 QuantifyingMach’sPrinciple. . . . . . . . . . . . . . . . . . . . . . 26 3.3 RelativeContributionstoInertiaandMassAnisotropy . . . . . . . . 30 4 ExtensionofMach’sPrinciple 33 4.1 ExtensionofMach’sPrinciple . . . . . . . . . . . . . . . . . . . . . 33 4.2 DynamicGravitationalInteraction . . . . . . . . . . . . . . . . . . . 34 4.3 InertialInduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 5 UniversalInteractionandCosmicDrag 39 5.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 5.2 ModeloftheUniverse . . . . . . . . . . . . . . . . . . . . . . . . . 39 5.3 LawofMotionandCosmicDrag . . . . . . . . . . . . . . . . . . . . 41 5.4 MagnitudeofCosmicDrag . . . . . . . . . . . . . . . . . . . . . . . 45 iii iv CONTENTS 6 CosmicDrag:CosmologicalImplications 49 6.1 CosmicDragandtheFirstLawofMotion . . . . . . . . . . . . . . . 49 6.2 CosmicDragandCosmologicalRedshift. . . . . . . . . . . . . . . . 50 6.3 HubbleAnisotropy . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 6.4 RotatingBodiesinSpace . . . . . . . . . . . . . . . . . . . . . . . . 54 7 LocalInteractionofphotonswithmatter 57 7.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57 7.2 GravitationalRedshift. . . . . . . . . . . . . . . . . . . . . . . . . . 57 7.3 RedshiftsinWhiteDwarfs . . . . . . . . . . . . . . . . . . . . . . . 61 7.4 ExcessRedshiftofSolarSpectrumattheLimb . . . . . . . . . . . . 64 7.5 RedshiftofPhotonsGrazingaMassiveObject . . . . . . . . . . . . . 71 8 InteractionofMatterwithMatter 77 8.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 8.2 InertialInductioninSomeIdealConfigurations . . . . . . . . . . . . 77 8.2.1 Forceonaparticleduetoarotatingring . . . . . . . . . . . . 77 8.2.2 Forceonaparticleduetoarotatingsphericalshell . . . . . . 79 8.2.3 Forceonaparticleduetoarotatingsphere . . . . . . . . . . 81 8.2.4 Torqueonarotatingsphereinthevicinityofalargemassive body . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 8.3 SecularRetardationoftheEarth’sRotation . . . . . . . . . . . . . . 83 8.4 ExplanationfromVelocityDependentInertialInduction. . . . . . . . 86 8.4.1 Secular retardationof Earth’s spin due to velocitydependent inertialinductionoftheSun . . . . . . . . . . . . . . . . . . 88 8.5 SecularRetardationofMars . . . . . . . . . . . . . . . . . . . . . . 94 8.6 SecularAccelerationofPhobos. . . . . . . . . . . . . . . . . . . . . 95 8.7 TransferofSolarAngularMomentum . . . . . . . . . . . . . . . . . 100 8.8 MatterDistributioninSpiralGalaxies . . . . . . . . . . . . . . . . . 111 9 Extra-galacticPhenomena 119 9.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 9.2 TrueVelocityDispersion . . . . . . . . . . . . . . . . . . . . . . . . 119 9.2.1 Determinationoftruevelocitydispersion . . . . . . . . . . . 122 9.2.2 Effectoflocalvariationin andshapedistortion . . . . . . . 124 9.2.3 Dependenceofapparentma(cid:20)gnitudeonredshift . . . . . . . . 127 9.2.4 AnalysisofComaandPerseusclusters . . . . . . . . . . . . 128 9.3 AConceptofPotentialEnergyinanInfiniteUniverse . . . . . . . . . 131 9.4 TheProblemoftheGreatAttractor . . . . . . . . . . . . . . . . . . . 134 9.5 TheNatureoftheUniverse . . . . . . . . . . . . . . . . . . . . . . . 135 Epilogue 139 References 141 Foreword NEOFthe enduringmysteries of classical and modernphysics arises from the factthatthevalueobtainedforthegravitational-massratiooftwoparticlescom- O paredinaweighingexperimentisidenticaltothevalueobtainedfortheinertial-mass ratioofthesametwoparticlescomparedinacollisionexperiment(towithinexperi- mentalerror). Forthisreasonwespeakoftheequivalencebetweeninertialandgrav- itationalmass,andtendtousetheconceptsinterchangeably. However,whilstpracti- tionersof science andengineeringhave beencontentto accept this equivalenceas a matteroffact,therehasbeenlittlerationalunderstandingofit. AmitabhaGhosh,the authorofthisbook,providesuswithaparticularunifyingperspectiveforthisbaryonic dichotomy—and,intheprocess,unifiesmanyotherdisparatephenomenaaswell. Amitabha Ghosh is a very fine mechanical engineer, as can be judged from his positionsasaSeniorFellowoftheAlexandervonHumboldtFoundation,inGermany, from1977to1995,asaFellowoftheInstitutionofEngineers(India)andofthethree majoracademiesinIndia—theIndianNationalAcademyofEngineering,NewDelhi, theIndianNationalScienceAcademy,NewDelhiandtheIndianAcademyofScience, Bangalore;furthermore,heisfluentinGerman,English,BengaliandHindiinaddition to (he says!) having a working knowledgeof the very old language, Sanskrit. Any conversationwithAmitabhawill,soonerorlater,comeroundtoadiscussion(actually, moreofa one-way‘dialogue’fora secondpartylikemyself!) ofthis language,and ofhowithasalltheappearanceofbeingalanguagethatwasdesignedfromitsbasics upwards—ratherthan,asisvirtuallyeveryotherlanguage,beinganevolvedlanguage. IwouldimaginethatitisAmitabha’sattentiontotheintellectualdetail—asexem- plifiedbyhisinterestinSanskrit—thathasinformedhislife’sworkasanoutstanding mechanical engineer and more recently, his directorship of IIT Kharagpur, and the contentsofthisbook. Butfirst,considertheIITs(orIndianInstitutesofTechnology):untilmyfriendship withAmitabha,Ihad(tomyinsularshame)neverheardoftheIITs—butameasureof theiramazingqualitycanbehadbyconsideringthefollowingstatistics: Everyyear, about140,000ofthebestschoolstudentsinthewholeofIndia(population1billion) applyforabouttwothousandplacesinsixIITs(Iprefernottomakeanycomparison withwhathappensintheUK).IITKharagpur(est. 1951)wasthefirstandthelargest of the six IITs, and so, by the primary measure of student quality, Amitabha is the directorofoneoftheworld’sleadinghigher-educationalinstitutions. v vi Foreword And so tothe book! I wouldbeginbysayingthat it standsas a timelyreminder to all of us that fundamental thought in ‘mathematical physics’ does not have, as a pre-requisite,necessaryknowledgeofgrouptheory,quantummechanics,generalrela- tivity,stringtheory,quantumalgebras,knottheory,etcetc.Whatfundamentalthought does require is a thoroughfamiliarity with the phenomena, combinedwith a proper appreciationofthewaysinwhichthereceivedviewsfailtoaddressthesephenomena, further combined with a willingness to suppose that, perhaps, those who have gone before, no matter how revered, have managed to overlooksome crucial point. This bookprovidesavividillustrationofhowsuchbraveandsidewaysthinkingcanwork inthegeneralareaofspace,time,inertiaandgravitation. The material developedhereconformsclosely to Tom Phipp’s philosophyofthe ‘coveringtheory’—theideathatthemoststableandreliablewayforphysicaltheoryto progressistomovefromasuccessful(butlimited)theorytoatheorywhich‘covers’(or includesasaspecialcase)theearlierlimitedtheory.Inessence,Amitabhahasadopted the position that Newtonian Mechanics (that veritable Queen of sciences) is a good theory(afterproperattentionispaidtotheideaof‘inertialframe’)andthatitschild, Newtoniangravitationtheory,isalsogoodatfirst-order.Thatis,Amitabhashowsthat, inordertoobtainagravitationtheorywhichworksonthelargestspatialandlongest temporalscales,weemphaticallydonotneedtoscrapthewholeNewtonianparadigm, replacingthiswholewithacompletelynewconceptualbasis;onthecontrary,allthat isneededisacreativetweakwhichinvokesthespiritofMachandincorporatesalittle thinkingofakindwhichmanyengineersmightseeaspurecommonsense. The resultis a simple andeleganttheorywhichat onceprovidesa rationalbasis for understanding Newton’s second law (for those who don’t see it as a definition) and,simultaneously,givesMachagenuineandbelated‘engineeringrole’inthefiner gravitationalphenomena. Indetail,thebookbeginswithanexcellentoverviewofNewtonianideas,andfol- lows this with a brief but accessible discussion on, usually overlooked,fundamental difficulties associated with these ideas. This is followed by a discussion of Mach’s PrincipleandofDennisSciama’s1950sideasofacceleration-induced‘inertialinduc- tion’as a meansof realizingthePrinciple. Finally, in this developmentalphase, the shortcomings of the Sciama approach are described and a means of circumventing these is proposed—thenotionof a velocity-inducedinertial inductionmechanismin additiontotheSciamamechanism.Therethenfollowsdetailedanalysesofmanytypes ofgravitationallyinteractivesystems. Apartfromthelucidsimplicityofthe book’sarguments,what impressesmost is the ability of such a simple no free-parametermodel to explain a very wide variety of phenomena—some of which are currently anomolous and not explained by any other theory (e.g., the secular acceleration of Phobos), some of which have ad-hoc explanations in the standard theories (e.g., the flat rotation curves of spiral galaxies and the invocationof ‘darkmatter’ as the cure-all) and some of which have a ready explanationinstandardtheory(e.g.,thecosmicredshiftseenas evidenceofthebig- bangtheoryofuniversalorigin). In short, this workdoes whatany goodtheoryshould—itprovidesa simpleuni- Foreword vii fyingmechanismtoexplainawidevarietyofphenomenaandmakesstronglytestable predictions—IhaveinmindthesecularretardationofMars(actuallypredictedinthe text)and the new generationof gyroexperimentscurrentlyplannedas the definitive testofthatmuchunder-testedstandardtheory,generalrelativity—which,ofcourse,by thelightsoftheungenerous,hasalreadyfailedthegalacticdynamicstest! Asafinalseriouspoint,whatamuchfinerworlditwouldbeifbookslikethiscould findtheirwayeasilyintoundergraduatephysicsandmathematicalphysicscoursesas thedefinitiveinoculationagainstthediseaseofhubriswhichisthecurseofcontempo- raryUniversitytheoreticalphysicsaroundtheworld. Readandcontemplate! DavidRoscoe AppliedMathematicsDepartment SheffieldUniversity SheffieldUK viii Foreword Preface The preface of a scientific work is usually considered unimportantby most readers. Onlyafew(notnecessarilytheseriousreaders)maytakeinterestinthisprelude,pri- marilytoseehowtheauthorwasmotivatedtowritethebook.Somemayalsowantto checkiftheirnamesfigureintheacknowledgements.Thisisnotausualsortofscien- tificpresentation. Thisisamonographinwhichamechanicalengineerhasventured toextendandmodifyfundamentalconceptsofphysicswithaviewtosolvingsomeof thelongstandingunresolvedproblemsofastrophysicsandcosmology.Thismakesthis prefacenotonlyverymuchinorder,butperhaps,absolutelyessential. LetmeexplainhowImadethisadventurousdigressionfrommyownprofessional fieldofstudy. Thisunusualvolumecontainstheresultsofabouttwelveyears’(1983- 1995)workandsolitaryeffortonmypart. Itstartedwithadesiretoexplaintheori- gin of inertia to the students of my second year Dynamics class. Some anticipatory attempts to introducecertain modifications to the existing formalism led to startling results, which surprised my colleagues in the Physics Department of the Indian In- stitute of Technology, Kanpur. They foundthe results to be very intriguing, though difficult to reconcile with the frameworkof conventionalphysics. As soon as a few initial conclusions were corroboratedthrough existing experimental and/or observa- tionalresults,somereputablecosmologistsandastronomerssuggestedthatIapplythe proposedmodificationsto moreand morecases. I persisted, andfoundthat thethe- orywasnotonlyabletoyieldquantitativelycorrectresultsineachcase,butinmany casesresolvedcertainunexplainedphenomena.ThenIrealisedforthefirsttimethatI couldnotsetthewholematterasidebutshouldtrytodevelopasystematictheoryon thebasisofwhatIproposeandwhatIhaveaccomplished. However,Imustmention thatonlyrarelydoesoneencounterclearphenomenainnaturewhereonlyonemech- anismisoperative. Sincethemagnitudesinvolvedinsuchphenomenaareverysmall, it is difficultto come to a definite conclusion. It has beenpossible to identifya few caseswhereconclusionscanbedrawnwithareasonabledegreeofconfidence,andthe observationssupporttheproposedtheory. TheprimarythemeofthismonographisatheoryinwhichNewton’sstaticgravita- tionalinteractionhasbeenreplacedbyanewdynamicmodel.Accordingtothistheory theinteractivegravitationalforcebetweentwoobjectsdependsnotonlyonthesepa- ix x Preface rationbutalsoontherelativevelocityandaccelerationbetweentheinteractingbodies. In a sense it is an extensionof Mach’s Principle, and couldbe termedthe Extended Mach’sPrinciple.AccordingtoMach’sPrincipleaforceactsonanacceleratingobject duetoitsinteractionwiththematterpresentintherestoftheuniverse.IntheExtended Mach’s Principle such an interactive force acts on a body due to its velocity (in the meanrestframeoftheuniverse)also. ThisforcehasbeentermedtheCosmicDrag. The initial Chapters offer some general discussions and highlight certain interesting featuresofthefundamentalproblemofmotion. Ithasbeendemonstratedthatinare- lationalframeworkanabsolutecharactercanbeassignedtodisplacement,andhenceit ismeaningfultotalkaboutanabsoluteframeofreferenceinaninfinite,non-evolving andquasistaticuniversesatisfyingthePerfectCosmologicalPrinciple.Abriefaccount ofthebasicdifficultiesintheNewtonianformulationofmechanicsisthenpresented, followedbyahistoricalaccountofhowtheearlierresearcherstriedtoresolvetheseis- suesthroughvarioussuggestionsformodificationsinNewton’slaws.Thenextchapter presentsSciama’sattempttoquantifyMach’sPrincipleandhismodelofacceleration dependentinertialinduction.Next,thisisextendedtoincludeavelocity-dependentin- ertialinductionterm. Thoughverysmall,theeffectofthevelocitydependentinertial inductiontermintroducessomefundamentalchangesin thebasic frameworkofme- chanics,leadingtoamodifiedlawofmotion. Theexactequivalenceofgravitational and inertial masses emerges as a natural consequence of the dynamic gravitational interaction. Anotherstartlingresultofthismodificationistheemergenceofacosmicdragterm, wherebyallobjectsaresubjectedtoadragforcedependingonthevelocitywithrespect tothemean-rest-frameoftheinfinite,homogeneousandquasistaticuniverse. Though noteasilyopentodetectionbyanyexperimentbecauseofitsextremelysmallmagni- tude, this cosmic drag term gives rise to the observedcosmologicalredshiftwithout invoking any expansion hypothesis. This eliminates the need for introducing a Big Bang tostart the universe. Here I anticipatea criticism that I am questioninga cos- mologicaltheoryacceptedbythemajorityofmainstreamphysicistsaroundtheworld. TheBig Bang Theoryhas becomeso popularnowthat veryfew rememberit is still onlyahypothesis. ScientistswhobelievethatthesearchforalternativestoBigBang cosmology should not be restricted are quite fewer in number. I am presenting this alternativemodelwiththebeliefthatthescopeofscientificresearchisalwayswider than many people think. The proposed model yields very good results in a number of other phenomena of different types. This is very important, as these phenomena areunrelated,andtheproposedmodeldoesnothaveanyadjustablefreeparameters. Theproposedtheoryandanymodeloftheextendedversionofinertialinductioncan befurthertestedonnewobservationswithhigheraccuracy. Sincethismodelislikely to open new vistas, other researchers can take up the necessary work to verify the correctnessoftheproposedtheory. Themostdifficultpartofthewholeexerciseisdecidingonanappropriatetitleof thismonograph.Anattempttomakeittechnicallyprecisecanrenderitunfamiliarand

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