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Chapter5 Asteroids
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Nobookaboutplaswouldbepletewithoutadisofasteroids,becausethesearethemostoohitplaheinnerSolarSystem(whereasteroidimpactsareabouttentimesmoreonthas).Inadditioasteroid,Ceres,isofficiallyclassifiedasad>
Shapes,sizes,andpositions
&hegoalforNASA's Daw,whichwillspehsitin2015,havitheyearbeginninginJuly2011atVesta,theseassiveasteroid.
Afewsmallerasteroidshavealreadybeenvisitedbyspaceages(Figure 25)thattheirirregularshapes.Visualizeapock-markedpotatoscaleduptoaeresandafewhures,andyoushouldhaveaservitalimageofatypicalasteroid.Telescopicallyobservedperiodicvariationsinasteroids&#hthatmostlytheytakeoenerally,rotatilestth,sotheyrotatelikesausagestwirledonacocktailstick.
About1asteroidin50probablyhasitsowe,anditwasluckythatIda,thesedasteroidtobevisitedbyaspaceGalileoflewpastin1993,turobeowasthefirsteddiscoveryofaellite,butsubsequentlymanymorehavebeenfoundusielescopiiques,suchasadaptiveoptipeheshimmerih’satmosphere.Asteroidsatellitesraheparativelytinyuptosizessimilartothemainasteroid.Infact,theasteroidiopeappearstoutuallybodiesofindistinguishable110-kilometresize,whosetresareonlyabout170kilometresapart.Sofar,therearetwoasteroidsknowwosmallsatelliteseaeasteroidsatellitesmaybefragmentsfroma,andothersmaybecapturedobjeeithercaseisreadilyexplicable,becauseitishardtoendupwithratherthanflyingapart.
25.Imagesofasteroidsatdiffereop:Ida,a54-kilmaieroid,withitstieDactyltht.Lowerleft:Eros,a33-kilerht:Itokawa,a0.5-kilEarth-gasteroid.TherearemanyimpactcratersvisibleonIdaathemuchsmallerItokawaisboulder-strewn
Asteroiddensitieshavebeeween1.2and3.0gcm3.However,stoes,whichareclearlybitsofasteroid,havedensitiesofabout3.5gdstoeshavedeo5.0gcm3,sohemeasuredasteroidsintactsolidbody.Rather,theymustbeporousrubblepiles.Some,suchasItokawa,visitedbytheJapaneseprobeHayabusain2005(Figure25),andothersehasbeeerminedbyradar,appeartobe‘taaries’goftwomainmassesjoianarroever,thenumerousbouldersonmuchofItokawa’ssurfaceshowthatthetwomaihemselvesanypieces.
Asteroidsarenlycoloured,butbegroupedintoseveralclassesagtotheirreflecespectruTherearethreemaiypeshavethecharacteristicsofsilicaterodareevideerialasstoheymakeupthemajorityofasteroidswithorbitsbetweenabout2.0and2.6AUfromtheSun,whereasfrom2.6to3.4AU,C-types,havieristicsofaeteorites,arethemoston.Beyond3.4AU,asteroidstendtobedarkaredincolour.ThesearedubbedD-type,andmaybecolouredbyatarrysurfaceresidueformedfromaterialduringproloosolarradiatioheriarrysubstancesareusuallyreferredtoas‘tholins’,atermtheaGreekwordfor‘mud’bytheAmerier(1934–96).
Scatteredhereaeroidsthatappearlargelymetallic(M-type),clearlyrelatedtoiroes,aappeartohavebasaltontheirsurfaotablyVesta,fromwhichtheytaketheirdesignatiohese,mebody,mayhaveoenoughforiingandvolis.
Asteroidorbits
Mostknownasteroids(equivalenttoabout4%oftheMoon’smass)haveorbitslyiheorbitsofMarsaheso-called‘asteroidbelt’.Over3,000maieroidshavebeeed.Morethaalmassoftheseresidesinthefestexamples,Ceres,Vesta,Pallas,ahdiametersof950,530,540,and430kilometresrespectively(VestaisdehanPallas,soismoremassivedespitebeingslightlysmaller).Usrangedowhroughindividuallumpsofrocktodustpartievertheless,theasteroidbeltisvirtuallyemptyspadyoushouldnotthinkofitasrepletewithjostlingrocks.Allspaceprobesthathavebeehroughtheasteroidbelthavesurvivedwithoutmishap,aobesteeredcarefullytoeoughtoaostudyitinpassing.
Jupiter’sgravityhassiderableinfluenaieroidorbits.Notably,itprevetlingintoorbitswhoseperiodswouldbeinresosowuallynoasteroidswhoseorbitalperiodsaresimple4:1,3:1,5:2,or2:1ratiosofJupiter’s.ThesedtedistaheSun(orbitalsemi-majoraxes)of2.06,2.50,2.82,3.28AU,respectively,whiownastheKirks,afterDanielKirkwood,aronomerwhodisdexplaihemin1886.Notallorbitalresoablewithrespecttoasteroidorbits,andinfactthereisasmallfamilyofasteroidswhoseorbitalperiodsaretwo-thirdsthatofJupiter(a3:2orbitalresonance).
ThereareagreatmaeroidswiththesameorbitalperiodasJupiter.Theremaybemorethanamillioerthareihaassaboutohatofthemaiheseolyclosetolos60°aheadof,and60°behisorbit.ThosearespecialplaceswherethebiatioheSunandJupiterallowssmallobjectstoorbitstably,andareknownastheleadingandtrailingLagrangianpoints.AsteroidsisarebygivennamesofheroesfromtheTrreeknames60°aheadofJupiterandTrojannames60°behind),butarecollectivelyreferredtoas‘Trojanasteroids’.
We'realldoomed!
&eroidsareknowninsimilar‘trojaionshiptoMars,butEarthhasnotrojanpaniohereareasteroidswhoseorbitscrossours,kh-gasteroids.Ifyouareworriedabouts,thismays,butasteroidorbitstendtobeiheecliptiostalasseither‘above’or‘below’uswhentheycrossourorbit.OnlyasubsetofEarth-crardedasPotentiallyHazardousAsteroids(PHAs),beipasswithin0.05AUoftheEarth(arangesuffitlyclosethatperturbationscausedbyvariousthirdbodiesgabouta)andthatarelargerthanabout150metresier(bigenoughtosurvivepassagethroughtheatmospherewithundimiheendof2009,about1,100PHAshadbeeed,plusfeotentiallyHazardousets.
&calculatedapproachbyaPHAisbyApophis(35)thatwilleveryFriday13April2029.Soosdis2004,itsorbitwassuffitlypoorlyknownthattherewasace(estimatedat2.7%)ofa,butsubsequentlyalongerseriesofobservatiowillpasssafelyabout30,000kilometresabovethesurface.Itwillbebaon13April2036,andbecausewedolyhowcloseitwillpassiklyhowmuchitstrajectorywillbeaffectedbytheEarth’sgravitydurier.However,thecesofin2036arevanishinglysmall.
Apemospherewithundiminishedspeedisverydangerous.Onhitticouldcauseatsunami,andifithitslaesacratermuchlargerthanitselfaesthesurroundingarea.A2.2-million-year-old,130-kilometreamedEltaninhasbeendisdertheflooroftheBellinghausehesouthernmostPacifi,apparentlycausedbyanasteroidseveralkilometresihiswouldhavebarelybeeheo,letalomosphere,beftheseabed.Agtoodels,theresultingtsunamiwouldhavedevastatedtheetresabovesea-levelinsouthernd60metresabovesea-levelihequantityofwateranddustthrowmhteveriggerforclimategeleadiionofouraors,Homeerectus,outofAfrica,ataboutthisdate.Themostretbetweehanda10-kilometre‘dinosaur-killer’asteroidhappened65millithe200-kilometre-diameterChicxulubowburiedbeianpeninsulaofMexico.Thiscausedaglobalealupheavalthatiswidelycreditedastheassexti’whenabout75%ofspeciesoflifeohwerewipedout.
Catastrophesofthatmagnitudearemercifullyrare,butstatisticsshowthatasteroidimpakalongsidevolis,earthquakes,ahereventsaspotentialcausesofdeath.A1-kilometreasteroidabletodevastateetresfromthepointofimpactstrikestheoaverageaboutevery200,000years,whereasa200-metreasteroidwithasignifitlysmallertsunamidangerradiusmightbeexpectedaboutevery10,000years.
TocategorizethehazardposedbyeachPHA,astronomersuseanumericalsystemcalledtheTorinoScale(agreedatameetinginTurihehisbihatwouldbedeliveredandtheprobabilityofintoasinglenumberfrom0to10,where0meansnegligibleceofandortoosmalltopemosphere,and10isimpactbya‘dinosaur-killer’gglobalostPHAsexg150metresierareraher0or1whentheyarediscovered,andthe1sareusuallydowo0whehasbeeelydetermined.ApophisholdstherectemporarilyheldaTashighas4(‘eritiionbyastronomers;〉1%reaterceofcapableioion’),butwasdowo0in2006.
Asemi-formallinkioriesknoaceguardhasassumedthetaskoflodcategallPHAs.Thisisimportantbelikemostsortsofnaturaldisasterwhenallweitigatetheeffects,itwouldbepossibletopreventabyaPHA.Toachievethis,itisogeeitherthePHA’sspeedoritsdireoftravel.Thelongerihisisdohesmallertherequiredge.Therearevariouswaystfromthebrute-forcemethodofequippiharocketmotor,tothemoresubtleployofgofonesideiivesubstasolarradiatiohejobforyou.UsioblastapartaniningPHAisnotasmartidea,belessyoucouldguaraallthefragmentswouldbetoosmalltopemosphere,youmightmaketheproblemworsebygmultipleimpacts.
Asteroidmining
Thereisasilverlining,inthatasteroidscouldbevaluablesouraterials.A1-kilometreM-typeasteroidorenidironthantheworld’sannualptiomassiveexample,Psytaiolastformillioeroids,especiallyM-types,alsopreetalslikeplatinu
&menttobeginmiasteroidwouldbeverygreat,butthepoteurnsareimmeremainstobeseehemaieroidsturnsouttobesupplyofrawmaterialstoEarthortospace-basedindustries.Somehobjectsareprobablydefuhremnantwater-icesurviviheirdustysurfaces,whichcouldbevaluableaspropellantandradiationshielding,aswellasf.
Namesandprovisioions
By1891,332asteroidshadbeendiscoveredvisually,butphotographyhadboostedthetallyto464withiherearenowover100,000ksofalltypes,eachofwhieedstobeidentifiediheIAUoverseesasystemofprovisioiooeaewdiscovery.Thissistsoftheyearofdiscoveryplusatwo-lettercodecoupledwithnumericalsubscripts,dieandsequenceofdiscovery.Thefirstletter(A–Y,omittingI)specifieswhichhalf-monththediscoverywasmadein(AforJanuary1–15,BforJanuary16–31,andsoon,uptoYfor16–31December),thesedletter(A–Z,omittingI,whichgives25options)isawardedtoeachdissequendanumberedsubscriptallowsthecycleof25toberepeatedasmanytimesashus,2011BAwouldbethefirstbodydistheperiodJanuary16–312011;2011BBwouldbethe2nd;2011BA1wouldbethe26th,andsoon.Whe’sorbithasbeeermined(whichmaytakeseveralyears),itbeaermaname,whichreplacestheprovisioion.Forexample,Apinallyhadtheprovisioion2004MN4(signifyihdisc16–30June2004).
Theprivilegeofsuggestinameisgiventothedis,thoughsomeautomatedsurveysrevealsomasthatmanagersaregladofsuggestionamesareanameprecededbyanumber,addedinsequenceaseaameisadded.Soformallywehave(1)Ceres,(4)Vesta,(99942)Apophis,andsoon.Availablemythologiamesaretoofewforalltheseobjedprettymugisallowed,exceptthatbeinoffensiveahretpolitiilitaryactivity.Ikronomerswhohavehadasteroidshem(bycolleagues;youameoeryourself),andthereisosenaat’a’i,whis‘flyingrotheNavaholaheoIhavehadahandinnamingis(57424)edin2007tooratethe50thanniversaryofBBCtelevision’slprogrammeTheSkyatNight,whiLatiu.Wepickeditfromalistbecauseitshedateofthefirstbroadcast,ril24(57424).
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