作者君在作品相关中其实已经解释过这个问题。
不过仍然有人质疑——“你说得太含糊了”,“火星轨道的变化比你想象要大得多!”
那好吧,既然作者君的简单解释不够有力,那咱们就看看严肃的东西,反正这本书写到现在,嚷嚷着本书bug一大堆,用初高中物理在书中挑刺的人也不少。
以下是文章内容:
long-terabilityofplanetaryorbit
ab
ericalintegrationione-allnineplaneturnuleaalableevenoverte-illationeriallydiffurialplanetaryofricityofionrtotiontax~0.35over~±4gyr).rincrealinationinanyorbitaleleilllonger-terionedacoupleoftrialintegrationionof±5x1010yr.teoainedoverte-tion
1.1definitionoftabilityofouredoveeveralanyfaianyedacentralroleintofnon-lineardynayetableornot.tionoftueiontototionintuallyitilear,rigoroufuldefinitionoftranydefinitiony,an1adefinitionofability.ingunounteroccur,aininitialconfiguration(canikaiacloeriable.iableifnocloeruryr.incidentally,tcedbyoneineofanyorbitalcroakeauetiloaryandprotoplanetarya,kokubobealreune–pluto.
1.2previoueptofalofdynaanaubelyunderofreurrayar,frankliningoveraneneneteraryorbitalerizedbyteoninitialconditionpointofvieericalintegrationerfiveplanet1988;kinoalperiodnetlloegrationperiod.atprealintegratiopublianliain-ayofplanetaryorbitegrationo~1011yrofturjovianplanetaleleuranlientonain-aonaleofplanetaryorbitalindicatoroftale,ireaaainableover1010yr,orperanliurionofoneptune),overayetconetableduringtaintainingalionerperturbationteandirregularvariationricitieerreiallyofe-urbationtedandinvealintegrationpreli-terionaryorbitaspanofoveringaalelapioniononcluegrationnetaryableinterentionedabove,atleayr.actually,inournuableterion:notonlydidnocloerrationperiod,butalaleleonfinedinanarroeandfrequencydootionandovervieerionplefigureabilityofotion.forreaderanddeeperinterealres,e(accesaleleeredreunayeleuuryanalyionion2inourdynaetionionoadekreegrationabilityofotioniarypoentionofnuiven.uvariationofplanetaryorbiterandincludeoion5,alintegrationion6eraryauionoftio
(本部分涉及比较复杂的积分计算,作者君就不贴上来了,贴上来了起点也不一定能成功显示。)
2.3nuilizea–apaan1a,yoeduretoreducetlevariableaine1epegrationegrationalperiodoftury).aionoflloalintegrationofallnineplanet(1988,7.2d)andaine(1aketipleof2inordertoreducetionofround-offerrorintean(1alintegrationaryorbitapeper.turateenougifieiningteper(~0.05)iofury(~0.2),oionepegrationoftep400d.
tionethod(danby1rkeplerequationerationaxiionervaloftiion8000000d(~21903yr)forterfiveplanetalintegrationess,ertoteralculationoredetail.
2.4erroreion
2.4.1relativeerrorrordingtooneoftplecticintegratorivequantitiealenergyandangularnuionediveerrory(~10?9)andoftotalangular(~10?11)onegrationperiod(fig.1).tedure,,iveerrorintotalenergybyaboutoneorderofore.
relativenungularalenergyδe/e0inournuion±1,2,3,otalenergyandtotalangularively,ande0anda0aretyr.
notetallibrarieureericalerrorioinround-offerrorlgorit.1,uationintalerrorint,orouision.
2.4.2errorinplanetarylongitudeplecticyandtotalangularicallybeagoodyofnuioneaionalerrorofplanetarylongitudealerrorintudelloparedt-tereerperioduracytionedarationepionartingonditionion.integrationproviderue’aryorbitalevolution.next,rationion,n?1.fortheperiodof3x105yr,eananoionrapolatedtot25rotationetrearly,tocanbeeinkinoedaalreion-teraryorbitalealdata.tnetabilityinallofournuionookplace.
3.1generaldeyofplanetaryorbit,eneralcaryorbiturialplanete-erfiveplanetlearlyfroonfigurationionnetofeacion,netioneireintegrationperiodtionionre.
verticalviearyorbition)attionneineofrialpartofn+1(t=0to0.0547x109yr).(b)t=4.9339x108to4.9886x109yr).(c)t=0to?0.0547x109yr).(d)t=?3.9180x109to?3.9727x109yr).ineacalof23684pointervalofabout2190yrover5.47x107yr.orbitrialplanetde245).
titieionndfinalpartoftionn+1ied,tionofplanetaryorbitalelenificantlybetndfinalpartofeacrvenuentiallyitent.tofalltoaiontaybeneareobeintationrvariationitieuryonatialeofyoftfatallyaffecttoercury.alevolutionofion4ueredorbitalelealnetableandquiteregularoverte-ion5).
3.2tiapnetary-ter