对火星轨道变化问题的最后解释(第12/16页)
seesubsequent sections.
4.4 longternbsp;couplingseveral neighbouringpairs
letseeindividual variationsplary orbital energy and angular ntunbsp;expressedthe lowpass filtered delaunaandshow longternbsp;evolutionthe orbital energyeachand the angular ntunbsp;inanotice thatpls fornbsp;apparent pairsterorbital energy and angular ntunbsp; particular, venus and eartha typica the figures, they show negative correlationsexchanenergy and positive correlationsexchanangular ntu the negative correlationexchanorbital energy ans that the two pls fornbsp;a closed dynacal systenbsp;in terthe orbita positive correlationexchanangular ntunbsp;ans that the two pls are siltaneously under certain longternbsp; for perturbers are jupiteri,can see that mars showositive correlationthe angular ntunbsp;variationthe venus–earth syste mercury exhibits certain negative correlationsthe angular ntunbsp;versus the venus–earth syste which seebeaction causedthe conservationangular ntunbsp;in the terrestrial plary subsyste
itnot clearthewhy the venus–earth pair exhibitegative correlationenergy exchan anositive correlationangular ntunbsp; y possibly explain this through observing the neral fact that there aresecular terplary sejor axesto secondorder perturbation theories cf. brouwer & clence 1961; baletti & puc ans that the plary orbital energy whichdirectly relatedthe sejor axihtch less affectedperturbing pls thanthe angular ntunbsp;exchan which relatese. hence, the entricitiesvenus and earth candisturbed easilyjupiter and saturn, which resultsa positive correlationthe angular
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4.4 longternbsp;couplingseveral neighbouringpairs
letseeindividual variationsplary orbital energy and angular ntunbsp;expressedthe lowpass filtered delaunaandshow longternbsp;evolutionthe orbital energyeachand the angular ntunbsp;inanotice thatpls fornbsp;apparent pairsterorbital energy and angular ntunbsp; particular, venus and eartha typica the figures, they show negative correlationsexchanenergy and positive correlationsexchanangular ntu the negative correlationexchanorbital energy ans that the two pls fornbsp;a closed dynacal systenbsp;in terthe orbita positive correlationexchanangular ntunbsp;ans that the two pls are siltaneously under certain longternbsp; for perturbers are jupiteri,can see that mars showositive correlationthe angular ntunbsp;variationthe venus–earth syste mercury exhibits certain negative correlationsthe angular ntunbsp;versus the venus–earth syste which seebeaction causedthe conservationangular ntunbsp;in the terrestrial plary subsyste
itnot clearthewhy the venus–earth pair exhibitegative correlationenergy exchan anositive correlationangular ntunbsp; y possibly explain this through observing the neral fact that there aresecular terplary sejor axesto secondorder perturbation theories cf. brouwer & clence 1961; baletti & puc ans that the plary orbital energy whichdirectly relatedthe sejor axihtch less affectedperturbing pls thanthe angular ntunbsp;exchan which relatese. hence, the entricitiesvenus and earth candisturbed easilyjupiter and saturn, which resultsa positive correlationthe angular
本章未完,请点击下一页继续阅读 》》