Goe̍h-niû

khu-pia̍t: Goe̍h mā-sī chi̍t-chióng sî-kan ê tan-ūi.

Goe̍h-niû (月娘; Eng-gí: moon; thian-bûn hû-hō: ), he̍k-chiá goe̍h-kiû (月球), sī Tē-kiû î-it ê thian-jiân oē-chheⁿ.

Goe̍h-niû

Tī Pak Bí-chiu khòaⁿ--tio̍h ê Goe̍h-îⁿ
Kúi-tō sèng-chit
Goân-kî J2000
Kīn-tiám	362 600 km (356 400–370 400 km)
Hn̄g-tiám	405 400 km (404 000–406 700 km)
Pòaⁿ-tn̂g chhia-sim	7008384399000000000♠384399 km  (7008384466527698999♠0.00257 AU)[1]
Lî-sim-lu̍t	6998549000000000000♠0.0549[1]
Kúi-tō chiu-kî	7006236059151040000♠27.321661 d (27 d 7 h 43 min 11.5 s[1])
Hōe-ha̍p chiu-kî	7006255144288960000♠29.530589 d (29 d 12 h 44 min 2.9 s)
Pêng-kin kúi-tō sok-le̍k	7003102200000000000♠1.022 km/s
Khi-pêng	5.145° to the ecliptic[2]
Seng-kau-tiám ê keng-tō͘	Regressing by one revolution in 18.61 years
Hn̄g-tiám ê ín-sò͘	Progressing by one revolution in 8.85 years
Tò lia̍p chheⁿ ê ōe-cheⁿ	Tē-kiû[3]
Bu̍t-lí sèn-chit
Pêng-kin poàn-kéng	7006173710000000000♠1737.1 km   (Tē-kiû ê 0.2727)[1][4][5]
Chhiah-tō poàn-kéng	7006173810000000000♠1738.1 km   (Tē-kiû ê 0.2725)[4]
Ke̍k-tē poàn-kéng	7006173600000000000♠1736.0 km   (Tē-kiû ê 0.2731)[4]
Píⁿ-pêⁿ-lu̍t	6997119999999999999♠0.0012[4]
Îⁿ-chiu	7007109210000000000♠10921 km  (equatorial)
Piáu-bīn-chek	7013379300000000000♠3.793×107 km2   (Tē-kiû ê 0.074)
Thé-chek	7019219580000000000♠2.1958×1010 km3   (Tē-kiû ê 0.020)[4]
Chit-liōng	7022734200000000000♠7.342×1022 kg   (Tē-kiû ê 6998123000000000000♠0.012300)[1][4] [6]
Pêng-kin bi̍t-tō͘	7003334400000000000♠3.344 g/cm3[1][4] 6999606000000000000♠0.606 × Tē-kiû
Piáu-bīn tiōng-le̍k	7000162000000000000♠1.62 m/s2  (6999165400000000000♠0.1654 g)[4]
Koàn-sèng in-chú ê lêng-lu̍t	6999392900000000000♠0.3929±0.0009[7]
Thoat-cháu so̍k-tō͘	7003238000000000000♠2.38 km/s
Hêng-chheⁿ chū-choán chiu-kî	7006236059151040000♠27.321661 d  (synchronous)
Chhiah-tō chū-choán sok-tō͘	4.627 m/s
Chhia-sim khi-pêng	Chha n̂g-tō 1.5424° Chha kúi-tō pêng-bīn 6.687°[2] Chha Tē-kiû chhiah-tō 24°[8]
Pak-ke̍k chhiah-keng	17h 47m 26s 266.86°[9]
Pak-ke̍k chhiah-hūi	65.64°[9]
Hoán-siā-lu̍t	0.136[10]
Piáu-bīn un-tō͘ siōng-kē pêng-kin siōng-koân Chhiah-tō 100 K 220 K 390 K 85°N  150 K 230 K[11]
Bêng-hián-tō͘	−2.5 to −12.9 −12.74  (pêng-kin goe̍h-îⁿ)[4]
Kak-ti̍t-kèng	29.3 to 34.1 kak-hun[4]
Tāi-khì-khoan[12]
Piáu-bīn ap-le̍k	10−7 Pa (1 picobar)  (ē-chá) 10−10 Pa (1 femtobar)    (ē-àm)
Thé-chek cho͘-sêng	He Ar Ne Na K H Rn

Chham-chiàu

Chù-kha

1. Wieczorek, Mark A.; et al. (2006). "The constitution and structure of the lunar interior". Reviews in Mineralogy and Geochemistry. 60 (1): 221–364. Bibcode:2006RvMG...60..221W. doi:10.2138/rmg.2006.60.3. 
2. Lang, Kenneth R. (2011), The Cambridge Guide to the Solar System Archived 1 January 2016 at the Wayback Machine., 2nd ed., Cambridge University Press.
3. Morais, M.H.M.; Morbidelli, A. (2002). "The Population of Near-Earth Asteroids in Coorbital Motion with the Earth". Icarus. 160 (1): 1–9. Bibcode:2002Icar..160....1M. doi:10.1006/icar.2002.6937. 
4. Williams, Dr. David R. (2 February 2006). "Moon Fact Sheet". NASA/National Space Science Data Center. Goân-pún bāng-ia̍h Pó-chûn tī 23 March 2010. 31 December 2008 khòaⁿ--ê. 
5. Smith, David E.; Zuber, Maria T.; Neumann, Gregory A.; Lemoine, Frank G. (1 January 1997). "Topography of the Moon from the Clementine lidar". Journal of Geophysical Research. 102 (E1): 1601. Bibcode:1997JGR...102.1591S. doi:10.1029/96JE02940. 
6. Terry 2013, p. 226.
7. Williams, James G.; Newhall, XX; Dickey, Jean O. (1996). "Lunar moments, tides, orientation, and coordinate frames". Planetary and Space Science. 44 (10): 1077–1080. Bibcode:1996P&SS...44.1077W. doi:10.1016/0032-0633(95)00154-9. 
8. Makemson, Maud W. (1971); "Determination of Selenographic Positions", in The Moon, volume 2, issue 3, pp. 293-308, doi:10.1007/BF00561882, BibCode: 1971Moon....2..293M
9. Archinal, Brent A.; A'Hearn, Michael F.; Bowell, Edward G.; Conrad, Albert R.; Consolmagno, Guy J.; et al. (2010). "Report of the IAU Working Group on Cartographic Coordinates and Rotational Elements: 2009" (PDF). Celestial Mechanics and Dynamical Astronomy. 109 (2): 101–135. Bibcode:2011CeMDA.109..101A. doi:10.1007/s10569-010-9320-4. goân-loē-iông (PDF) tī 4 March 2016 hőng khó͘-pih. 24 September 2018 khòaⁿ--ê. 
10. Matthews, Grant (2008). "Celestial body irradiance determination from an underfilled satellite radiometer: application to albedo and thermal emission measurements of the Moon using CERES". Applied Optics. 47 (27): 4981–4993. Bibcode:2008ApOpt..47.4981M. doi:10.1364/AO.47.004981. PMID 18806861. 
11. A.R. Vasavada; D.A. Paige & S.E. Wood (1999). "Near-Surface Temperatures on Mercury and the Moon and the Stability of Polar Ice Deposits". Icarus. 141 (2): 179–193. Bibcode:1999Icar..141..179V. doi:10.1006/icar.1999.6175. 
12. Lucey, Paul; Korotev, Randy L.; et al. (2006). "Understanding the lunar surface and space-Moon interactions". Reviews in Mineralogy and Geochemistry. 60 (1): 83–219. Bibcode:2006RvMG...60...83L. doi:10.2138/rmg.2006.60.2. 

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Thài-iông-hē
Chheⁿ: Ji̍t-thâu
He̍k-chheⁿ: Chúi-chheⁿ | Kim-chheⁿ | Tē-kiû | Hóe-chheⁿ | Bo̍k-chheⁿ | Thó͘-chheⁿ | Thian-ông-chheⁿ | Hái-ông-chheⁿ
É-he̍k-chheⁿ: Ceres | Mê-ông-chheⁿ | Haumea | Makemake | Eris
Sió-bu̍t-thé: Sió-he̍k-chheⁿ | Hái-ông-chheⁿ goā chheⁿ-thé | Tn̂g-boé-chheⁿ
Oē-chheⁿ: Goe̍h-niû | Hoé-chheⁿ ê | Bo̍k-chheⁿ ê | Thó͘-chheⁿ ê | Thian-ông-chheⁿ ê | Hái-ông-chheⁿ ê
Tīn: Sió-he̍k-chheⁿ-toà | Kuiper-toà | Sàn-loān îⁿ-poâⁿ | Oort-hûn
Chhiáⁿ chham-khó thian-bûn bu̍t-thé, thài-iông-hē ê chheⁿ-thé lia̍t-toaⁿ, chiàu poàⁿ-kèng pâi iah sī chiàu chit-liōng pâi