《木星》嘅修訂比較
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| surface_grav = {{val|24.79|ul=m/s2}}<ref name="fact" /><ref group=lower-alpha name=1bar /><br>2.528 [[g-force|g]] |
| surface_grav = {{val|24.79|ul=m/s2}}<ref name="fact" /><ref group=lower-alpha name=1bar /><br>2.528 [[g-force|g]] |
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| escape_velocity = 59.5 km/s<ref name="fact" /><ref group=lower-alpha name=1bar /> |
| escape_velocity = 59.5 km/s<ref name="fact" /><ref group=lower-alpha name=1bar /> |
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| sidereal_day = 9.925 h<ref>{{cite web |
| sidereal_day = 9.925 h<ref name="siderealday">{{cite web |
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|author = Seidelmann, P. K. |
|author = Seidelmann, P. K. |
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|author2 = Abalakin, V. K. |
|author2 = Abalakin, V. K. |
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[[File:Jupiter from Voyager 1.jpg|thumbnail|right|float|250px|木星近距離相]] |
[[File:Jupiter from Voyager 1.jpg|thumbnail|right|float|250px|木星近距離相]] |
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'''木星''',又叫'''歲星''',係[[太陽系]]八大行星入面 |
'''木星''',又叫'''歲星''',係[[太陽系]]八大行星入面最大嘅[[行星]],係由內數到外第五粒行星<ref name=what>{{cite web |url=https://www.nasa.gov/audience/forstudents/k-4/stories/what-is-jupiter-k4.html#.VRt-v45Nhaw |title=What Is Jupiter? |first= |last= |work=NASA |year=2014 |accessdate=April 1, 2015 |archive-date=March 18, 2015 |archive-url=https://web.archive.org/web/20150318040645/https://www.nasa.gov/audience/forstudents/k-4/stories/what-is-jupiter-k4.html#.VRt-v45Nhaw |url-status=live }}</ref>。木星屬於[[氣體大行星]],同[[土星]]、[[天王星]]、[[海王星]]一樣,木星繞[[太陽]]運行,平均距離太陽5.2 [[天文單位|AU]],軌道週期11.86年<ref name="planet_years"/>。木星係地球夜晚睇到嘅第三光嘅天體,只係暗過[[月球]]同[[金星]]<ref name="unaidedeye">{{cite web |url=https://www.gsfc.nasa.gov/scienceques2001/20020201.htm|title=The biggest single object we can see in our galaxy, with the unaided eye |publisher=NASA|accessdate=2013-09-26 |format= |archive-url=https://web.archive.org/web/20090605113054/https://www.gsfc.nasa.gov/scienceques2001/20020201.htm |archive-date=2009-06-05 }}</ref><ref>{{cite book|first=Kenneth R.|last=Lang|title=The Cambridge Guide to the Solar System|url=https://archive.org/details/cambridgeguideto00lang|publisher=Cambridge University Press|date=2011|edition=Second|page=[https://archive.org/details/cambridgeguideto00lang/page/n312 285]|isbn=978-0-521-19857-8}}</ref>。 |
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古時中國叫佢做「歲星」,因為佢公轉大約12年,同[[地支]]一個循環差唔多,並產生咗歲星紀年法:歲星出沒嘅時候,古時人望住個天睇佢嘅位置,並用佢來紀年。西方叫佢做[[朱庇特]](Jupiter)<ref>{{cite book|author=Stuart Ross Taylor|title=Solar system evolution: a new perspective : an inquiry into the chemical composition, origin, and evolution of the solar system|date=2001|publisher=Cambridge University Press|isbn=0-521-64130-6|edition=2nd, illus., revised|page=208}}</ref>,源自[[羅馬神話]]入面嘅眾神之王,等同[[希臘神話]]嘅[[宙斯]]。 |
古時中國叫佢做「歲星」<ref>{{Cite journal |author=张鹏 |title=探索太岁之谜 |url=http://www.cqvip.com/qk/92075x/200511/20623592.html |journal=《科学画报》 |publication-date=2005年 |issue=第11期}}</ref>,因為佢公轉大約12年,同[[地支]]一個循環差唔多,並產生咗歲星紀年法:歲星出沒嘅時候,古時人望住個天睇佢嘅位置,並用佢來紀年。西方叫佢做[[朱庇特]](Jupiter)<ref>{{cite book|author=Stuart Ross Taylor|title=Solar system evolution: a new perspective : an inquiry into the chemical composition, origin, and evolution of the solar system|date=2001|publisher=Cambridge University Press|isbn=0-521-64130-6|edition=2nd, illus., revised|page=208}}</ref>,源自[[羅馬神話]]入面嘅眾神之王,等同[[希臘神話]]嘅[[宙斯]]。 |
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木星嘅質量係地球嘅318倍,亦係太陽系所有其他行星加埋嘅2.5倍,但就只係太陽嘅千分之一,佢亦係太陽系第二多[[衛星]]嘅行星(已知有95粒),同埋自轉最快嘅行星(9.925個鐘)。 |
木星嘅質量係地球嘅318倍,亦係太陽系所有其他行星加埋嘅2.5倍<ref name=hamilton>{{cite web |url=https://solarviews.com/eng/solarsys.htm |title=The Solar System |first=Calvin |last=Hamilton |work=solarviews.com |year=2015 |accessdate=April 1, 2015 |archive-date=April 17, 2015 |archive-url=https://web.archive.org/web/20150417194854/https://solarviews.com/eng/solarsys.htm |url-status=live }}</ref>,但就只係太陽嘅千分之一,佢亦係太陽系第二多[[衛星]]嘅行星(已知有95粒<ref name="SheppardMoons"/>),同埋自轉最快嘅行星(9.925個鐘<ref name="siderealday"/>)。 |
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木星有光環,不過就唔容易睇到,喺地上需要現存最大嘅望遠鏡先至可以進行對木星環嘅觀察<ref name="dePater1999">{{Cite journal |last=de Pater |first=Imke |last2=Showalter |first2=Mark R. |last3=Burns |first3=Joseph A. |last4=Nicholson |first4=Philip D. |last5=Liu |first5=Michael C. |last6=Hamilton |first6=Douglas P. |last7=Graham |first7=James R. |date=1999-04-01 |title=Keck Infrared Observations of Jupiter's Ring System near Earth's 1997 Ring Plane Crossing |url=https://www.sciencedirect.com/science/article/pii/S0019103598960687 |journal=Icarus |language=en |volume=138 |issue=2 |bibcode=1999Icar..138..214D |doi=10.1006/icar.1998.6068 |issn=0019-1035 |access-date=2022-11-20 |archive-date=2017-02-14 |archive-url=https://web.archive.org/web/20170214223509/http://www.sciencedirect.com/science/article/pii/S0019103598960687 |dead-url=no }}</ref>。木星表面有大大小小嘅風暴,其中最出名嘅風暴係「[[大紅斑]]」<ref name="NYT-20171213">{{cite news |last=Chang |first=Kenneth |title=The Great Red Spot Descends Deep into Jupiter |url=https://www.nytimes.com/2017/12/13/science/jupiter-great-red-spot-juno.html |date=December 13, 2017 |work=[[The New York Times]] |access-date=December 15, 2017}}</ref>。 |
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木星有光環,不過就唔容易睇到。木星表面有大大小小嘅風暴,其中最出名嘅風暴係「[[大紅斑]]」。 |
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==名== |
==名== |
喺2023年8月29號 (二) 08:26嘅修訂
木星外觀 | |||||||||||||||
編號 | |||||||||||||||
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發音 | /ˈdʒuːp[invalid input: 'ɪ-']tər/ ( 聽)[1] | ||||||||||||||
軌道參數[5][a] | |||||||||||||||
曆元 J2000 | |||||||||||||||
遠日點 | 104 AU ( 5.458520800 km) 816 | ||||||||||||||
近日點 | 429 AU ( 4.950573600 km) 740 | ||||||||||||||
半長軸 | 267 AU ( 5.204547200 km) 778 | ||||||||||||||
離心率 | 775 0.048 | ||||||||||||||
軌道週期 | |||||||||||||||
會合週期 | 398.88 日[3] | ||||||||||||||
平均速度 | 13.07 公里/秒[3] | ||||||||||||||
平近點角 | 18.818° | ||||||||||||||
軌道傾角 | |||||||||||||||
升交點黃經 | 100.492° | ||||||||||||||
近日點參數 | 275.066° | ||||||||||||||
衛星 | 95 (截至2023年[update]) | ||||||||||||||
物理特徵 | |||||||||||||||
平均半徑 | 911±6 km 69[6][b] | ||||||||||||||
赤道半徑 | |||||||||||||||
極半徑 | |||||||||||||||
扁率 | 87±0.00015 0.064 | ||||||||||||||
表面積 | |||||||||||||||
體積 | |||||||||||||||
質量 | |||||||||||||||
平均密度 | 1.326 g/cm3[3][b] | ||||||||||||||
表面重力 | m/s2 24.79 [3][b] 2.528 g | ||||||||||||||
逃逸速度 | 59.5 km/s[3][b] | ||||||||||||||
恒星自轉週期 | 9.925 h[9] (9 h 55 m 30 s) | ||||||||||||||
赤道自轉速度 | 12.6 km/s 300 km/h 45 | ||||||||||||||
轉軸傾角 | 3.13°[3] | ||||||||||||||
北極赤經 | 268.057° 17時 52分 14秒[6] | ||||||||||||||
北極赤緯 | 64.496°[6] | ||||||||||||||
反照率 | 0.343 (Bond) 0.52 (geom.)[3] | ||||||||||||||
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視星等 | 到 −1.6 −2.94[3] | ||||||||||||||
角直徑 | 29.8″到50.1″[3] | ||||||||||||||
大氣[3] | |||||||||||||||
表面氣壓 | 20–200 kPa[10] (cloud layer) | ||||||||||||||
大氣標高 | 27 km | ||||||||||||||
成分 | by volume:
冰: | ||||||||||||||
木星,又叫歲星,係太陽系八大行星入面最大嘅行星,係由內數到外第五粒行星[11]。木星屬於氣體大行星,同土星、天王星、海王星一樣,木星繞太陽運行,平均距離太陽5.2 AU,軌道週期11.86年[2]。木星係地球夜晚睇到嘅第三光嘅天體,只係暗過月球同金星[12][13]。
古時中國叫佢做「歲星」[14],因為佢公轉大約12年,同地支一個循環差唔多,並產生咗歲星紀年法:歲星出沒嘅時候,古時人望住個天睇佢嘅位置,並用佢來紀年。西方叫佢做朱庇特(Jupiter)[15],源自羅馬神話入面嘅眾神之王,等同希臘神話嘅宙斯。
木星嘅質量係地球嘅318倍,亦係太陽系所有其他行星加埋嘅2.5倍[16],但就只係太陽嘅千分之一,佢亦係太陽系第二多衛星嘅行星(已知有95粒[17]),同埋自轉最快嘅行星(9.925個鐘[9])。
木星有光環,不過就唔容易睇到,喺地上需要現存最大嘅望遠鏡先至可以進行對木星環嘅觀察[18]。木星表面有大大小小嘅風暴,其中最出名嘅風暴係「大紅斑」[19]。
名
喺希臘同羅馬文明入面,木星畀命名做佢哋嘅主神 Zeus 同 Jupiter[20]。國際天文學聯會喺1976年正式以 Jupiter 命名呢粒行星,並以神嘅愛人、最愛同後裔命名木星嘅衛星[21]。
形成同遷徙
木星畀人認為係太陽系最老嘅行星[22],呢粒行星最初係一個固體核心,然後積累咗佢嘅氣態大氣層,所以木星係喺太陽星雲消散之前形成嘅[23]。形成嘅過程入面,木星嘅質量一路增加到地球質量嘅20倍[22],而大約一半由矽酸鹽、冰同其他重元素成份組成。呢粒不斷增長嘅行星喺3至4百萬年到咗最終質量[22]。
根據「大遷徙假說」,木星喺離太陽大約3.5AU嘅地方開始形成。隨著木星質量增加,同圍繞太陽運行嘅氣盤相互作用以及同土星嘅軌道共振導致佢向內遷移[24][25],之後土星都向內遷移,並且快過木星,直到兩粒行星喺離太陽1.5AU嘅地方被捕獲為3:2平均運動共振[26],之後兩粒行星開始向外移並去到而家嘅位置[27]。木星喺內太陽系嘅遷移最終令內行星從廢墟形成[28]。
物理性質
木星係氣體大行星,主要由氣體同液體組成。佢係太陽系最大嘅行星,赤道直徑係142,984 公里,體積係地球嘅1321倍[3][29],平均密度係1.326 g/cm3,低過太陽系所有類地行星[30][31]。
成分
跟質量來計嘅話木星嘅大氣大約由76% 氫同24% 氦組成,但氦原子質量大過氫分子,所以跟體積計嘅話,木星嘅高層大氣大約由90% 氫同10% 氦組成[32]。大氣入面仲有微量甲烷、水蒸氣、氨同矽基化合物,以及少量碳、乙烷、硫化氫、氖、氧、磷化氫同硫[33]。大氣最外層有凍結嘅氨晶體[34]。通過紅外線同紫外線測量,仲發現咗微量苯同其他碳氫化合物[35]。木星內部含有密度更大嘅物質,跟質量計嘅話,大約有 71% 嘅氫、24% 嘅氦和 5% 其他元素[36][37]。
大氣入面氫同氦嘅比例接近原始太陽星雲嘅理論成分[38]。高層大氣嘅氖含量得百萬分之二十,大約係太陽入面嘅十分之一[39]。木星嘅氦豐富度大慨係太陽嘅 80%,因為呢啲元素以富氦液滴嘅形式沉澱,並喺木星內部深處發生[40][41]。
根據光譜學,土星嘅成分被認為同木星相似,但係天王星同海王星嘅氫同氦含量相對較少,而喺木星同土星較少嘅元素就相對較多,包括氧、碳、氮同硫[42]。呢啲行星叫冰巨行星,因為佢哋大部分揮發性化合物都係固體[43]。
質量同大細
木星嘅質量係地球 318 倍[3],係太陽系其他行星質量總和嘅 2.5 倍。佢嘅質量之大令佢嘅太陽重心喺太陽表面上方,離太陽中心 1.068 個太陽半徑[44] [45]:6。木星嘅半徑大約係太陽半徑嘅十分之一[46],質量係太陽質量嘅千分之一,因為兩個天體密度相似[47]。「木星質量」(MJ/MJup)通常用來描述其他天體質量嘅單位,特別係系外行星同棕矮星。例如,HD 209458 b嘅質量係0.69 MJ,而棕矮星Gliese 229 b嘅質量係60.4 MJ[48][49]。
理論模型話如果木星的質量增加 40% 以上,內部就會被壓縮,即使物質數量增加,體積都會減小。但質量變化較細嘅話,半徑唔會明顯變化[50]。因此,木星被認為有同行星組成同進化歷史去到嘅的直徑噉大嘅直徑[51]。如果隨住質量增加而進一步收縮嘅過程持續落去嘅話,恆星就會形成[52]。即使木星嘅質量要大約 75 倍先可以融合氫並成為恆星[53],佢嘅直徑可能已經夠大,因為最細嘅紅矮星嘅半徑可能只係大過土星小小[54]。
形成嗰陣,木星溫度高過而家,直徑大約係當前直徑嘅兩倍[55]。之後,木星輻射嘅熱量比通過太陽輻射接收嘅熱量多[56]:30[57]。噉令克赫歷程發生,並收縮內部,導致木星每年收縮大約 1 毫米[58][59]。
內部結構
科學家針對木星形成有兩種理論:如果行星首先以固體形式吸積,佢會由密度高嘅核心同向外延伸到行星半徑大約 80% 嘅液態金屬氫同一啲氦嘅周圍層組成[60],而外部大氣層就會由分子氫組成[59]。或者,如果行星直接由氣態原行星盤塌陷,噉佢應該冇核心,而係由密度從外圍到中心一路越來越高嘅流體(主要由分子同金屬氫)組成。朱諾號嘅數據顯示,木星有一個混合到地幔入面嘅彌散核心,延伸到木星半徑嘅30-50%,而且包含總質量有地球 7-25 倍嘅重元素[61][62][63][64][65]。
喺金屬氫層出面係透明嘅內部氫大氣層,壓力同溫度高過分子氫嘅臨界壓力 1.3 MPa 同臨界溫度 33 K(−240.2 °C)[66]。喺噉嘅狀態下,冇明顯液相同氣相,所以氫被認為喺超臨界流體狀態。從雲層向下延伸嘅氫氣同氦氣喺更深嘅一層轉變咗做液體,可能同液態氫同其他超臨界流體嘅海洋類似[56]:22[67][68][69]。隨著深度增加,氣體逐漸變得更加熱同稠密[70][71]。
氦同氖嘅雨狀液滴通過低層大氣向下沉澱,消耗咗高層大氣入面呢啲元素嘅豐富度[40][72]。計算表明,氦滴喺半徑60,000 公里處同金屬氫分離,並喺半徑50,000 公里處再次合併[73]。天降鑽石被認為會發生,包括土星[74]同冰巨行星天王星同海王星[75]。
木星內部嘅溫度同壓力向內穩定增加,因為行星形成嘅熱量只能夠通過對流逃逸[41]。喺大氣壓力水平 1 bar (0.10 MPa)嘅表面深度,溫度大約喺 165 K (−108°C)。超臨界氫逐漸由分子流體轉變做金屬流體的區域嘅壓力範圍分別係 50–400 GPa,溫度分別為 5,000–8,400 K(4,730–8,130 °C)。木星稀釋核心嘅溫度估計係喺 19,700 °C(20,000 K),壓力大約係喺 4,000 GPa [76]。
大氣層
磁層
木星嘅磁場係太陽系行星入面最強嘅[77],偶極矩係 4.170 高斯(0.4170 mT),同自轉極傾斜 10.31° 。表面磁場強度由 2 高斯(0.20 mT)到 20 高斯(2.0 mT)都有[78]。磁場被認為係由液態金屬氫核心嘅渦流產生嘅。木星磁層周圍係個磁層頂,喺磁鞘內邊。太陽風同呢啲區域相互作用,拉長木星背風面嘅磁層並向外延伸,差唔多去到土星軌道。伽利略衛星都喺磁層入面行,令佢哋唔使受暴露喺太陽風。[56]:69
木衛一嘅火山噴出大量二氧化硫,沿住軌道形成氣體環面,嗰啲氣體喺木星磁層入面被電離,產生硫離子同氧離子。之後佢哋同來自木星大氣層嘅氫離子喺木星赤道面形成等離子片。薄片嘅等離子體同行星共同旋轉,造成變形偶極磁場。等離子片內的電子會產生範圍喺 0.6–30 MHz 嘅無線電信號,用普通短波無線電接收器都可以喺地球檢測到[79][80]。而木衛一穿過呢個環面嗰陣,相互作用產生咗阿爾芬波,將電離物質帶去木星兩極。之後,無線電波通過迴旋加速器嘅邁射機制同能量沿住錐形表面傳輸出去。當地球同個錐體相交嗰陣,木星嘅無線電輸出可能多過太陽嘅無線電輸出[81]。
行星環
木星嘅行星環系統微弱,由顆粒組成嘅內環,比較光嘅主環同外圍嘅薄紗環組成[82],呢啲環大慨由塵埃組成,同土星環用冰組成唔同[56]:65。主環可能係由木衛十五同木衛十六噴出嘅物質組成,呢啲物質受木星引力吸引,軌道繞住木星,後來新的材料被碰撞影響而形成而家嘅環[83]。木衛十四同木衛五可能以相同方式組成薄紗環嘅兩個唔同組成部分[83]。來自木衛五附近嘅碎片可能係來自同木衛五碰撞嘅碎片[84]。
軌道和自轉
木星係太陽系唯一一個同太陽嘅重心喺太陽本體之外,但都只喺太陽半徑以外7%[85][86]。木星同太陽嘅平均距離係7.78億公里,即係5.2個天文單位,每11.86年公轉一周,大約係土星嘅五分之二,形成近軌道共振[87]。木星嘅軌道平面比地球斜1.30°。因為佢有0.049嘅離心率,木星嘅遠日點比近日點遠大約7500萬公里[3]。系外行星嘅發現證實咗有高偏心率嘅類木行星,同木星嘅低偏心率唔一樣。模型表明噉係因為太陽系只有兩粒類木行星,而有更多嘅話可能會提高偏心率[88]。
木星嘅軸傾角得3.13,同地球或者火星比,佢嘅季節微不足道[89]。
木星嘅自轉係太陽系入面最快,可以喺十個鐘之內完成自轉,噉會產生一個明顯嘅赤道隆起。因為木星唔係固體,所以佢嘅上層大氣會有差異自轉。木星極地大氣嘅自轉比赤道大氣長5分鐘[90]。木星係扁球體,所以赤道直徑比兩極嘅直徑長9275公里[3]。
有三個系統用來参考木星嘅自轉。系統I喺北緯10度到南緯10度適用,週期係9h50m30.0s。系統II喺所有緯度都適用,週期係9h55m40.6s[91]。系統III最早由電波天文學定義,對應行星磁層嘅自轉,週期係木星嘅官方週期[92]。
觀測
木星通常係夜晚成個天入面第四光嘅天體(僅次太陽、月球同金星)[77]。根據木星喺地球望落去嘅位置,佢嘅視星等可能會唔同[93]。平均視星等係−2.20,標準差係0.33[93]。當木星穿過近日點嗰陣,會發生衝,令佢更近地球[94]。接近衝嗰陣,木星會進入121日嘅逆行狀態,向後移動 9.9° ,然後返到順行狀態[95]。
因為木星軌道喺地球軌道出面,因此從地球睇木星嘅相位角始終小於11.5°;因此,當通過地球望遠鏡觀察嗰陣,木星成日被照到幾乎光哂噉。只有接近木星嘅航天器可以影到新月形嘅木星[96]。小型望遠鏡通常會睇到木星嘅伽利略衛星同橫跨木星大氣層嘅雲帶。4-6 英寸口徑嘅望遠鏡會喺木星面對地球嗰陣睇到大紅斑[97][98]。
探測史
衛星
木星有95粒已知天然衛星[17],隨著觀測技術嘅進步,呢個數字可能會增加[99]。衛星入面有79粒直徑細個10公里[17],最大嗰四粒統稱伽利略衛星,通常喺夜晚地球用雙筒望遠鏡可以睇到[100]。
伽利略衛星
伽利略衛星係指由天文學家伽利略發現嘅衛星,分別係木衛一、木衛二、木衛三同木衛四。其中木衛一、木衛二同木衛三嘅軌道形成咗拉普拉斯共振,木衛三轉一圈,木衛二就會轉兩圈,而木衛一就會轉四圈。而木星嘅潮汐力令佢哋嘅軌道呈圓形[101]。
佢哋嘅軌道離心率令呢幾粒衛星接近木星嗰陣形狀彎曲,並喺遠離嗰陣變返球形[102]。噉嘅磨擦令衛星內部產生熱量,並體現咗喺木衛一嘅火山活動入面[102]。而喺木衛二表面比較年輕嘅地質年都體現咗木星令佢嘅表面更換咗[103]。
| |||||||||||||||||||||||||||||||||||||||||||||||||||||
伽利略衛星,從左到右數起分別係木衛一、木衛二、木衛三同木衛四 |
分類
木星嘅衛星從前根據類似嘅軌道根數分為四組,每組四粒衛星[104]。之後,由於發現咗好多小型衛星,令情況變得更加複雜。木星嘅衛星目前有6個組,並有幾個冇組嘅衛星[105]。
最入嗰八粒規則衛星喺木星赤道平面附近有近乎圓形嘅軌道,佢哋被認為同木星一齊形成,而其他衛星係不規則衛星,被認為係畀木星捕獲嘅小行星或者係佢哋嘅碎片。 每組嘅不規則衛星可能有一個共同嘅起源,可能係一個更大的衛星或分裂嘅捕獲天體[106][107]。
規則衛星 | |
---|---|
內側群 | 喺內側嘅4粒小衛星,直徑細過200公里,軌道半徑細過200,000公里,軌道傾角細過0.5度。 |
伽利略衛星[108] | 由伽利略同西門·馬里烏斯同時期發現嘅4粒衛星,軌道喺400,000公里到2,000,000公里。 |
不規則衛星 | |
撒米斯圖群 | 得一粒衛星嘅群組,軌道介於伽利略衛星同希馬利亞群半途嘅中間位置。 |
希馬利亞群 | 一個緊密嘅族群,軌道距離喺11,000,000公里至12,000,000公里。 |
卡普群 | 得一粒衛星嘅群組,喺亞南克群內緣,以順行方向繞木星運轉。 |
亞南克群 | 逆行軌道群組,邊界模糊,平均距離木星21,276,000公里,平均軌道傾角係149度。 |
加爾尼群 | 明顯嘅逆行群組,平均距離木星23,404,000公里,平均軌道傾角165度。 |
帕西法爾群 | 分散、特徵含糊嘅逆行集團,涵蓋所有最外層嘅衛星。 |
文化
木星喺夜晚好容易以肉眼睇到,即使喺日頭有陣時都會睇到,所以自古以來就為人所知[109]。喺巴比倫,木星代表佢哋嘅神 Marduk。佢哋利用木星沿黃道大約十二年嘅軌道來定義星宮[45]。
羅馬人將木星命名做朱庇特,係羅馬神話嘅主神[110]。朱庇特喺希臘神話入面對應嘅神係宙斯,亦都係希臘人對木星嘅叫法[111]。
喺東亞,基於中國嘅五行,呢粒行星被稱為木星[112][113][114],亦畀道教嘅人稱為福星。喺印度,木星被稱為 Brihaspati ,亦都被稱為 Guru ,意思即係上師[115]。
註
參考
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- ↑ 6.0 6.1 6.2 6.3 6.4
本引用來源將會喺幾十分鐘後自動完成。您可以檢查英文對應模或手動擴充 - ↑ "Solar System Exploration: Jupiter: Facts & Figures". NASA. 2008年5月7號. 原著喺2002年12月16號歸檔. 喺2015年7月26號搵到.
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suggested) (help) - ↑ Chang, Kenneth (December 13, 2017). "The Great Red Spot Descends Deep into Jupiter". The New York Times. 喺December 15, 2017搵到.
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{{cite book}}
: CS1 maint: multiple names: 編者名單 (link) - ↑ Vdovichenko, V. D.; Karimov, A. M.; Kirienko, G. A.; Lysenko, P. G.; Tejfel’, V. G.; Filippov, V. A.; Kharitonova, G. A.; Khozhenets, A. P. (2021). "Zonal Features in the Behavior of Weak Molecular Absorption Bands on Jupiter". Solar System Research. 55: 35–46. doi:10.1134/S003809462101010X. S2CID 255069821.
{{cite journal}}
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value (help) - ↑ Kim, S. J.; Caldwell, J.; Rivolo, A. R.; Wagner, R. (1985). "Infrared Polar Brightening on Jupiter III. Spectrometry from the Voyager 1 IRIS Experiment". Icarus. 64 (2): 233–248. Bibcode:1985Icar...64..233K. doi:10.1016/0019-1035(85)90201-5.
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- ↑ 41.0 41.1 Stevenson, David J. (May 2020). "Jupiter's Interior as Revealed by Juno". Annual Review of Earth and Planetary Sciences. 48: 465–489. Bibcode:2020AREPS..48..465S. doi:10.1146/annurev-earth-081619-052855. S2CID 212832169. 原著喺May 7, 2020歸檔. 喺2022-03-18搵到.
- ↑ Ingersoll, A. P.; Hammel, H. B.; Spilker, T. R.; Young, R. E. (June 1, 2005). "Outer Planets: The Ice Giants" (PDF). Lunar & Planetary Institute. 原先內容歸檔 (PDF)喺2022-10-09. 喺February 1, 2007搵到.
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the barycentre is 743,000 km from the centre of the Sun. The Sun's radius is 696,000 km, so it is 47,000 km above the surface.
- ↑ 45.0 45.1 Burgess, Eric (1982). By Jupiter: Odysseys to a Giant. New York: Columbia University Press. ISBN 978-0-231-05176-7.
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Hence the HBMM at solar metallicity and Yα = 50.25 is 0.07 – 0.074 M☉, ... while the HBMM at zero metallicity is 0.092 M☉
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the radius of Jupiter is estimated to be currently shrinking by approximately 1 mm/yr
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In Greek the name of the planet Jupiter is Dias, the Greek name of god Zeus.
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suggested) (help) - ↑ De Groot, Jan Jakob Maria (1912). Religion in China: universism. a key to the study of Taoism and Confucianism. American lectures on the history of religions.第10卷. G. P. Putnam's Sons. p. 300. 原著喺2011-07-22歸檔. 喺2010-01-08搵到.
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suggested) (help) - ↑ Crump, Thomas (1992). The Japanese numbers game: the use and understanding of numbers in modern Japan. Nissan Institute/Routledge Japanese studies series. Routledge. pp. 39–40. ISBN 0415056098.
- ↑ Hulbert, Homer Bezaleel (1909). The passing of Korea. Doubleday, Page & company. p. 426. 原著喺2011-07-22歸檔. 喺2010-01-08搵到.
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suggested) (help) - ↑ "Guru". Indian Divinity.com. 原著喺2008-09-16歸檔. 喺2007-02-14搵到.
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