Mars

**Mars**
	Mars dilihat oleh teleskop luar angkasa Hubble
Penamaan
Adjektif	Martian
Ciri-ciri orbit
	Epos J2000
Aphelion	249.209.300 km 1,665 861 SA
Perihelion	206.669.000 km 1,381 497 SA
Sumbu semi-mayor	227.939.100 km 1,523 679 SA
Eksentrisitas	0,093 315
Periode orbit	686,971 dina 1,8808 taun Julian 668,5991 sol
Periode sinodis	779,96 dina 2,135 taun Julian
Kecepatan orbit rata-rata	24,077 km/s
Inklinasi	1,850° menyang Ekliptika 5,65° marang ekuator srengenge 1,67° marang babagan Invariabel
Bujur node menaik	49,562°
Argumen perihelion	286,537°
Satelit	2
Ciri-ciri fisik
Jari-jari khatulistiwa	3.396,2 ± 0,1 km 0,533 Bumi
Jari-jari kutub	3.376,2 ± 0,1 km 0,531 Bumi
Kepepatan	0,005 89 ± 0,000 15
Luas permukaan	144.798.500 km² 0,284 Bumi
Volume	1,6318×10 11 km³ 0,151 Bumi
Massa	6,4185×10 23 kg 0,107 Bumi
Kepadatan rata-rata	3,934 g/cm³
Gravitasi permukaan di khatulistiwa	3,69 m/s² 0,376 g
Kecepatan lepas	5,027 km/s
Hari sideris	1,025 957 hari 24,622 96 h
Kecepatan rotasi	868,22 km/jam
Kemiringan sumbu	25,19°
Asensio rekta bagi kutub utara	21 j 10 m 44 d 317,681 43°
Deklinasi	52,886 50°
Albedo	0,15
Magnitudo tampak	+1,8 hingga ?2,91
Ukuran sudut	3,5?25,1"
Atmosfer
Tekanan permukaan	0,6?1,0 kPa
Komposisi	95,72% Karbon dioksida 2.7% Nitrogen 1.6% Argon 0.2% Oksigen 0.07% Karbon monoksida 0.03% Uap air 0.01% Nitrogen monoksida 2.5 ppm Neon 300 ppb Krypton 130 ppb Formaldehida 80 ppb Xenon 30 ppb Ozon 10 ppb Metana

Mars utawa Anggara yaiku planit kaping papat saka srengenge . Jenenge dijupuk saka jeneng dewa prang Romawi , Mars. Planit iki asring diarani "planit abang" amarga yen dideleng saka kadohan katon semu abang. Iki amarga anane wesi (III) oksida ing lumah planit Anggara. ^[6] Anggara iku planit kang isine watu kanthi atmosfer kang tipis. Ing lumah Anggara ana kawah , gunung geni , lembah, ara-ara , lan tudung es . Periodhe rotasi lan siklus mangsa Anggara mirib karo Bumi . Ing Planit Anggara ana Gunung Olimpus, gunung kang paling dhuwur ing Tata Surya , lan Valles Marineris, lembah paling amba ing Tata Surya. Saliyane iku, ing sisih lor ana cekungan Borealis ambane nganti tekan 40% lumah Anggara.

Lingkungan Anggara luwih bisa kanggo manggon urip tinimbang kahanane Planet Kejora . Sanajan mangkono, kaanan kayaiku ora cukup idheal kanggo uripe manungsa. Suhu udara kang rada adhem lan tekanan udara kang sithik, ditambah maneh karo komposisi udara ing Anggara isine karbondioksida, ndadekake manungsa kudu nganggo piranti ambegan yen kepengin manggon ing kana. Misi-misi menyang planit abang iki, nganti tekan pungkasane abad kaping 20, durung bisa kasil nemu tipak panguripan ing kana, sanajan kang paling prasaja.

Planit duwe 2 satelit, yaiku Phobos lan Deimos . Planit iki mbutuhake 686 dina kanggo ngubengi srengenge . Planit iki uga nindakake rotasi. Suwe rotasine yaiku 25,62 jam.

Ing planit Mars, ana fitur unik ing laladan Cydonia Mensae . Fitur iki wujude kaya bukit yen dideleng saka dhuwur katon kaya rai manungsa. Akeh kang nganggep yen bukit iku bukti saka peradaban kang wis suwe musnah ing Mars, sanajan saiki wis kabukti yen fitur iku mung kenampakan alam biyasa.

Ing mitologi Yunani , planit iki idhentik karo dewa perang, yaiku Aries, putra Zeus lan Hera .

Ciri fisik [ besut | besut sumber ]

Mars duwe jari-jari kira-kira setengahe jari-jari Bumi kurang luwih 6000 m. Planit iki kurang madhet yen dibandhingake karo Bumi. Volume Planit Mars mung watara 15% lan massane mung 11% saka massa Bumi. Ambane luwih ciyut saka ambane laladan panggonan garing ing Bumi. ^[5] Mars luwih gedhe tinimbang Merkurius , nanging Merkurius luwih padhet. Mula rong planit iki nduwe tarikan gravitasi kang meh mirib ing permukaane. Gravitasi Mars luwih kuwat kira-kira kurang saka 1%. Ukuran, massa, lan gravitasi lumah Mars ana ing watarane Bumi lan Bulan (diameter Bulan mung separone diameter Mars, yen Bumi kaping pindhane; Bumi kaping sangane Mars, lan Bulan siji para sangane). Kenampakan lumah Mars wernane abang semu kuning tela amarga ana wesi(III) oksida, kang luwih misuwur kanthi aran hematite. ^[7]

Geologi [ besut | besut sumber ]

Miturut pengamatan orbit lan priksanan kumpulan meteorit Mars, lumah Mars kaisi basalt . Saperangan bukti nuduhake yen saperangan lumah Mars ngandhut silika kang luwih akeh tinimbang basalt biyasa, mirib watu andesit ing Bumi. lumah Mars akeh kang ditutupi awu besi(III) oksida kang marakake katon abang. ^[8]^[9]

Saiki Mars ora duwe medan magnet global, ^[10] nanging asil pengamatan nuduhake yen saperangan kerak planit termagnetisasi, medan magnet global tau ana ing jaman biyen. Salah siji teyori kang dibiwara taun 1999 lan diperiksa ulang ing Oktober 2005 (kanthi direwangi Mars Global Surveyor ) nuduhake yen 4 miliyar taun kepungkir, dinamo Mars mandheg fungsine lan ndadekake medan magnete ilang. ^[11] Uga ana teyori yen ana asteroid kang gedhe banget tau nabrak Mars lan mateni medan magnete. ^[12]

Inti Anggara, yang jari-jarinya diperkirakan sebesar 1.480 km, terdiri dari besi dan 14-17% sulfur . Inti besi sulfida ini cair. Lapisan di atas inti Anggara yaiku mantel silikat yang membentuk banyak objek tektonik dan vulkanik di Anggara, tetapi saat ini mantel tersebut wis tidak aktif. Di atas lapisan mantel yaiku kerak, yang ketebalan rata-ratanya sakiwa-tengene 50 km, dan ketebalan maksimumnya 125 km. ^[13]

Aktivitas geologi isih kadadean Mars. Athabasca Valles iku panggonan miline lava wiwit 200 yuta taun kapungkur. Aliran banyu ing graben Cerberus Fossae ana watara 20 yuta taun kapungkur, kang dadi pratandha anane intrusi vulkanik. ^[14] Nalika 19 Februari 2008 , gambar kang diabadhikake dening Mars Reconnaissance Orbiter nuduhukae bukti anane longsor ing tebing kang dhuwure 700 m. ^[15]

Lemah [ besut | besut sumber ]

Adhedhasar dhata saka wahana Phoenix , lemah Mars kaperang saka unsur magnesium , sodium , potasium , lan klorida . Nutrien iku bisa tinemu ing kebun Bumi lan wigati kanggo thukule tuwuhan. ^[16] Percobaan kang dilakoni wahana Phoenix yen lemah ing Mars ngandhut pH 8,3, lan uyah perklorat . ^[17]^[18]

Cerat bisa tinemu ing Anggara. Cerat anyar asring ana ing pereng curam kawah, palung, lan lembah. Cerat wiwitane wernane peteng saya suwe warna cerat dadi tansaya padhang. Kadhang-kadhang cerat methungul kanthi ukuran kang cilik banjur tambah amba nganti tekan atusan meter. Cerat uga nututi pinggiran watu. Miturut teyori kang ana, cerat iku lapisan lemah awarna peteng ing ngisor kang ana amarga longsor utawa anane badhe awu. ^[19] Ana penjelasan liyane kang ana gegayutane karo banyu lan thukule organisme. ^[20]^[21]

Cathetan sikil [ besut | besut sumber ]

↑ Yeomans, Donald K. (2006-07-13). "HORIZONS System" . NASA JPL . Dibukak ing 2007-08-08 . ? Di situs, pergi ke "web interface" dan lalu pilih "Ephemeris Type: ELEMENTS", "Target Body: Mars" and "Center: Sun".
↑ "The MeanPlane (Invariable plane) of the Solar System passing through the barycenter" . 2009-04-03. Diarsip saka asline ing 2009-04-20 . Dibukak ing 2009-04-10 . (dihasilkan melalui Solex 10 ditulis oleh Aldo Vitagliano; lihat pula babagan Invariabel )
↑ ^a ^b Seidelmann, P. Kenneth; Archinal, B. A.; A'hearn, M. F.; et al. (2007). "Report of the IAU/IAG Working Group on cartographic coordinates and rotational elements: 2006" . Celestial Mechanics and Dynamical Astronomy . 98 (3): 155?180. doi : 10.1007/s10569-007-9072-y . Dibukak ing 2007-08-28 .
↑ ^a ^b "Mars: Facts & Figures" . NASA . Dibukak ing 2007-03-06 .
↑ ^a ^b ^c ^d Williams, David R. (September 1, 2004). "Mars Fact Sheet" . National Space Science Data Center . NASA . Dibukak ing 2006-06-24 . Masalah sitiran: Tenger <ref> ora trep; jeneng "nssdc" diwedharake ping bola-bali dene isine beda
↑ "The Lure of Hematite" . Science@NASA . NASA. March 28, 2001. Diarsip saka sing asli ing September 14, 2012 . Dibukak ing June 12, 2013 . {{ cite web }}: More than one of |archivedate= and |archive-date= specified ( pitulung ) ; More than one of |archiveurl= and |archive-url= specified ( pitulung )
↑ Peplow, Mark. "How Mars got its rust" . BioEd Online . MacMillan Publishers Ltd.
↑ Christensen, Philip R.; et al. (June 27, 2003). "Morphology and Composition of the Surface of Mars: Mars Odyssey THEMIS Results". Science . 300 (5628): 2056?2061. Bibcode : 2003Sci...300.2056C . doi : 10.1126/science.1080885 . PMID 12791998 .
↑ Golombek, Matthew P. (June 27, 2003). "The Surface of Mars: Not Just Dust and Rocks". Science . 300 (5628): 2043?2044. doi : 10.1126/science.1082927 . PMID 12829771 .
↑ Valentine, Theresa; Amde, Lishan (2006-11-09). "Magnetic Fields and Mars" . Mars Global Surveyor @ NASA. {{ cite web }}: CS1 maint: multiple names: authors list ( link )
↑ "New Map Provides More Evidence Mars Once Like Earth" . NASA/Goddard Space Flight Center. Diarsip saka sing asli ing 2012-09-14 . Dibukak ing 2013-06-14 . {{ cite web }}: More than one of |archivedate= and |archive-date= specified ( pitulung ) ; More than one of |archiveurl= and |archive-url= specified ( pitulung )
↑ "Supergiant" Asteroid Shut Down Mars's Magnetic Field , National Geographic
↑ Jacque, Dave (September 26, 2003). "APS X-rays reveal secrets of Mars' core" . Argonne National Laboratory . Dibukak ing 2006-07-01 .
↑ Mitchell, Karl L.; Wilson, Lionel (2003). "Mars: recent geological activity: Mars: a geologically active planit". Astronomy & Geophysics . 44 (4): 4.16?4.20. Bibcode : 2003A&G....44d..16M . doi : 10.1046/j.1468-4004.2003.44416.x . {{ cite journal }}: CS1 maint: multiple names: authors list ( link )
↑ "Mars avalanche caught on camera" . Discovery Channel . Discovery Communications. 2008-03-04 . Dibukak ing 2009-03-04 .
↑ "Martian soil 'could support life' " . BBC News. June 27, 2008.
↑ Chang, Alicia. "Scientists: Salt in Mars soil not bad for life" . USA Today . Associated Press.
↑ "NASA Spacecraft Analyzing Martian Soil Data" . JPL. Diarsip saka sing asli ing 2017-05-22 . Dibukak ing 2013-06-28 . {{ cite web }}: More than one of |archivedate= and |archive-date= specified ( pitulung ) ; More than one of |archiveurl= and |archive-url= specified ( pitulung )
↑ "Dust Devil Etch-A-Sketch (ESP_013751_1115)" . NASA/JPL/University of Arizona. 2009-07-02.
↑ Schorghofer, Norbert; Aharonson, Oded; Khatiwala, Samar (December 2002). "Slope streaks on Mars: Correlations with surface properties and the potential role of water". Geophysical Research Letters . 29 (23): 41?1. Bibcode : 2002GeoRL..29w..41S . doi : 10.1029/2002GL015889 . {{ cite journal }}: CS1 maint: multiple names: authors list ( link )
↑ Ganti, Tibor; et al. (October 2003). "Dark Dune Spots: Possible Biomarkers on Mars?". Origins of Life and Evolution of the Biosphere . 33 (4): 515?557. Bibcode : 2003OLEB...33..515G .

Pranala njaba [ besut | besut sumber ]

Semburan Karbon Dioksida ing Planet Anggara ^{[
pranala mati permanen
]}

[horizons-1] Yeomans, Donald K. (2006-07-13). "HORIZONS System" . NASA JPL . Dibukak ing 2007-08-08 . ? Di situs, pergi ke "web interface" dan lalu pilih "Ephemeris Type: ELEMENTS", "Target Body: Mars" and "Center: Sun".

[meanplane-2] "The MeanPlane (Invariable plane) of the Solar System passing through the barycenter" . 2009-04-03. Diarsip saka asline ing 2009-04-20 . Dibukak ing 2009-04-10 . (dihasilkan melalui Solex 10 ditulis oleh Aldo Vitagliano; lihat pula babagan Invariabel )

[Seidelmann2007-3] Seidelmann, P. Kenneth; Archinal, B. A.; A'hearn, M. F.; et al. (2007). "Report of the IAU/IAG Working Group on cartographic coordinates and rotational elements: 2006" . Celestial Mechanics and Dynamical Astronomy . 98 (3): 155?180. doi : 10.1007/s10569-007-9072-y . Dibukak ing 2007-08-28 .

[nasa-4] "Mars: Facts & Figures" . NASA . Dibukak ing 2007-03-06 .

[nssdc-5] Williams, David R. (September 1, 2004). "Mars Fact Sheet" . National Space Science Data Center . NASA . Dibukak ing 2006-06-24 . Masalah sitiran: Tenger <ref> ora trep; jeneng "nssdc" diwedharake ping bola-bali dene isine beda

[nasa_hematite-6] "The Lure of Hematite" . Science@NASA . NASA. March 28, 2001. Diarsip saka sing asli ing September 14, 2012 . Dibukak ing June 12, 2013 . {{ cite web }}: More than one of |archivedate= and |archive-date= specified ( pitulung ) ; More than one of |archiveurl= and |archive-url= specified ( pitulung )

[rust-7] Peplow, Mark. "How Mars got its rust" . BioEd Online . MacMillan Publishers Ltd.

[sci300a-8] Christensen, Philip R.; et al. (June 27, 2003). "Morphology and Composition of the Surface of Mars: Mars Odyssey THEMIS Results". Science . 300 (5628): 2056?2061. Bibcode : 2003Sci...300.2056C . doi : 10.1126/science.1080885 . PMID 12791998 .

[sci300b-9] Golombek, Matthew P. (June 27, 2003). "The Surface of Mars: Not Just Dust and Rocks". Science . 300 (5628): 2043?2044. doi : 10.1126/science.1082927 . PMID 12829771 .

[magnetosphere-10] Valentine, Theresa; Amde, Lishan (2006-11-09). "Magnetic Fields and Mars" . Mars Global Surveyor @ NASA. {{ cite web }}: CS1 maint: multiple names: authors list ( link )

[plates-11] "New Map Provides More Evidence Mars Once Like Earth" . NASA/Goddard Space Flight Center. Diarsip saka sing asli ing 2012-09-14 . Dibukak ing 2013-06-14 . {{ cite web }}: More than one of |archivedate= and |archive-date= specified ( pitulung ) ; More than one of |archiveurl= and |archive-url= specified ( pitulung )

[12] "Supergiant" Asteroid Shut Down Mars's Magnetic Field , National Geographic

[jacque03-13] Jacque, Dave (September 26, 2003). "APS X-rays reveal secrets of Mars' core" . Argonne National Laboratory . Dibukak ing 2006-07-01 .

[ag44_4-14] Mitchell, Karl L.; Wilson, Lionel (2003). "Mars: recent geological activity: Mars: a geologically active planit". Astronomy & Geophysics . 44 (4): 4.16?4.20. Bibcode : 2003A&G....44d..16M . doi : 10.1046/j.1468-4004.2003.44416.x . {{ cite journal }}: CS1 maint: multiple names: authors list ( link )

[dc080304-15] "Mars avalanche caught on camera" . Discovery Channel . Discovery Communications. 2008-03-04 . Dibukak ing 2009-03-04 .

[bbc080627-16] "Martian soil 'could support life' " . BBC News. June 27, 2008.

[marssalt-17] Chang, Alicia. "Scientists: Salt in Mars soil not bad for life" . USA Today . Associated Press.

[jpl_soil-18] "NASA Spacecraft Analyzing Martian Soil Data" . JPL. Diarsip saka sing asli ing 2017-05-22 . Dibukak ing 2013-06-28 . {{ cite web }}: More than one of |archivedate= and |archive-date= specified ( pitulung ) ; More than one of |archiveurl= and |archive-url= specified ( pitulung )

[jpl_dust_devil-19] "Dust Devil Etch-A-Sketch (ESP_013751_1115)" . NASA/JPL/University of Arizona. 2009-07-02.

[gpl29_23_41-20] Schorghofer, Norbert; Aharonson, Oded; Khatiwala, Samar (December 2002). "Slope streaks on Mars: Correlations with surface properties and the potential role of water". Geophysical Research Letters . 29 (23): 41?1. Bibcode : 2002GeoRL..29w..41S . doi : 10.1029/2002GL015889 . {{ cite journal }}: CS1 maint: multiple names: authors list ( link )

[oleb33_4_515-21] Ganti, Tibor; et al. (October 2003). "Dark Dune Spots: Possible Biomarkers on Mars?". Origins of Life and Evolution of the Biosphere . 33 (4): 515?557. Bibcode : 2003OLEB...33..515G .

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d r b Tata Surya

Srengenge · Merkurius · Venus · Bumi · Mars · Ceres · Yupiter · Saturnus · Uranus · Neptunus · Pluto · Haumea · Makemake · Eris
Satelit alami ( Rembulan · Mars · Yupiter · Saturnus · Uranus · Neptunus · Pluto · Haumea · Eris · Dysnomia ) · Cincin planit ( Yupiter · Saturnus · Uranus · Neptunus )
Meteoroid · Planit minor ( Asteroid ( Satelit · Sabuk ) · Centaur · Objek trans-Neptunus ( Sabuk Kuiper · Piringan kasebar )) · Komet ( Awan Oort · Awan Hills )
Artikel kang gegandhengan: Barang-barang langit , objek astronomi , lintang , planit , planit cilik , sistem tata surya cilik , lan sistem kaplanitan Deleng uga: daftar objek tata surya yang disusun berdasarkan radiusnya maupun massanya , atau kunjungi Portal Tata Surya