المعرفة

2017 في ارتياد الفضاء

2017 في ارتياد الفضاء
SpaceX Dragon v2 Pad Abort Vehicle (16661791299).jpg
The SpaceX Dragon 2 capsule is expected to complete its first uncrewed test flight in 2017.
الإطلاقات المدارية
الافتتاحية5 يناير
النهائية5 May
الإجمالية25
النجاحات24
الفشل1
مصنفة24
الافتتاحيات الوطنية
السواتل
الصواريخ
الرحلات التدشينية
التقاعد
الرحلات المأهولة
المدارية1
إجمالي المسافرين2

أنشطة ارتياد الفضاء البارزة في 2017 will include the maiden flight of the SpaceX Dragon 2 capsule, with a goal to restore capabilities for human spaceflight from the USA, as mandated by NASA's Commercial Crew Development program.[1] U.S. crewed flights have been halted since the Space Shuttle retirement in 2011. The first test flight of the Boeing's CST-100 Starliner and debut missions with astronauts on board the new vessels have been pushed to 2018.[1]

India's Geosynchronous Satellite Launch Vehicle Mark III (also called LVM3) is scheduled to perform its maiden orbital flight in the second quarter, and the much-delayed Falcon Heavy should follow in the third quarter, from the refurbished Launch Complex 39 pad A at Kennedy Space Center. China launched its new missile-derived Kaituozhe-2 variant on 2 March, and has scheduled another small-lift rocket, the Naga-L, for its maiden flight later this year. The first Japanese SS-520, a sounding rocket modified for orbital flight, failed in January. The venerable Russian Soyuz-U workhorse was retired after its 786th mission on 22 February. On 30 March, the SES-10 mission was launched with a previously-flown complete Falcon 9 first stage, achieving a key milestone in the SpaceX reusable launch system development program.

China plans to launch its Chang'e 5 lunar sample return mission in November, on top of its new heavy-lifting Long March 5, from the Wenchang launch facility on Hainan Island, inaugurated in 2016. The mission will be the first lunar sample return in over 40 years, since Luna 24 by the USSR in 1976.

After a record-breaking 13-year mission observing Saturn, its rings and moons, the Cassini space probe will be deliberately destroyed by plunging into Saturn's atmosphere, a maneuver scheduled for September 15, 2017.

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الإطلاقات المدارية

التاريخ والوقت (UTC) الصاروخ موقع الاطلاق LSP
الحمولة المشغل المدار الوظيفة التدهور (UTC) النتيجة
ملاحظات


يناير

5 January
15:18 		  Long March 3B   Xichang LC-2[2]   CASC
  TJS 2 CNSA Geosynchronous Communications In orbit Operational
9 January
04:11:12 		  Kuaizhou   Jiuquan LA-4/SLS-2   CASC
  Lingqiao / Jilin-1 03 CNSA Low Earth (SSO) Earth observation In orbit Operational
  Caton-1 (cubesat) CNSA Low Earth (SSO) Earth observation In orbit Operational
  Xingyun Shiyan 1 (cubesat) CNSA Low Earth (SSO) Earth observation In orbit Operational
14 January
17:54:39 		  Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  Iridium NEXT 1–10 Iridium Low Earth Communications In orbit Operational
Return to flight mission for Falcon 9 after an accident in September 2016. First stage landed on a drone ship.
14 January
23:33 		  SS-520[4]   Uchinoura   JAXA
  TRICOM-1 Low Earth Technology demonstration 14 January Launch failure
Contact lost at +20 sec after launch. Aborted ignition of 2nd stage.[3]
21 January
00:42 		  Atlas V 401   Cape Canaveral SLC-41   United Launch Alliance
  USA-273 / SBIRS GEO-3 US Air Force Geosynchronous إنذار صاروخي In orbit Operational
24 January
07:44 		  H-IIA 204   Tanegashima LA-Y1   MHI
  DSN-2 DSN / JSDF Geosynchronous Communications (military) In orbit Operational
28 January
01:03:34 		  Soyuz ST-B / Fregat-MT   Kourou ELS   Arianespace
  Hispasat AG1 Hispasat Geosynchronous Communications In orbit Operational
First GTO launch by Soyuz at the Guiana Space Centre


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فبراير

14 February
21:39 		  Ariane 5 ECA   Kourou ELA-3   Arianespace
  Intelsat 32e /
  SkyBrasil-1 		Intelsat / SKY Brasil Geosynchronous Communications In orbit Operational
  Telkom-3S Telkom Geosynchronous Communications In orbit Operational
15 February
03:58 		  PSLV-XL   Satish Dhawan FLP   ISRO
  Cartosat-2D ISRO Low Earth (SSO) Earth observation In orbit Operational
  INS-1A, 1B ISRO Low Earth (SSO) Technology demonstration In orbit Operational
  Flock-3p × 88 Planet Labs Low Earth (SSO) Earth observation In orbit Operational
  Lemur-2 × 8 Spire Global Low Earth (SSO) Earth observation In orbit Operational
  BGUSAT Ben Gurion University Low Earth (SSO) Technology demonstration In orbit Operational
  DIDO-2 SpacePharma Low Earth (SSO) Microgravity research In orbit Operational
 / / /  PEASS PEASS Consortium Low Earth (SSO) Technology demonstration In orbit Operational
  Al-Farabi 1 KazGU Low Earth (SSO) Technology demonstration In orbit Operational
  Nayif 1 EIAST/AUS Low Earth (SSO) Technology demonstration In orbit Operational
PSLV-C37 launch with 104 satellites on-board, setting a record for the largest flock of spacecraft ever launched on a single rocket.
19 February
14:38:59 		  Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  SpaceX CRS-10 NASA Low Earth (ISS) ISS logistics 19 March 2017, 14:46 Successful
Carries the SAGE III and Lightning Imaging Sensor (LIS) Earth-observation instruments to the ISS. First stage returned to launch site.
22 February
05:58 		  Soyuz-U   Baikonur Site 1/5   Roscosmos
  Progress MS-05 / 66P Roscosmos Low Earth (ISS) ISS logistics In orbit Operational
786th and final flight of Soyuz-U.


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مارس

1 March
17:50 		  Atlas V 401   Vandenberg SLC-3E   United Launch Alliance
  NROL-79 / Intruder 8 / USA-274 NRO Low Earth Reconnaissance In orbit Operational
2 March
23:53 		  Kaituozhe-2   Jiuquan   CASIC
  Tiankun-1 CASIC Low Earth (SSO) Technology In orbit Operational
Maiden flight.
7 March
01:49:24 		  Vega   Kourou ELV   Arianespace
  Sentinel-2B ESA Low Earth (SSO) Earth observation In orbit Operational
16 March
06:00 		  Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  Echostar 23 EchoStar Geosynchronous Communications In orbit Operational
Due to the satellite's heavy mass (~5,600 kg),[5] the rocket flew in its expendable configuration and the first-stage booster was not recovered.[6]
17 March
01:20:00 		  H-IIA 202   Tanegashima LA-Y1   MHI
  IGS-Radar 5 CSICE Low Earth (SSO) Reconnaissance In orbit Operational
19 March
00:18 		  Delta IV M+(5,4)   Cape Canaveral SLC-37B   United Launch Alliance
  WGS-9 / USA-275 US Air Force Geosynchronous Communications In orbit Operational
30 March
22:27 		  Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  SES-10 SES S.A. Geosynchronous Communications In orbit Operational
First flight of a Falcon 9 re-used first stage.[7][8] SpaceX recovered the stage again.

أبريل

12 April
11:04 		  Long March 3B   Xichang LC-2[2]   CASC
  Shijian 13[9] CNSA Geosynchronous Communications / Technology In orbit Operational
18 April
15:11 		  Atlas V 401   Cape Canaveral SLC-41   United Launch Alliance
  Cygnus CRS OA-7
SS John Glenn[10] 		NASA Low Earth (ISS) ISS logistics In orbit Operational
  Altair 1 Millennium Space Systems Low Earth Technology  
  IceCube GSFC Low Earth Technology / Atmospheric research  
  HARP UM Low Earth Technology / Atmospheric research  
  CSUNSat 1 CSUN Low Earth Technology  
  CXBN 2 MSU Low Earth X-ray astronomy  
  OPEN UND Low Earth Technology  
  Violet Cornell University Low Earth Technology  
 / / /  Biarri-Point Project Biarri Low Earth Technology  
 QB50 x 31 Various Low Earth Technology / Atmospheric research  
20 April
07:13:44 		  Soyuz-FG   Baikonur Site 1/5   Roscosmos
  Soyuz MS-04 / 50S Roscosmos Low Earth (ISS) Expedition 51/52 In orbit Operational
Manned flight with two cosmonauts.[11]
20 April
11:41:35 		  Long March 7   Wenchang LC-2   CASC
  Tianzhou 1 CNSA Low Earth (Tiangong 2) Tiangong 2 resupply In orbit Operational
  SilkRoad-1 (cubesat) CNSA Low Earth Earth observation  

مايو

1 May
11:15 		  Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  NROL-76 / USA-276 NRO Low Earth[12] Reconnaissance In orbit Operational
4 May
21:50 		  Ariane 5 ECA   Kourou ELA-3   Arianespace
  Koreasat-7 KT Corporation Geosynchronous Communications In orbit Operational
  SGDC-1 Telebras Geosynchronous Communications In orbit Operational
5 May
11:27 		  GSLV Mk II   Satish Dhawan SLP   ISRO
  GSAT-9 ISRO Geosynchronous Communications In orbit Operational
15/16 May
23:20–00:10[15] 		  Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  Inmarsat-5 F4 Inmarsat Geosynchronous Communications  
Due to the satellite's heavy mass (6,070 kg),[13] the rocket will fly in its expendable configuration and the first-stage booster will not be recovered.[6] This will also be the heaviest payload to be launched by a Falcon 9 rocket to GTO.[14]
18 May
11:54:53[15] 		  Soyuz ST-B / Fregat-MT[16]   Kourou ELS   Arianespace
  SES-15 SES S.A. Geosynchronous Communications  
25 May
06:33[15] 		  Soyuz-2.1b / Fregat Plesetsk   Roscosmos
  EKS-2 VKS Tundra Missile early warning    
25 May[17]   PSLV-XL   Satish Dhawan FLP   ISRO
  Cartosat-2E[18] ISRO Low Earth (SSO) Earth observation  
  CE-SAT-1 Canon Electronics Low Earth (SSO) Earth observation  
  Max Valier Sat Max Valier school, Bozen Low Earth (SSO) X-ray astronomy, technology demo  
      Blue Diamond Sky and Space Global Low Earth (SSO) Communications  
      Green Diamond Sky and Space Global Low Earth (SSO) Communications  
      Red Diamond Sky and Space Global Low Earth (SSO) Communications  
  Venta 1 Ventspils University College Low Earth (SSO) AIS ship tracking  
  PicSat Paris Observatory Low Earth (SSO) Exoplanet detection  
  Aalto-1 Aalto University Low Earth (SSO) Earth observation  
  COMPASS-2 FH Aachen Low Earth (SSO) Technology demonstration  
  InflateSail University of Surrey Low Earth (SSO) Technology demonstration  
  Lituanica SAT-2 Vilnius University Low Earth (SSO) Technology demonstration  
  NUDTSat NUDT Low Earth (SSO) Ionosphere research  
  Pegasus FH Wiener Neustadt Low Earth (SSO) Thermosphere research  
  UCLSat University College London Low Earth (SSO) Ionosphere research  
  URSA MAIOR Sapienza University Low Earth (SSO) Thermosphere research  
  VZLUSat 1 VZLU Low Earth (SSO) Thermosphere research  
May (TBD)[19]   Long March 2C   Xichang LC-3[20]   CASC
  unknown ? ? ?  

June

1 June
00:20[15][21] 		  H-IIA 202   Tanegashima LA-Y1   MHI
  QZS-2 JAXA Tundra Navigation  
1 June
21:55[15] 		  Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  SpaceX CRS-11 NASA Low Earth (ISS) ISS logistics  
  NICER[22] NASA Low Earth (ISS) X-ray astronomy  
1/2 June[23]
23:45–00:30 		  Ariane 5 ECA   Kourou ELA-3   Arianespace
  ViaSat-2 ViaSat Geosynchronous Communications  
  Eutelsat 172B Eutelsat Geosynchronous Communications  
5 June[17]   LVM3 (GSLV Mk.III)   Satish Dhawan SLP   ISRO
  GSAT-19E ISRO Geosynchronous Communications  
Maiden orbital flight.
14 June[24]
09:20[15] 		  Soyuz-2.1a   Baikonur   Roscosmos
  Progress MS-06 / 67P Roscosmos Low Earth (ISS) ISS logistics  
15 June[15]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  BulgariaSat-1 Bulsatcom Geosynchronous Communications  
Second flight of a Falcon 9 re-used first stage.[14]
28 June[15]
21:45–22:30 		  Ariane 5 ECA   Kourou ELA-3   Arianespace
  EuropaSat /
  HellasSat-3[أ] 		Inmarsat Geosynchronous Communications  
  GSAT-17[أ] ISRO Geosynchronous Communications  
29 June
20:02[15] 		  Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  Iridium NEXT 11–20 Iridium Low Earth Communications  
June (TBD)[19]   Long March 4B   Jiuquan SLS-2[25]   CASC
  HXMT CAS, Tsinghua Low Earth X-ray astronomy  
  Zhuhai-1 01/02 Tsinghua (?) Low Earth Earth observation  
June (TBD)[15]   Long March 5   Wenchang   CASC
  Shijian 18[9] CNSA Geosynchronous Communications/Technology  

July

14 July[15]
06:36 		  Soyuz-2.1a / Fregat-M   Baikonur Site 31/6   Roscosmos
  Kanopus-V-IK Roscosmos Low Earth (SSO) Earth observation  
  Zond Roscosmos Low Earth (SSO) Heliophysics  
Many cubesats Various customers Low Earth (SSO) Earth observation  
15 July
~05:00[15] 		  Minotaur IV / Orion 38   Cape Canaveral SLC-46   Orbital ATK
  ORS-5 ORS Low Earth SSA  
15 July[19]   Long March 3C / YZ-1   Xichang   CASC
  BeiDou-3 M1 CNSA Medium Earth Navigation  
  BeiDou-3 M2 CNSA Medium Earth Navigation  
22 July[27]   Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  FormoSat-5 NSPO Low Earth (SSO) Earth observation  
Formerly included co-manifested SHERPA spacecraft.[26]
25 July[15]   Vega   Kourou ELV   Arianespace
  OPTSAT-3000 Italian Defense Ministry Low Earth (SSO) IMINT  
  /   VENµS ISA / CNES Low Earth (SSO) Earth observation  
28 July[24]
15:41[15] 		  Soyuz-FG   Baikonur Site 1/5   Roscosmos
  Soyuz MS-05 / 51S Roscosmos Low Earth (ISS) Expedition 52/53  
Manned flight with three cosmonauts.
July (TBD)[15]   Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  SES-11 /
  EchoStar 105 		SES S.A. / EchoStar Geosynchronous Communications  
July (TBD)[15]   Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  Koreasat 5A KT Corporation Geosynchronous Communications  
July (TBD)[24]   Proton-M / Briz-M   Baikonur   Khrunichev
  Amazonas 5 Hispasat Geosynchronous Communications  
July 2017[29]   Zenit-3F   Baikonur Site 45/1   Roscosmos
  AngoSat 1[29] Republic of Angola Geosynchronous Communications  
Tentatively scheduled for 15 July 2017.[28] It is the first communications satellite of Angola.[24]
July (TBD) [31]   Proton-M / Briz-M   Baikonur   Khrunichev
  EchoStar 21 EchoStar Geosynchronous Communications  
Delay due to engine changes at Khrunichev.[30]

August

1 August[15]   Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  SpaceX CRS-12 NASA Low Earth (ISS) ISS logistics  
3 August[15]   Atlas V 401   Cape Canaveral SLC-41   United Launch Alliance
  TDRS-M NASA Geosynchronous Communications  
14 August[15]   Atlas V 541   Vandenberg SLC-3E   United Launch Alliance
  NROL-42 / Trumpet NRO Low Earth Reconnaissance  
16 August[19]   Long March 2D[20]   Jiuquan SLS-2   CASC
    CSES[32] CNSA / ASI Low Earth (SSO) Earth observation  
  Youth Sat[33] CNSA Low Earth (SSO) Earth observation  
24 August[27]   Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  Iridium NEXT 21-30 Iridium Low Earth Communications  
31 August[15]   Atlas V 421   Cape Canaveral SLC-41   United Launch Alliance
  NROL-52 / Quasar 21 NRO ?  
August (TBD)[15]   Pegasus-XL   Stargazer, Kwajalein Atoll   Orbital ATK
  ICON NASA Low Earth Ionosphere research  
August (TBD)[24]   Proton-M   Baikonur   Khrunichev
  Kosmos (unknown) Roscosmos ? ?  
August (TBD)[15]   Rokot / Briz-KM   Plesetsk Site 133/3   /   Eurockot
  Sentinel-5 Precursor ESA Low Earth (SSO) Earth observation  

September

12 September[15][24]   Soyuz-FG   Baikonur Site 1/5   Roscosmos
  Soyuz MS-06 / 52S Roscosmos Low Earth (ISS) Expedition 53/54  
Manned flight with three cosmonauts.[11][34]
12 September[15]   Antares 230   MARS LP-0A   Orbital ATK
  Cygnus CRS OA-8E NASA Low Earth (ISS) ISS logistics  
21 September[15]
09:47:03–09:48:06 		  Delta II 7920   Vandenberg SLC-2W   United Launch Alliance
  JPSS-1 NOAA Low Earth (SSO) Meteorology  
Last flight of the Delta II 7920 configuration
September (TBD)[17]   GSLV Mk II   Satish Dhawan SLP   ISRO
  GSAT-6A INSAT Geosynchronous Communications  
September (TBD)[19]   Long March 3C / YZ-1   Xichang   CASC
  BeiDou-3 M3 CNSA Medium Earth Navigation  
  BeiDou-3 M4 CNSA Medium Earth Navigation  
September (TBD)[15]   Minotaur-C   Vandenberg LC-576E   Orbital ATK
  SkySat x 6 Terra Bella Low Earth Earth observation  
Q3 (TBD)[35]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  Es'hail 2 Es'hailSat Geosynchronous Communications  
Q3 (TBD)[36]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  SES-16 / GovSat-1 SES S.A. Geosynchronous Communications  
Q3 (TBD)[24]   Rokot / Briz-KM   Plesetsk Site 133/3   VKO
  Gonets-M 14[37] Gonets SatCom Low Earth Communications  
  Gonets-M 15 Gonets SatCom Low Earth Communications  
  Gonets-M 16 Gonets SatCom Low Earth Communications  
  BLITS-M Roscosmos Low Earth Laser ranging  
Q3 (TBD)[24]   Soyuz-2.1b / Fregat-M   Plesetsk Site 43/4   RVSN RF
  GLONASS-M 761 VKS Medium Earth Navigation  
Q3 (TBD)[24]   Soyuz-2-1v / Volga   Plesetsk Site 43/4   RVSN RF
  Geo-IK-2 No.3 VKS Low Earth Geodesy  

October

11 October[15]   Atlas V 531   Cape Canaveral SLC-41   United Launch Alliance
  AEHF-4 US Air Force Geosynchronous Communications (military)  
12 October[15]   Soyuz-2.1a   Baikonur Site 1/5   Roscosmos
  Progress MS-07 / 68P Roscosmos Low Earth (ISS) ISS logistics  
October (TBD)[15][38]   Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  Iridium NEXT 31-40 Iridium Low Earth Communications  
October (TBD)[39]   Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  SAOCOM 1A CONAE Low Earth (SSO) Communications  
  ITASAT-1 ITA Low Earth (SSO) Communications  
October (TBD)[19]   Long March 3C / YZ-1   Xichang   CASC
  BeiDou-3 M5 CNSA Medium Earth Navigation  
  BeiDou-3 M6 CNSA Medium Earth Navigation  
October (TBD)[24]   Proton-M / Briz-M   Baikonur   Khrunichev
  AsiaSat 9 AsiaSat Geosynchronous Communications  

November

1 November[15]   Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  SpaceX CRS-13 NASA Low Earth (ISS) ISS logistics  
9 November[15]   Atlas V 401   Cape Canaveral SLC-41   United Launch Alliance
  SBIRS GEO-4 US Air Force Geosynchronous Missile warning  
November (TBD)[15]   Ariane 5 ES   Kourou ELA-3   Arianespace
  Galileo x 4 FOC 19-22 ESA Medium Earth Navigation  
November (TBD)
[بحاجة لمصدر] 		  Delta II 7420   Vandenberg SLC-2W   United Launch Alliance
  ICESat-2 NASA Low Earth Earth Observation  
Last flight of Delta II series.
November (TBD)[1][40]   Falcon 9 Full Thrust   Kennedy LC-39A   SpaceX
  SpX-DM1 SpaceX / NASA Low Earth (ISS) Flight test  
Crew Dragon Demo 1: Planned test of Dragon 2 as part of Commercial Crew Development program.
November (TBD)[19]   Long March 5   Wenchang LC-1   CASC
  Chang'e 5 CNSA Selenocentric Lunar lander  
China's first lunar sample return mission.
November (TBD)[15]   Rokot / Briz-KM   Plesetsk Site 133/3   /   Eurockot
  Sentinel-3B ESA Low Earth (SSO) Earth observation  
November (TBD)[24]   Soyuz-2.1a / Fregat-M   Baikonur Site 31/6   Roscosmos
  Kanopus-V No.3 Roscosmos Low Earth (SSO) Earth observation  
  Kanopus-V No.4 Roscosmos Low Earth (SSO) Earth observation  
November (TBD)[15]   Vega   Kourou ELV   Arianespace
  ADM-Aeolus ESA Low Earth (SSO) Earth observation  

December

16 December[41]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  Bangabandhu-1 BTRC Geosynchronous Communications  
20 December[15]   Delta IV M+(5,2)   Vandenberg SLC-6   United Launch Alliance
  NROL-47 / Topaz-5[42] US Air Force LEO (retrograde) Reconnaissance  
Last flight of Delta IV M+(5,2) variant.
27 December[15]   Soyuz-FG   Baikonur Site 1/5   Roscosmos
  Soyuz MS-07 / 53S Roscosmos Low Earth (ISS) Expedition 54/55  
Manned flight with three cosmonauts.
28 December[17]   PSLV-XL   Satish Dhawan FLP   ISRO
  HHK-1 Team Indus Selenocentric Lunar Lander  
  ECA Team Indus Selenocentric Lunar rover  
  Moonraker Hakuto Selenocentric Lunar rover  
Team Indus mothership carrying the Google Lunar X-Prize entrants for themselves and Hakuto[43]
December (TBD)[15][38]   Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  Iridium NEXT 41-50 Iridium Low Earth Communications  
December (TBD)[19]   Long March 3C / YZ-1   Xichang   CASC
  BeiDou-3 M7 CNSA Medium Earth Navigation  
  BeiDou-3 M8 CNSA Medium Earth Navigation  
December (TBD)[24]   Soyuz-2.1b / Fregat-M   Vostochny Site 1S   Roscosmos
  Meteor-M N2-1 Roscosmos Low Earth (SSO) Meteorology  
  Ionosfera 1, 2 Roscosmos Low Earth (SSO) Ionospheric and magnetospheric research  
  Baumanets 2 Bauman University Low Earth (SSO) Technology demonstration  
 Several cubesats Various customers Low Earth (SSO) Earth observation  
Q4 (TBD)[17]   GSLV Mk II   Satish Dhawan SLP   ISRO
  GSAT-7A Indian Air Force Geosynchronous Communications (military)  
Q4 (TBD)[17]   GSLV Mk II   Satish Dhawan SLP   ISRO
  NexStar 1, 2[44] Aniara Geosynchronous Communications  
Q4 (TBD)[24]   Zenit-3F   Baikonur Site 45/1   Roscosmos
  Lybid 1[45] Ukrkosmos Geosynchronous Communications  

To be determined

2017 (TBD)   Ariane 5 ECA   Kourou ELA-3   Arianespace
  Al Yah-3[أ] Yahsat Geosynchronous Communications  
2017 (TBD)   Ariane 5 ECA   Kourou ELA-3   Arianespace
  Azerspace 2 /
  Intelsat 38[أ] 		Azercosmos / Intelsat Geosynchronous Communications  
Mid 2017 (TBD)[46]   Ariane 5 ECA   Kourou ELA-3   Arianespace
  BSAT-4a[أ] BSAT Geosynchronous Communications  
2017 (TBD)   Ariane 5 ECA   Kourou ELA-3   Arianespace
  EDRS-C[47] /
  HYLAS-3[أ] 		ESA / Avanti Geosynchronous Communications  
Laser communication terminal to be positioned at 31°E.
2017 (TBD)   Ariane 5 ECA   Kourou ELA-3   Arianespace
  GSAT-11[أ] ISRO Geosynchronous Communications  
2017 (TBD)   Ariane 5 ECA   Kourou ELA-3   Arianespace
  HYLAS-4[أ] Avanti Geosynchronous Communications  
2017 (TBD)   Ariane 5 ECA   Kourou ELA-3   Arianespace
  Intelsat 37e[أ] Intelsat Geosynchronous Communications  
H2, 2017 (TBD)[36]   Ariane 5 ECA   Kourou ELA-3   Arianespace
  SES-12[أ] SES S.A. Geosynchronous Communications  
2017 (TBD)   Atlas V 501   Cape Canaveral SLC-41   United Launch Alliance
  AFSPC-7 (X-37B OTV-5)[48] US Air Force Low Earth Technology  
Late 2017 (TBD)   Epsilon   Uchinoura   JAXA
  ASNARO 2 J-spacesystems Low Earth Earth observation  
2017 (TBD)   Electron   Rocket Lab Launch Complex 1   Rocket Lab
  To be announced Rocket Lab TBA Flight test  
Summer 2017 (TBD)[15]   Falcon 9 Full Thrust[50]   Kennedy LC-39A   SpaceX
  Intelsat 35e Intelsat Geosynchronous Communications  
Due to the satellite's heavy mass (~6,000 kg),[49] the rocket will fly in its expendable configuration and the first-stage booster will not be recovered.[6]
2017 (TBD)[39]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  ABS-8 Asia Broadcast Satellite Geosynchronous Communications  
Late 2017 (TBD)[51]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  Hispasat 30W-6 Hispasat Geosynchronous Communications  
Nov-Dec (TBD)[52]   Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  Paz Hisdesat Low Earth (SSO) Earth observation  
2017 (TBD)[39]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  PSN-6 PSN Geosynchronous Communications  
H2, 2017 (TBD)[36]   Falcon 9 Full Thrust   Cape Canaveral SLC-40 or Kennedy LC-39A   SpaceX
  SES-14 SES S.A. Geosynchronous Communications  
2017 (TBD)   Falcon 9 Full Thrust   Vandenberg SLC-4E   SpaceX
  ~90 small satellites Spaceflight Industries Low Earth (SSO) Technology  
The SSO-A "dedicated rideshare" mission will deliver roughly 90 payloads with the SHERPA dispenser.[53]
Q3 (TBD)[15]   Falcon Heavy   Kennedy LC-39A   SpaceX
  TBA SpaceX TBA Flight test  
Will be formally scheduled when SLC-40 resumes operations.[27]
2017 (TBD)   Falcon Heavy   Kennedy LC-39A   SpaceX
  STP-2 US Air Force Geosynchronous Technology demonstration  
End 2017 (TBD)   LauncherOne   Cosmic Girl, Mojave   Virgin Galactic
  To be announced Virgin Galactic TBA Flight test  
Maiden orbital flight.
2017 (TBD)[54]   H-IIA   Tanegashima LA-Y1   MHI
  GCOM-C JAXA Low Earth Earth observation  
  SLATS JAXA Low Earth Atmospheric sciences and technology demonstration  
2017 (TBD)[54]   H-IIA 202   Tanegashima LA-Y1   MHI
  IGS-Optical 6 CSICE Low Earth (SSO) Reconnaissance  
2017 (TBD)[54]   H-IIA 202   Tanegashima LA-Y1   MHI
  QZS-3 JAXA Tundra Navigation  
2017 (TBD)[19]   Long March 2D   Taiyuan   CASC
  CAS-4A CNSA Low Earth Communications  
  CAS-4B CNSA Low Earth Communications  
2017 (TBD)   Long March 3A   Xichang[2]   CAST
  Fengyun 2H CMA Geosynchronous Meteorology  
2017 [24]   Proton-M / Briz-M   Baikonur   Khrunichev
  Blagovest-11L ISS Reshetnev Geosynchronous Communications  
2017 (TBD)[24]   Proton-M / DM-03   Baikonur Site 81/24   Khrunichev
  GLONASS-M 757 VKS Medium Earth Navigation  
  GLONASS-M 758 VKS Medium Earth Navigation  
  GLONASS-M 759 VKS Medium Earth Navigation  
(TBD)[24]   Soyuz-2.1b / Fregat-M   Plesetsk Site 43/4   RVSN RF
  GLONASS-M 756 VKS Medium Earth Navigation  
H2, 2017 (TBD)[17]   PSLV-XL   Satish Dhawan FLP   ISRO
  IRNSS-1H ISRO Geosynchronous Navigation  
2017 (TBD)[17]   PSLV-XL   Satish Dhawan FLP   ISRO
  IRNSS-1I ISRO Geosynchronous Navigation  

Suborbital flights

Deep space rendezvous

Date (GMT) Spacecraft Event Remarks
2 February Juno 4th perijove of Jupiter A decision was made to cancel a period reduction maneuver and remain in a 53-day orbit for the remainder of the mission over engine concerns.[59]
27 March Juno 5th perijove of Jupiter
22 April[60] Cassini 127th flyby of Titan Closest approach: 979 kilometres (608 mi).
19 May Juno 6th perijove of Jupiter
11 July Juno 7th perijove of Jupiter
1 September Juno 8th perijove of Jupiter
15 September Cassini Atmospheric entry into Saturn
23 September OSIRIS-REx Flyby of Earth Gravity Assist
24 October Juno 9th perijove of Jupiter
16 December Juno 10th perijove of Jupiter

Extra-Vehicular Activities (EVAs)

Start Date/Time Duration End Time Spacecraft Crew Remarks
6 January
12:23 		6 hours
31 minutes 		18:54 Expedition 50
ISS Quest
The crew completed the installation of new batteries on the Station's power channel 3A, and then executed a series of tasks to get ahead for the next EVA. Kimbrough collected photos of the AMS-02, then they removed a broken light on the S3 truss and routed ethernet cables on the Z1 truss.
13 January
11:22 		5 hours
58 minutes 		17:20 Expedition 50
ISS Quest
The crew completed the installation of new batteries on the Station's power channel 1A, and then exucuted a series of get ahead tasks. First they installed a new camera on the Mobile Transporter Relay Assembly, then Pesquet replaced a Worksite Interface Adapter on Canadarm-2 and collected photos of Z1 truss and S0 truss, meanwhile Kimbrough removed 2 handrails from the Destiny module. Then they picked up a bundle of covers and brought them to the Tranquillity module where will be installed when Pressurized Mating Adapter 3 will be moved from Node 3 to Node 2. When removed, the PMA's Common Berthing Mechanism will be covered up to protect it from the space environment.
24 March
11:24 		6 hours
34 minutes 		17:58 Expedition 50
ISS Quest
Kimbrough replaced the External Control Zone 2 (EXT-2) Multiplexer-Demultiplexer (MDM) with an upgraded "EPIC MDM" and prepared PMA-3 for its robotic relocation on Sunday. Pesquet inspected the Radiator Beam Valve Module for ammonia leaks, then lubricated one of the Latching End Effectors of Dextre. Kimbrough then replaced a pair of cameras on the Kibo module, and a light on one of the CETA carts.
30 March
11:29 		7 hours
4 minutes 		18:33 Expedition 50
ISS Quest
Kimbrough replaced the External Control Zone 1 (EXT-1) Multiplexer-Demultiplexer (MDM) with an upgraded "EPIC MDM" while Whitson connected heater power and heater feedback telemetry to enable PMA-3 to be repressurized, then released a series of straps to free up a cover that protected the APAS. The astronauts then installed 4 axial shields on PMA-3's former location on Tranquillity module and installed covers on PMA-3.
12 May[61] Expedition 51
ISS Quest

Orbital launch summary

By country

For the purposes of this section, the yearly tally of orbital launches by country assigns each flight to the country of origin of the rocket, not to the launch services provider or the spaceport. For example, Soyuz launches by Arianespace in Kourou are counted under Russia because Soyuz-2 is a Russian rocket.

China: 5Europe: 3India: 2Israel: 0Japan: 3North Korea: 0Russia: 3USA: 9 
Country Launches Successes Failures Partial
failures 		Remarks
  الصين 5 5 0 0
  الاتحاد الأوروپي 3 3 0 0
  الهند 2 2 0 0
  اليابان 3 2 1 0
  روسيا 3 3 0 0 Includes 1 Soyuz launch from Kourou
  الولايات المتحدة 9 9 0 0
World 25 24 1 0

By rocket

By family

Family Country Launches Successes Failures Partial failures Remarks
Ariane   الاتحاد الأوروپي 2 2 0 0
Atlas   الولايات المتحدة 3 3 0 0
Delta   الولايات المتحدة 1 1 0 0
Falcon   الولايات المتحدة 5 5 0 0
H-II   اليابان 2 2 0 0
Kaituozhe   الصين 1 1 0 0
Kuaizhou   الصين 1 1 0 0
Long March   الصين 3 3 0 0
R-7   روسيا 3 3 0 0
S-Series   اليابان 1 0 1 0
SLV   الهند 2 2 0 0
Vega   الاتحاد الأوروپي 1 1 0 0

حسب النوع

Rocket Country Family Launches Successes Failures Partial failures Remarks
Ariane 5   الاتحاد الأوروپي Ariane 2 2 0 0
Atlas V   الولايات المتحدة Atlas 3 3 0 0
Delta IV   الولايات المتحدة Delta 1 1 0 0
Falcon 9   الولايات المتحدة Falcon 5 5 0 0
GSLV   الهند SLV 1 1 0 0
Kaituozhe-2   الصين Kaituozhe 1 1 0 0 Maiden flight
Kuaizhou   الصين Kuaizhou 1 1 0 0
PSLV   الهند SLV 1 1 0 0
H-IIA   اليابان H-II 2 2 0 0
Long March 3   الصين Long March 2 2 0 0
Long March 7   الصين Long March 1 1 0 0
SS-520   اليابان S-Series 1 0 1 0
Soyuz   روسيا R-7 3 3 0 0
Vega   الاتحاد الأوروپي Vega 1 1 0 0

حسب التشكيل

حسب الميناء الفضائي

الموقع البلد الإطلاقات النجاحات الفشل فشل جزئي تعليق
Baikonur   كازاخستان 2 2 0 0
Cape Canaveral   الولايات المتحدة 3 3 0 0
Jiuquan   الصين 2 2 0 0
Kennedy   الولايات المتحدة 4 4 0 0
Kourou   فرنسا 4 4 0 0
Satish Dhawan   الهند 2 2 0 0
Tanegashima   اليابان 2 2 0 0
Uchinoura   اليابان 1 0 1 0
Vandenberg   الولايات المتحدة 2 2 0 0
Wenchang   الصين 1 1 0 0
Xichang   الصين 2 2 0 0

حسب المدار

Orbital regime Launches Achieved Not Achieved Accidentally
Achieved 		Remarks
Transatmospheric 0 0 0 0
Low Earth 14 13 1 0 including 4 to ISS, 1 to Tiangong-2
Geosynchronous/transfer 11 11 0 0
Medium Earth 0 0 0 0
High Earth 0 0 0 0 including highly elliptical Tundra orbits

الهامش

  • Krebs, Gunter. "Chronology of Space Launches".
  • Kyle, Ed. "Space Launch Report".
  • McDowell, Jonathan. "Jonathan's Space Report".
  • Pietrobon, Steven. "Steven Pietrobon's Space Archive".
  • Wade, Mark. "Encyclopedia Astronautica".
  • Webb, Brian. "Southwest Space Archive".
  • "NASASpaceFlight.com".
  • "Spaceflight Now".
  • "Space Information Center". JAXA.
  • "Space Calendar". NASA JPL.
  • "ISS Calendar". Spaceflight 101.
  • "Launch Forecast". Space.com.
  • Clark, Stephen. "Launch Schedule". Spaceflight Now.
  • "U.S. Space Objects Registry".
  • "Хроника освоения космоса" [Chronicle of space exploration]. Cosmoworld.ru (in Russian).{{cite web}}: CS1 maint: unrecognized language (link)
Generic references:

الملاحظات

  1. ^ أ ب ت ث ج ح خ د ذ ر Ariane 5 carries two satellites per mission; manifested payloads still need to be paired.
  1. ^ أ ب ت Smith, Heather (6 January 2017). "NASA awards four more commercial crew missions". Spaceflight Insider. Retrieved 8 January 2017.
  2. ^ أ ب ت Krebs, Gunter. "CZ-3 (Chang Zheng-3)". Gunter's Space Page. Retrieved 5 May 2017.
  3. ^ "SS-520 4号機実験結果について" (Press release) (in Japanese). JAXA. 2017-01-15. Retrieved 2017-01-15.{{cite press release}}: CS1 maint: unrecognized language (link)
  4. ^ SS-520 4号機実験の実施について (in Japanese). JAXA. 8 December 2016. Retrieved 22 December 2016. {{cite web}}: Invalid |script-title=: missing prefix (help)CS1 maint: unrecognized language (link)
  5. ^ Krebs, Gunter. "EchoStar 23". Gunter's Space Page. Retrieved April 16, 2017.
  6. ^ أ ب ت Krebs, Gunter. "Falcon-9 v1.2(ex) (Falcon-9FT(ex))". Gunter's Space Page. Retrieved April 16, 2017.
  7. ^ Peter B. de Selding [@pbdes] (28 October 2016). "CFO says SES-10 tentatively set for January launch on SpaceX Falcon 9" (Tweet) – via Twitter. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)
  8. ^ Masunaga, Samantha (30 August 2016). "SpaceX signs first customer for launch of a reused rocket". Los Angeles Times.
  9. ^ أ ب "China to launch advanced propulsion and laser communications satellites in 2017". Global Times. 17 February 2017. Retrieved 17 March 2017.
  10. ^ Ray, Justin (9 March 2017). "Next Cygnus commercial space freighter christened the S.S. John Glenn". Spaceflight Now.
  11. ^ أ ب Klotz, Irene (16 November 2016). "NASA, Russia Set Flights for Trimmed-Down Space Station Crew". space.com. Retrieved 21 November 2016.
  12. ^ Klotz, Irene (30 April 2017). "Secret US Spy Satellite Heading to Low-Earth Orbit, SpaceX Launch License Shows". Space.com. Retrieved 30 April 2017.
  13. ^ Krebs, Gunter. "Inmarsat-5 F1, 2, 3, 4". Gunter's Space Page. Retrieved April 16, 2017.
  14. ^ أ ب Clark, Stephen (May 5, 2017). "Bulgaria's first communications satellite to ride SpaceX's second reused rocket". Spaceflight Now. Retrieved May 5, 2017.
  15. ^ أ ب ت ث ج ح خ د ذ ر ز س ش ص ض ط ظ ع غ ف ق ك ل م ن هـ و ي أأ أب أت أث أج أح أخ أد أذ أر أز Clark, Stephen (4 May 2017). "Launch schedule". Spaceflight Now. Retrieved 4 May 2017.
  16. ^ قالب:Cite pr
  17. ^ أ ب ت ث ج ح خ د Pietrobon, Steven (10 May 2017). "Indian Launch Manifest". Retrieved 11 May 2017.
  18. ^ Rajwi, Tiki (January 5, 2017). "ISRO set to raise nation's pride with five missions". The New Indian Express. Retrieved March 20, 2017.
  19. ^ أ ب ت ث ج ح خ د ذ Pietrobon, Steven (11 May 2017). "Chinese Launch Manifest". Retrieved 11 May 2017.
  20. ^ أ ب Krebs, Gunter. "CZ-2 (Chang Zheng-2)". Gunter's Space Page. Retrieved 5 May 2017.
  21. ^ "Launch Schedule of MICHIBIKI No. 2 Aboard H-IIA Launch Vehicle No. 34". JAXA. 10 April 2017. Retrieved 10 April 2017.
  22. ^ "The Neutron star Interior Composition ExploreR Mission". NASA. Retrieved 2016-02-26. Previously scheduled for a December 2016 launch on SpaceX-12, NICER will now fly to the International Space Station with two other payloads on SpaceX Commercial Resupply Services (CRS)-11, in the Dragon vehicle's unpressurized Trunk.
  23. ^ "Arianespace announces dates for Flights VS17 and VA237; confirms its goal of 12 launches in 2017 from French Guiana". 26 April 2017. Retrieved 26 April 2017.
  24. ^ أ ب ت ث ج ح خ د ذ ر ز س ش ص ض ط Pietrobon, Steven (25 March 2017). "Russian Launch Manifest". Retrieved 28 March 2017.
  25. ^ Krebs, Gunter. "CZ-4 (Chang Zheng-4)". Gunter's Space Page. Retrieved 5 May 2017.
  26. ^ Boyle, Alan (2 March 2017). "Spaceflight rebooks 89 satellites on SpaceX's launch list". GeekWire. Retrieved 3 March 2017.
  27. ^ أ ب ت @IridiumBoss (27 April 2017). "Announced Iridium NEXT launch #2 date this morning: Thurs, June 29, 1:04pm pdt. Will start sending sats to VAFB soon. T minus 9 weeks!" (Tweet) – via Twitter. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)
  28. ^ "Россия может перенести срок запуска ангольского спутника связи "Ангосат"" [Russia may postpone the launch date of Angolan communications satellite "Angosat"]. Rambler (in الروسية). 28 March 2017. Retrieved 28 March 2017.
  29. ^ أ ب Krebs, Gunter. "AngoSat 1". Gunter's Space Page. Retrieved 1 May 2017.
  30. ^ "Центр Хруничева не поставил военным две ракеты "Протон-М" из-за отзыва двигателей" [Khrunichev Center did not supply the military with two Proton-M rockets due to engine issues] (in الروسية). RIA Novosti. March 24, 2017. Retrieved March 28, 2017.
  31. ^ "Запуск "Протона" с американским спутником могут перенести в третий раз" [The launch of the "Proton" with an American satellite can be postponed for the third time] (in الروسية).
  32. ^ "CSES Mission". CSES (China Seismo-Electromagnetic Satellite) is a scientific mission dedicated to monitoring electromagnetic field and waves, plasma and particles perturbations of the atmosphere, ionosphere and magnetosphere induced by natural sources and anthropocentric emitters; and to study their correlations with the occurrence of seismic events. The satellite mission is part of a collaboration program between the China National Space Administration (CNSA) and the Italian Space Agency (ASI), and developed by China Earthquake Administration (CEA) and Italian National Institute for Nuclear Physics (INFN), together with several Chinese and Italian Universities and research Institutes.
  33. ^ Jones, Andrew (25 April 2017). "China's first satellite developed by teenagers to launch in August".
  34. ^ Huot, Daniel (21 February 2017). "Additional Crew Flights Boost Space Station Science and Research". NASA.gov. Retrieved 27 February 2017.
  35. ^ "Satellites". Es'hailSat. Retrieved January 20, 2017.
  36. ^ أ ب ت "Upcoming launches". SES S.A. Retrieved January 18, 2017.
  37. ^ Krebs, Gunter. "Gonets-M". Gunter's Space Page. Retrieved 23 January 2017.
  38. ^ أ ب de Selding, Peter B. "Iridium subcontracts ride share aboard SpaceX Falcon 9". Space Intel Report. Retrieved 6 January 2017.
  39. ^ أ ب ت "Spaceflight 101 Launch Calendar". Spaceflight 101. 4 March 2017. Retrieved 9 March 2017.
  40. ^ "International Space Station Calendar". Spaceflight 101. 10 March 2017. Retrieved 17 March 2017.
  41. ^ Showkat Kallol, Asif; Husain, Ishtiaq (January 30, 2017). "Thales to use SpaceX's Falcon 9 to launch". Dhaka Tribune. Retrieved February 5, 2017.
  42. ^ Krebs, Gunter. "NROL launches". Gunter's Space Page. Retrieved 2016-12-08.
  43. ^ http://team-hakuto.jp/5467/?lang=en
  44. ^ Krebs, Gunter. "NexStar 1, 2". Gunter's Space Page. Retrieved 9 March 2017.
  45. ^ Krebs, Gunter. "Lybid 1". Gunter's Space Page. Retrieved 2017-03-09.
  46. ^ @arianespaceceo (19 April 2017). ".@Arianespace will orbit BSAT-4A for #Japan's Broadcasting Satellite System Corporation (B-SAT) this summer using a heavy-lift #Ariane5" (Tweet) – via Twitter. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)
  47. ^ "Arianespace selected by Airbus Defence and Space to launch EDRS-C satellite". Arianespace. 19 March 2015. Retrieved 4 October 2015.
  48. ^ Ray, Justin (7 May 2017). "X-37B spaceplane returns to Earth and makes autopilot landing in Florida". Spaceflight Now. Retrieved 7 May 2017.
  49. ^ Krebs, Gunter. "Intelsat 35e". Gunter's Space Page. Retrieved April 16, 2017.
  50. ^ Clark, Stephen (30 August 2016). "SES agrees to launch satellite on 'flight-proven' Falcon 9 rocket". Spaceflight Now. Intelsat, one of the world's largest geostationary satellite operators alongside SES, has one launch reserved on a newly-built Falcon 9 rocket in the first quarter of 2017, when the Intelsat 35e satellite will launch from Cape Canaveral.
  51. ^ "SpaceX signs new commercial launch contracts" (Press release). SpaceX. September 14, 2015. Retrieved March 9, 2017.
  52. ^ "SpaceX lanzará el satélite Paz de Hisdesat a finales de año" [SpaceX will launch the Paz satellite of Hisdesat at the end of the year]. Infoespacial.com (in الإسبانية). March 7, 2017. Retrieved March 9, 2017.
  53. ^ Sorensen, Jodi (March 21, 2017). "Spacecraft recontact simulations". Spaceflight Industries. Retrieved March 28, 2017.
  54. ^ أ ب ت Krebs, Gunter. "H-2A". Gunter's Space Page. Retrieved 23 January 2017.
  55. ^ Koehler, Keith (27 January 2017). NASA Sounding Rocket Successfully Launches into Alaskan Night. NASA. {{cite web}}: Invalid |script-title=: missing prefix (help)
  56. ^ أ ب US, Japan Successfully Conduct First SM-3 Block IIA Intercept Test. Missile Defense Agency. 4 February 2017. {{cite web}}: Invalid |script-title=: missing prefix (help)
  57. ^ Koehler, Keith (22 February 2017). One Down, 3 to Go … Sounding Rocket Flies in Alaska to Study Auroras. NASA. {{cite web}}: Invalid |script-title=: missing prefix (help)
  58. ^ أ ب ت ث Pietrobon, Steven (March 22, 2017). "United States suborbital launch manifest". Retrieved March 22, 2017.
  59. ^ https://www.nasa.gov/press-release/nasa-s-juno-mission-to-remain-in-current-orbit-at-jupiter
  60. ^ "Cassini Solstice Mission: Saturn Tour Dates: 2017". saturn.jpl.nasa.gov. Jet Propulsion Laboratory. Retrieved 2015-09-06.
  61. ^ "Thomas Pesquet 3rd Spacewalk".
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