Jump to content

Comparison of orbital launch systems

From Wikipedia, the free encyclopedia

Falcon 9 Block 5, the most prolific active orbital launch system in the world.

This comparison of orbital launch systems lists the attributes of all current and future individual rocket configurations designed to reach orbit. A first list contains rockets that are operational or have attempted an orbital flight attempt as of 2024; a second list includes all upcoming rockets. For the simple list of all conventional launcher families, see: Comparison of orbital launchers families. For the list of predominantly solid-fueled orbital launch systems, see: Comparison of solid-fueled orbital launch systems.

Spacecraft propulsion[note 1] is any method used to accelerate spacecraft and artificial satellites. Orbital launch systems are rockets and other systems capable of placing payloads into or beyond Earth orbit. All launch vehicle propulsion systems employed to date have been chemical rockets falling into one of three main categories:

  • Solid-propellant rockets or solid-fuel rockets have a motor that uses solid propellants, typically a mix of powdered fuel and oxidizer held together by a polymer binder and molded into the shape of a hollow cylinder. The cylinder is ignited from the inside and burns radially outward, with the resulting expanding gases and aerosols escaping out via the nozzle.[note 2]
  • Liquid-propellant rockets have a motor that feeds liquid propellant(s) into a combustion chamber. Most liquid engines use a bipropellant, consisting of two liquid propellants (fuel and oxidizer) which are stored and handled separately before being mixed and burned inside the combustion chamber.
  • Hybrid-propellant rockets use a combination of solid and liquid propellant, typically involving a liquid oxidizer being pumped through a hollow cylinder of solid fuel.

All current spacecraft use conventional chemical rockets (solid-fuel or liquid bipropellant) for launch, though some[note 3] have used air-breathing engines on their first stage.[note 4]

Current rockets

[edit]

Orbits legend:

Vehicle Origin Manufacturer Height Maximum payload mass
(kg)
Reusable / Expendable Orbital
launches
including
failures[a]
Launch site(s) Dates of flight
LEO GTO Other First Latest
Angara A5 / Briz-M  Russia Khrunichev 48.7 m 24,500[1] 5,200[1] 2,800 to GEO[1] Expendable 2[1] Russia Plesetsk,
Russia Vostochny
2014 2020
Angara-1.2  Russia Khrunichev 42.7 m 3,700[2] N/A 2,400 to SSO[3]
3400 to polar[2]
Expendable 3[2] Russia Plesetsk,
Russia Vostochny
2022 2024
Ariane 6 A62  Europe ArianeGroup 63 m 10,350[4]: 45  4,500[5]: 33  7,200 to SSO
7,000 to polar
3,300 to HEO
3,500 to TLI[5]: 35–37 
Expendable 1[6] France CSG 2024 2024
Atlas V 551  United States ULA 58.3 m 18,850[7] 8,900[7] 13,550 to SSO
14,520 to polar[8]
3,850 to GEO[7]
Expendable 14[8] United StatesVAFB,
United States CCSFS
2006 2024
Atlas V N22[b]  United States ULA 52.4 m 13,000[10] N/A N/A Expendable 3[11] United States Cape Canaveral 2019[12] 2024
Ceres-1 (3)[c]  China Galactic Energy 20 m 420[14] N/A 300 to SSO[14] Expendable 10[13] China JSLC 2022 2024
Ceres-1S[d]  China Galactic Energy 20 m 400[14] N/A 300 to SSO[14] Expendable 3[13] China OMSP 2023 2024
Chollima-1  North Korea NADA > 38 m > 300[15] N/A N/A Expendable 3[16] North Korea Sohae 2023 2023
Electron  United States
 New Zealand
Rocket Lab 18 m 300[17] N/A 200 to SSO[18] Partially reusable 54[19] New Zealand Mahia,
United States MARS
2017 2024
Epsilon (2)  Japan IHI 24.4 m 1,500[20] N/A N/A Expendable 1[20] Japan KSC 2016 2016
Epsilon (2) / CLPS  Japan IHI 24.4 m N/A N/A 590 to SSO[20] Expendable 4[20] Japan KSC 2018 2022
Falcon 9 Block 5  United States SpaceX 70 m 13,000 1,800 1,000 to BLT Partially reusable (launch site) 354[21][22] United StatesVandenberg,
United States Cape Canaveral,
United States Kennedy
2018 2024
~ 18,500[23] 5,500 4,500 to MEO Partially reusable (drone ship)
22,800[24] 8,300[24] 4,020 to TMI[24] Expendable
Falcon Heavy  United States SpaceX 70 m 30,000[25] 8,000[26] N/A Partially reusable[e] 11[27] United States Kennedy 2018 2024
63,800[27] 26,700[27] 16,800 to TMI[27] Expendable
Firefly Alpha  United States Firefly Aerospace 29 m 1,030[28] N/A 630 to SSO[28] Expendable 5[29] United States VAFB,
United States CCSFS
2021 2024
Gravity-1  China Orienspace 31.4 m 6,500[30] N/A 4,200 to SSO[30] Expendable 1[30] China OMSP 2024 2024
GSLV Mk II  India ISRO 49.1 m 6,000[31] 2,250[31] N/A Expendable 10[32] India SDSC 2010 2024
H-IIA 202  Japan Mitsubishi 53 m 10,000[33] 4,000[33] 5,100 to SSO[f] Expendable 34[35] Japan TNSC 2001 2024
H3-22S  Japan Mitsubishi 57 m N/A[36] 3,500 N/A Expendable 4[37] Japan TNSC 2023 2024
Hyperbola-1 (2)[g]  China i-Space 22.5 m 500[39] N/A 300 to SSO[40] Expendable 6[40] China JSLC 2021 2024
Jielong 1  China CALT 19.5 m N/A N/A 200 to SSO[41] Expendable 1[42] China JSLC 2019 2019
Jielong 3  China CALT 31.8 m N/A N/A 1,500 (500 km SSO)[43] Expendable 4[43] China OMSP 2022 2024
Kinetica 1  China CAS Space 30 m 2,000[44] N/A 1,500 (500 km SSO)[44] Expendable 5[44] China JSLC 2022 2024
Kuaizhou 1A  China ExPace 19.8 m 390[45] N/A 260 to SSO[45] Expendable 27[45] China JSLC,
China TSLC,
China XSLC
2013 2024
Kuaizhou 1A Pro  China ExPace 19.8 m 500[46] N/A 360 to SSO[46] Expendable 1[46] China JSLC,
China TSLC,
China XSLC
2024 2024
Kuaizhou 11  China ExPace 25.3 m 1,500[47] N/A 1,000 to SSO[47] Expendable 3[48] China JSLC 2020 2024
Long March 2C  China CALT 38.8 m 3,850[49] 1,250[49] 1,400 to SSO[49] Expendable 73 China JSLC,
China TSLC,
China XSLC
1982 2024
Long March 2C / YZ-1S  China CALT 38.8 m N/A N/A 2,000 to SSO[50] Expendable 8[50] China JSLC,
China XSLC
2018 2024
Long March 2D  China SAST 41.1 m 4,000[51] N/A 1,300 to SSO[52] Expendable 89[53][54] China JSLC,
China TSLC,
China XSLC
1992 2024
Long March 2D / YZ-3  China SAST 41.1 m N/A N/A 2,000 to SSO Expendable 3[55] China JSLC,
China XSLC
2018 2024
Long March 2F  China CALT 62 m 8,400[56] N/A N/A Expendable 24[57][58][59] China JSLC 1999 2024
Long March 3A  China CALT 52.5 m 6,000[60] 2,600[60] 5,000 to SSO
1,420 to TLI[60]
Expendable 27[60] China XSLC 1994 2018
Long March 3B/E  China CALT 56.3 m 11,500[61] 5,500[61] 6,900 to SSO
3,500 to TLI[61]
Expendable 84[61] China XSLC 2007 2024
Long March 3B/E / YZ-1  China CALT 56.3 m N/A N/A 2,200 to MEO Expendable 15[62] China XSLC 2015 2024
Long March 3C  China CALT 54.8 m 9,100[63] 3,800[63] 2,300 to TLI[61] Expendable 18[64][63] China XSLC 2008 2021
Long March 3C / YZ-1  China CALT 54.8 m N/A N/A N/A Expendable 2[65] China XSLC 2015 2016
Long March 4B  China SAST 44.1 m 4,200[66] 1,500[66] 2,800 to SSO[66] Expendable 52[66] China JSLC,
China TSLC
1999 2024
Long March 4C  China SAST 45.8 m 4,200[67] 1,500[67] 2,800 to SSO[67] Expendable 55[67] China JSLC,
China TSLC,
China XSLC
2006 2024
Long March 5  China CALT 56.9 m ~ 25,000[68] ~ 14,000[68] 15,000 to SSO
4,500 to GEO
8,200 to TLI
6,000 to TMI[69][70]
Expendable 7[69] China WSLS 2017 2024
Long March 5 / YZ-2  China CALT 56.9 m N/A N/A 4,500 to GEO[71] Expendable 1[71] China WSLS 2016 2016
Long March 5B  China CALT 56.9 m 23,000[72] N/A N/A Expendable 4[72] China WSLS 2020 2022
Long March 6  China SAST 29 m 1,500[73] N/A 1,080 to SSO[73] Expendable 13[73] China TSLC 2015 2024
Long March 6A  China SAST 50 m 8,000[74] N/A 4,000 to SSO[75] Expendable 8[75] China TSLC 2022 2024
Long March 6C  China CALT 43 m 4,500 N/A 2,500 to SSO[76] Expendable 1[76] China TSLC 2024 2024
Long March 7  China CALT 53.1 m 13,500[77] N/A 5,500 to SSO[78] Expendable 8[79] China WSLS 2017 2024
Long March 7 / YZ-1A  China CALT 53.1 m N/A N/A 9,500 to SSO Expendable 1[80] China WSLS 2016 2016
Long March 7A  China CALT 60.13 m N/A 7,000[78] 5,000 to TLI Expendable 8[81] China WSLS 2020 2024
Long March 8 822[82]  China CALT 50.34 m 7,600[83] 2,500[83] 4,500 to SSO[83]
1,500 to TLI
Expendable 2[83] China WSLS 2020 2024
Long March 8 820[82]  China CALT 48 m 4,500 N/A 3,000 to polar[84] Expendable 1[84] China WSLS 2022 2022
Long March 11  China CALT 20.8 m 700[85] N/A 350 to SSO[85] Expendable 12[85] China JSLC,
China XSLC
2015 2023
Long March 11H  China CALT 20.8 m 700[85] N/A 350 to SSO[85] Expendable 5[85] China OMSP 2019 2023
Long March 12  China CALT 59 m 10,000[86] N/A 6,000 to SSO[86] Expendable 1[86] China WSLS 2024 2024
LVM 3  India ISRO 43.4 m 8,000[87] 4,000[87] 3,000 to TLI Expendable 6[88] India SDSC 2017[h] 2023
Minotaur-C-XL-3210  United States Northrop Grumman 27.9 m 1,275[90] N/A 880 to SSO[90] Expendable 2[90] United StatesVAFB 2004 2017
Minotaur I  United States Northrop Grumman 19.2 m 580[91] N/A ~ 430 to SSO[91]
400 to Polar[92]
Expendable 12[i][92] United States MARS,
United States VAFB
2000 2021
Minotaur IV  United States Northrop Grumman 23.9 m 1,735[93] N/A 1,170 to Polar[93] Expendable 2[93][j] United States MARS,
United States VAFB
2010 2020
Minotaur IV / HAPS  United States Northrop Grumman 23.9 m N/A N/A N/A Expendable 1[95] United States KLC 2010 2010
Minotaur IV / Orion 38  United States Northrop Grumman 23.9 m N/A N/A N/A Expendable 1[96] United States CCSFS 2017 2017
Minotaur

IV+

 United States Northrop Grumman 23.9 m 1,950[97] N/A 1,430 to Polar[97] Expendable 1[97] United States KLC 2011 2011
Minotaur V  United States Northrop Grumman 24.6 m N/A 678[98] 465 to HCO[98] Expendable 1[98] United States MARS 2013 2013
Nuri (KSLV-II)  South Korea KARI 47.2 m 3,300[99] N/A 1,900 to SSO[99] Expendable 3[100] South Korea Naro 2021 2023
Pegasus XL  United States Northrop Grumman 16.9 m 475[101] 125[101] ~ 325 to SSO[102]
365 to Polar[101]
Expendable 29[101] United States CCSFS,
United States VAFB,
United States MARS,
Spain Gando,
Marshall Islands Kwajalein Atoll
1994 2021
Pegasus XL / HAPS  United States Northrop Grumman 16.9 m 500[103] N/A N/A Expendable 6[103] United States VAFB,
United States MARS
1997 2005
Proton-M  Russia Khrunichev 57.2 m 23,700[104] N/A N/A Expendable 1[105] Kazakhstan Baikonur 2021 2021
Proton-M / Briz-M  Russia Khrunichev 58.2 m N/A 6,300[106] 3,300 to GEO[106] Expendable 101[106] Kazakhstan Baikonur 2001 2023
Proton-M / Blok DM-03  Russia Khrunichev 57.2 m N/A 6,000[104] 3,200 to GEO[107] Expendable 7[108] Kazakhstan Baikonur 2010 2023
PSLV-CA  India ISRO 44.4 m 2,100[109] N/A 1,100 to SSO[109] Expendable 17[110][109] India SDSC 2007 2023
PSLV-DL  India ISRO 44.4 m N/A N/A 1,257 to SSO[111] Expendable 4[112] India SDSC 2019 2024
PSLV-QL  India ISRO 44.4 m N/A N/A 1,523 to SSO[111] Expendable 2[113] India SDSC 2019 2019
PSLV-XL  India ISRO 44.4 m 3,800[114] 1,300[114] 1,750 to SSO[114]
550 to TMI[115]
Expendable 25[114] India SDSC 2008 2023
Qaem 100  Iran IRGC 15.5 m 80[116] N/A N/A Expendable 3[116][k] Iran Shahrud 2023 2024
Qased  Iran IRGC 18.8 m 40[117] N/A N/A Expendable 3[117] Iran Shahrud 2020 2023
Shavit-2  Israel IAI 22.1 m 380 in Retrograde[118] N/A N/A Expendable 6[119] Israel Palmachim 2007 2023
Simorgh  Iran Iranian Space Agency 26 m 350[120] N/A N/A Expendable 7[121][120][l] Iran Semnan 2017 2024
Soyuz-2.1a  Russia TsSKB-Progress 51.4 m 7,020 from Baikonur
6,830 from Plesetsk
7,150 from Vostochny[122]
N/A N/A Expendable 50[123][m] Kazakhstan Baikonur,
Russia Plesetsk
2013 2024
Soyuz-2.1a / Fregat  Russia TsSKB-Progress 46.9 m N/A N/A 4,450 to SSO[124] Expendable 22[124] Kazakhstan Baikonur,
Russia Vostochny
2006 2023
Soyuz-2.1a / Volga  Russia TsSKB-Progress 46.9 m N/A N/A N/A Expendable 1[125] Kazakhstan Baikonur,
Russia Plesetsk,
Russia Vostochny
2016 2016
Soyuz-2.1b  Russia TsSKB-Progress 44.1 m 8,200 from Baikonur
7,850 from Plesetsk
8,320 from Vostochny[122]
N/A N/A Expendable 17[126] Kazakhstan Baikonur,
Russia Plesetsk
2008 2024
Soyuz-2.1b / Fregat  Russia TsSKB-Progress 46.7 m 5,500[127] 3,060[127] 4,900 to SSO
1,200 to HCO[127]
Expendable 55[127] Kazakhstan Baikonur,
Russia Plesetsk,
Russia Vostochny
2006 2024
Soyuz-2.1v  Russia TsSKB-Progress 44.1 m 2,800[128] N/A 2,630 to polar[128] Expendable 5[128] Russia Plesetsk 2018 2024
Soyuz-2.1v / Volga  Russia TsSKB-Progress 44.1 m N/A N/A 1,400 to SSO[129] Expendable 7[129] Russia Plesetsk 2013 2022
SLS Block 1  United States NASA Boeing
Northrop Grumman
98 m 95,000[130] N/A 27,000+ to TLI[130] Expendable 1[131] United States KSC 2022 2022
SSLV  India ISRO 34 m 500[132] N/A 300 to SSO[133] Expendable 3[133] India SDSC 2022 2024
Tianlong-2  China Space Pioneer 32.8 m 2,000[134] N/A 1,500 to SSO[134] Expendable 1[134] China JSLC 2023 2023
Vega-C  EuropeItaly Italy ArianeGroupAvio 36.2 m 3,300[135] N/A 2,300 to SSO2,500
to polar[135]
Expendable 3[136] France CSG 2022 2024[137]
Zhuque-2E  China LandSpace 49.5 m 6,000[138] N/A 4,000 to SSO[138] Expendable 1[138] China JSLC 2024 2024
  1. ^ Suborbital flight tests and on-pad explosions are excluded, but launches failing en route to orbit are included.
  2. ^ for Starliner[9]
  3. ^ Despite not being officially acknowledged by the manufacturer, significant changes between different iterations of the rocket lead to the identification of different variants.[13]
  4. ^ Sea-launched version of the third unofficial iteration of the Ceres-1 launch vehicle.
  5. ^ Either 2 or 3 boosters recoverable.
  6. ^ 5,100 kg to a 500-km Sun-synchronous orbit; 3,300 kg to 800 km[34]: 64–65 
  7. ^ Despite not being officially acknowledged by the manufacturer, significant changes between different iterations of the rocket lead to the identification of different variants.[38]
  8. ^ A suborbital test flight was conducted in 2014 (designated LVM-3/CARE) without the cryogenic upper stage (CUS).[89]
  9. ^ A suborbital mission was conducted in 2024.
  10. ^ Additionally, two suborbital missions were conducted in 2010 and 2011.[94]
  11. ^ A suborbital test flight succeeded in 2022.
  12. ^ A suborbital test flight succeeded in 2016.[120]
  13. ^ Suborbital test flight in 2004, without Fregat upper stage.[123]

Rockets in flight testing

[edit]
Vehicle Origin Manufacturer Height Maximum payload mass
(kg)
Reusable / Expendable Orbital
launches
including
failures[a]
Suborbital test flights Launch site(s) Dates of flight
LEO GTO Other First Latest
Starship Block 1[139]  United States SpaceX 121 m 40,00050,000[140] N/A N/A Reusable 0 6 United States Starbase 2023 2024
Angara A5 / Orion  Russia Khrunichev 54.9 m N/A 6,500[141] 3,700 to GEO[141] Expendable 1[141] Russia Plesetsk,
Russia Vostochny
2024 2024
Angara A5 / Persei  Russia Khrunichev 54.9 m N/A 6,500[141] 3,700 to GEO[141] Expendable 1[141] Russia Plesetsk,
Russia Vostochny
2021 2021
GYUB TV2 South Korea South Korea MND 19.5 m 100[142] N/A N/A Expendable 1[142] South Korea Jeju sea launch platform 2023 2023
KAIROS  Japan Space One 18 m 250[143] N/A 150 to SSO[143] Expendable 1[144] Japan Spaceport Kii 2024 2024
New-type satellite carrier rocket[145]  North Korea
 Russia
NADA

Khrunichev

N/A N/A N/A N/A Expendable 1[146][145] North Korea Sohae 2024 2024
Vulcan Centaur VC2  United States ULA 61.6 m 19,000[147] 8,400[147] 15,200 to polar 3,900 to MEO 2,600 to GEO 6,300 to TLI[147] Expendable 2[148] United States CCSFS 2024 2024

Upcoming rockets

[edit]

Upcoming launch vehicles

Vehicle Origin Manufacturer Height Payload mass to ... (kg) Reusable / Expendable Launch Site (s) Date of first flight
LEO GTO Other
Agnibaan  India AgniKul Cosmos 18 m 150 N/A 90 to SSO Expendable India SDSC 2025
Angara A5 / KVTK  Russia Khrunichev N/A N/A 7,500 N/A Expendable Russia Plesetsk,
Russia Vostochny
2028
Angara A5M  Russia Khrunichev N/A 26,800 4,100-5,200 N/A Expendable Russia Plesetsk,
Russia Vostochny
2027
Angara A5P  Russia Khrunichev N/A 18,800 N/A N/A Expendable Russia Vostochny 2028
Angara A5V  Russia Khrunichev N/A 37,500[149] N/A N/A Expendable Russia Vostochny 2028
Antares 330  United States Northrop Grumman

Firefly Aerospace[b]

47 m 10,800[150] N/A N/A Expendable United States MARS 2025[151]
Ariane 6 A64  Europe ArianeGroup 63 m 21,650[4]: 46  11,500+ [4]: 33  14,900 to SSO
5,000 to GEO
8,400 to HEO
8,500 to TLI [4]: 40–49 
Expendable France CSG 2024[152]
Aurora Canada Canada Reaction Dynamics 18 m 200 N/A TBA Expendable Canada Nova Scotia 2025
Aventura 1 Argentina Argentina TLON Space 10 m 25 N/A N/A N/A Uruguay Launch platform 2025
Blue Whale 1  South Korea Perigee Aerospace 21 m 165[153] N/A 185 to SSO Partially reusable South Korea CETACEA 1 sea launch platform[154]Sweden Esrange 2024[155]
195[153] 220 to SSO Expendable
Cosmos  Russia SR space 18.5 m 390 N/A 310 to SSO N/A Russia Vostochny,
Russia Yasny
TBA
Cyclone-4M  Ukraine Yuzhnoye
Yuzhmash
38.7 m 5,000[156] 1,000[157] 3,350 to SSO[156] Expendable Canada Nova Scotia 2025[158]
Dauntless  United States Vaya Space 35 m 1,100[159] N/A 600 to SSO Expendable United States CCSFS,
United States The Spaceport Company Launch Platform
2026[159]
Daytona I  United States Phantom Space 18 m 180 N/A 53 to SSO Expendable United States VSFB,
United States CCSFS,
Australia ASC
2025[160]
Epsilon S Japan Japan JAXA 27.2 m 1,400 N/A 600 to SSO Expendable Japan KSC 2025[161]
Eris Block 1  Australia Gilmour Space Technologies 25 m 305[162] N/A N/A Expendable Australia Bowen 2024[163]
Gravity-2  China Orienspace 60 m 8,60016,000 5,800 10,900 to SSO Partially reusable China WSLS 2025[164]
Hanbit-Nano South Korea South Korea Innospace 17 m[165] 150 N/A 90 Expendable Brazil CEA,
Norway Andøya,
Australia ASC
2025[166]
Hyperbola-3  China i-Space 69 m 8,500 N/A N/A Partially reusable China JSLC 2025[167]
13,400 Expendable
H3-22L  Japan Mitsubishi 63 m N/A[36] N/A N/A Expendable Japan TNSC TBA
H3-24L  Japan Mitsubishi 63 m N/A N/A 6,500 to TLI Expendable Japan TNSC 2024[168]
H3-30S  Japan Mitsubishi 57 m N/A[36] N/A 4,000 to SSO Expendable Japan TNSC TBA
Jielong 4  China CALT N/A N/A N/A N/A Expendable N/A TBA
KSLV-III South Korea South Korea KARI 54 m 10,000 3,500 7,000 to SSO

1,800 to TLI

Expendable South Korea Naro 2030
Long March 8A  China CALT 50.3 m N/A N/A 6,800 to SSO Expendable China WSLS TBA
Long March 9  China CALT 114 m 80,000–150,000[169] 66,000 53,000 to TLI[169]
40,000 to TMI[170]
Partially/fully reusable China WSLS 2033[171]
Long March 10  China CALT 89[c]–93.2 m[d] 70,000 N/A 27,000 to TLI Expendable China WSLS TBA
Long March 10A  China CALT 67 m 14,000 N/A N/A Partially reusable China WSLS TBA
18,000 Expendable
Maia France France MaiaSpace 50 m N/A N/A N/A Partially reusable France CSG 2025[172]
Miura 5  Spain PLD Space 35.7 m 840 N/A 540 to SSO Partially reusable France CSG 2026[173]
MLV  United States Firefly Aerospace 55.7 m 16,300 3,200 2,300 to TLI[174] Expendable United States CCSFS,
United States MARS,
United States VSFB
2026[175]
Nebula-1  China Deep Blue Aerospace N/A 1,000 N/A N/A Partially reusable China WSLS 2024[176]
Nebula-2  China Deep Blue Aerospace TBA 20,000 N/A N/A Partially reusable China WSLS 2025[176]
Neutron  United States
 New Zealand
Rocket Lab 42.8 m 8,000[e]–13,000 N/A N/A Partially reusable United States MARS 2025[177]
15,000 Expendable
New Glenn  United States Blue Origin 98 m 45,000[178] 13,000 N/A Partially reusable United States CCSFS

United States VSFB

2024[179]
NGLV LEO  India ISRO 88 m 7,700[f] N/A N/A Partially reusable India SDSC TBA
9,900 Partially reusable
16,900 Expendable
NGLV GEO  India ISRO 92 m N/A 5,200 N/A Partially reusable India SDSC TBA
25,000 8,900 Expendable
Nova  United States Stoke Space 28.5 m 1,500 N/A N/A Fully reusable United States CCSFS TBA
OB-1 Mk1 France France HyPrSpace 11 m 200 N/A N/A Expendable France CSG 2026[180]
Pallas-1  China Galactic Energy 42 m 5,000 N/A 3,000 to SSO Partially reusable China WSLS / TSLC 2024[181]
Prime  United Kingdom Orbex 19 m 180 N/A 100 to SSO[g][182] Expendable United Kingdom Sutherland 2025[183]
RFA One  Germany RFA 30 m 1,600[184] 450[184] 1,300 to SSO Expendable United Kingdom SaxaVord,
Norway Andøya,
France CSG,
Australia Whalers Way
2025[185]
Rokot-M  Russia Khrunichev N/A 1,950 N/A N/A Expendable Russia Plesetsk 2024[186]
ŞİMŞEK-1 Turkey Turkey Roketsan N/A 400 N/A N/A Expendable Turkey İğneada 2027
Siraya Taiwan Taiwan TASA 25 m 200 N/A N/A Expendable N/A TBA
Sirius 1 France France Sirius Space 24.7 m N/A N/A 175 to SSO Expendable N/A 2025
Skyrora XL  United Kingdom Skyrora 22.7 m 315 N/A 315 to SSO[187] Expendable United Kingdom SaxaVord,
Canada Nova Scotia
2025[188]
GYUB[189] South Korea South Korea MND 26.8 m 500[190] N/A N/A Expendable South Korea Jeju sea launch platform N/A
SLS Block 1B[h]  United States NASA / Boeing
Northrop Grumman
111 m 105,000[191] N/A 37,000 to TLI[192] Expendable United States KSC 2028
SLS Block 2[i]  United States NASA / Boeing
Northrop Grumman
111 m 130,000[193] N/A 45,000 to HCO[192] Expendable United States KSC 2033
SL1  Germany HyImpulse 30 m 500 N/A N/A Expendable United Kingdom SaxaVord,
France CSG,
Australia Whalers Way
2025
Soyuz-5 (Irtysh)  Russia TsSKB-Progress
RSC Energia
61.87 m 18,000[194] N/A 2,500 to GEO Expendable Kazakhstan Baikonur 2025[195]
Soyuz-7 (Amur)  Russia JSC SRC Progress 55 m 10,500[196] 2,600 4,700 to SSO Partially reusable Russia Vostochny 2028
13,600[196] Expendable
Spectrum  Germany Isar Aerospace 28 m 1,000[197] N/A 700 to SSO[197] Expendable France CSG,
Norway Andøya
2025[198]
Starship Block 2[139]  United States SpaceX 124.4 m[140] 100,000[140] N/A N/A Fully reusable[140][199] United States Starbase 2025
Starship Block 3[140]  United States SpaceX 150 m[140] 200,000[140] N/A N/A Fully reusable[140][199] United States Starbase TBA
Terran R  United States Relativity Space 82 m 23,500 5,500[200] N/A Partially reusable United States CCSFS 2026[200]
33,500 Expendable
Tianlong-3  China Space Pioneer 71 m 17,000 N/A 14,000 to SSO Partially reusable China JSLC,
China WSLS
2024[176]
Tronador II-250 Argentina Argentina CONAE 27 m 500 N/A N/A Expendable Argentina BNPB 2030
Vega-E  Europe ESA ASI 36.2 m 3,000[201] N/A N/A Expendable France CSG 2026
Vikram 1[202]  India Skyroot Aerospace[203] 20 m 315 to 45º inclination 500 km LEO N/A 200 to 500 km SSPO Expendable India SDSC 2024[204]
Vikram 2[202]  India Skyroot Aerospace N/A 520 to 45º inclination 500 km LEO N/A 410 to 500 km SSPO Expendable India SDSC TBA
Vikram 3[202]  India Skyroot Aerospace N/A 720 to 45º inclination 500 km LEO N/A 580 to 500 km SSPO Expendable India SDSC TBA
Volans V500 Singapore Singapore Equatorial Space Systems N/A 150 N/A N/A Expendable N/A 2026
Vulcan Centaur VC0  United States ULA 61.6 m 10,800 3,500 2,300 to TLI Expendable United States VSFB,
United States CCSFS
TBA
Vulcan Centaur VC4  United States ULA 61.6 m 24,600 11,700 4,900 to GEO
9,200 to TLI
Expendable United States VSFB,
United States CCSFS
2024[205]
Vulcan Centaur VC6  United States ULA 61.6 m 27,200[206] 14,400[206] 6,500 to GEO
11,500 to TLI
Expendable United States VSFB,
United States CCSFS
2025
Zephyr France France Latitude 19 m 100 N/A 80 to SSO Expendable United Kingdom SaxaVord 2025
Zero  Japan Interstellar Technologies 32 m 800 N/A 250 to SSO Expendable Japan Taiki 2025
Zhuque-3  China LandSpace 76.6 m 12,500 (RTLS)[176] N/A N/A Partially reusable China JSLC,
China WSLS
2025[176]
18,300 (barge)[176] Partially reusable
21,000[207] Expendable
Zuljanah  Iran Iranian Space Agency 25.5 m 220[208] N/A N/A Expendable Iran Semnan TBA
  1. ^ Suborbital flight tests and on-pad explosions are excluded, but launches failing en route to orbit are included.
  2. ^ provides the first stage, including engines
  3. ^ Height for uncrewed version
  4. ^ Height for crewed version
  5. ^ When first stage returned to launch site
  6. ^ When first stage returned to launch site
  7. ^ Reference altitude 500 km
  8. ^ with EUS
  9. ^ with EUS and
    advanced boosters

Retired rockets

[edit]

Launch systems by country

[edit]

The following chart shows the number of launch systems developed in each country, and broken down by operational status. Rocket variants are not distinguished; i.e., the Atlas V series is only counted once for all its configurations 401–431, 501–551, 552, and N22.

10
20
30
40
50
AUS
BRZ
CHN
EUR
ESP
FRA
IND
IRN
ISR
JPN
NKR
NZL
RUS
SKR
TWN
UKR
UK
USA
  •   Operational
  •   In development
  •   Retired

See also

[edit]

Notes

[edit]
  1. ^ There are many different methods. Each mestylethod has drawbacks and advantages, and spacecraft propulsion is an active area of research. However, most spacecraft today are propelled by forcing a gas from the back/rear of the vehicle at very high speed through a supersonic de Laval nozzle. This sort of engine is called a rocket engine.
  2. ^ The first medieval rockets were solid-fuel rockets powered by gunpowder; they were used by the Chinese, Indians, Mongols and Arabs, in warfare as early as the 13th century.
  3. ^ Such as the Pegasus rocket and SpaceShipOne.
  4. ^ Most satellites have simple reliable chemical thrusters (often monopropellant rockets) or resistojet rockets for orbital station-keeping and some use momentum wheels for attitude control. Soviet bloc satellites have used electric propulsion for decades, and newer Western geo-orbiting spacecraft are starting to use them for north–south stationkeeping and orbit raising. Interplanetary vehicles mostly use chemical rockets as well, although a few have used ion thrusters and Hall effect thrusters (two different types of electric propulsion) to great success.

References

[edit]
  1. ^ a b c d Krebs, Gunter. "Angara-A5 Briz-M". Gunter's Space Page. Retrieved 30 November 2024.
  2. ^ a b c Krebs, Gunter. "Angara-1.2". Gunter's Space Page. Retrieved 20 July 2024.
  3. ^ "Angara-1 to inaugurate new rocket family". russianspaceweb.com. Retrieved 2023-11-20.
  4. ^ a b c d Lagier, Roland (March 2018). "Ariane 6 User's Manual Issue 1 Revision 0" (PDF). Arianespace. Archived from the original (PDF) on 11 November 2020. Retrieved 27 May 2018.
  5. ^ a b Lagier, Roland (March 2018). "Ariane 6 User's Manual Issue 2 Revision 0" (PDF). Arianespace. Retrieved 20 July 2024.
  6. ^ Krebs, Gunter. "Ariane-6". Gunter's Space Page. Retrieved 20 July 2024.
  7. ^ a b c "Atlas V". ULA. Retrieved 2023-11-20.
  8. ^ a b "Atlas-5(551) (Atlas-V(551))". Gunter's Space Page. Retrieved 2023-11-20.
  9. ^ Egan, Barbara [@barbegan13] (15 October 2016). "@torybruno @ulalaunch @baserunner0723 We are calling the config N22. No payload fairing with the Starliner on board" (Tweet). Archived from the original on 5 December 2022. Retrieved 20 March 2023 – via Twitter.
  10. ^ Percival, Claire (2022-05-29). "OFT-2 CST-100 Starliner (Uncrewed) | Atlas V N22". Everyday Astronaut. Retrieved 2023-11-20.
  11. ^ Krebs, Gunter. "Atlas-5(422 / N22) (Atlas-V(422 / N22))". Gunter's Space Page. Retrieved 30 November 2024.
  12. ^ Roulette, Joey (22 December 2019). "'Bull's-eye' landing in New Mexico for Boeing's Starliner astronaut capsule". Reuters. Retrieved 22 December 2019.
  13. ^ a b c Krebs, Gunter. "Ceres-1 (Gushenxing-1, GX-1)". Gunter's Space Page. Retrieved 27 August 2023.
  14. ^ a b c d "Ceres-1". galactic-energy.cn. Retrieved 2023-11-23.
  15. ^ Kim, Jeongmin (1 June 2023). "North Korea rushed satellite launch after seeing ROK rocket success, Seoul says". NK News. Retrieved 2 June 2023.
  16. ^ "Chollima-1". Gunter's Space Page. Retrieved 2023-11-23.
  17. ^ "Electron". Rocket Lab. Retrieved 2023-11-23.
  18. ^ "Rocket Lab Increases Electron Payload Capacity, Enabling Interplanetary Missions and Reusability". Rocket Lab. Retrieved 23 July 2024.
  19. ^ "Completed Missions". Rocket Lab. Retrieved 2022-03-09.
  20. ^ a b c d Krebs, Gunter. "Epsilon". Gunter's Space Page. Retrieved 18 January 2019.
  21. ^ Krebs, Gunter. "Falcon-9 v1.2 (Block 5) (Falcon-9FT (Block 5))". Gunter's Space Page. Retrieved 30 November 2024.
  22. ^ Krebs, Gunter. "Falcon-9 v1.2 (Block 5)(ex) (Falcon-9FT (Block 5)(ex))". Gunter's Space Page. Retrieved 30 November 2024.
  23. ^ Sesnic, Trevor (25 February 2024). "Starlink Group 6-39 | Falcon 9 Block 5". Everyday Astronaut. Retrieved 30 November 2024.
  24. ^ a b c "SpaceX - Falcon 9". SpaceX. Retrieved 23 July 2024.
  25. ^ Musk, Elon. Making Life Multiplanetary. SpaceX. Event occurs at 15:35. Archived from the original on 2021-12-12. Retrieved 22 March 2018 – via YouTube. BFR in fully reusable configuration, without any orbital refueling, we expect to have a payload capability of 150 tonnes to low Earth orbit and that compares to about 30 for Falcon Heavy
  26. ^ Krebs, Gunter. "Falcon-Heavy (Block 5)". Gunter's Space Page. Retrieved 23 July 2024.
  27. ^ a b c d "SpaceX - Falcon Heavy". SpaceX. Retrieved 24 July 2024.
  28. ^ a b "Alpha Launch Vehicle". Firefly Aerospace. Retrieved 2023-11-26.
  29. ^ "Missions Archive". Firefly Aerospace. Retrieved 2023-11-26.
  30. ^ a b c Krebs, Gunter. "Yinli-1 (Gravity-1, YL-1)". Gunter's Space Page. Retrieved 11 January 2024.
  31. ^ a b "Indian Space Research Organisation - Geosynchronous Satellite Launch Vehicle Mark II". isro.gov.in. Retrieved 2023-11-26.
  32. ^ Krebs, Gunter. "GSLV". Gunter's Space Page. Retrieved 19 December 2018.
  33. ^ a b "H-IIA Launch Vehicle" (PDF). JAXA. Retrieved 29 July 2024.
  34. ^ "H-IIA – User's Manual" (PDF). 4.0. Mitsubishi Heavy Industries, MHI Launch Services. February 2015. YET04001. Retrieved 4 September 2018.
  35. ^ Krebs, Gunter. "H-2A-202". Gunter's Space Page. Retrieved 29 July 2024.
  36. ^ a b c Only the X00 version of the H3 is intended for LEO launches.[failed verification] The higher capability X02 and X03 variants could presumably launch significantly more payload to LEO, but are not specified for this mission. Space Launch Report: H3 Data Sheet[usurped],[dead link] retrieved 20 Feb. 2019/
  37. ^ Krebs, Gunter. "H-3-22". Gunter's Space Page. Retrieved 29 July 2024.
  38. ^ Krebs, Gunter. "Shuang Quxian-1 (SQX-1, Hyperbola-1)". Gunter's Space Page. Retrieved 28 August 2023.
  39. ^ "Hyperbola-1 User Manual" (PDF). i-space. Retrieved 29 July 2024.
  40. ^ a b "Shuang Quxian-1 (SQX-1, Hyperbola-1)". Gunter's Space Page. Retrieved 2023-11-27.
  41. ^ "China's Jielong 1 smallsat launcher successful on first flight – Spaceflight Now". Retrieved 2023-11-27.
  42. ^ Krebs, Gunter. "Jielong-1 (Smart Dragon-1, SD 1)". Gunter's Space Page. Retrieved 2 November 2019.
  43. ^ a b Krebs, Gunter. "Jielong-3 (Smart Dragon-3, SD-3)". Gunter's Space Page. Retrieved 30 November 2024.
  44. ^ a b c Krebs, Gunter. "Lijian-1 (Kinetica-1, Zhongke-1, ZK-1)". Gunter's Space Page. Retrieved 29 July 2024.
  45. ^ a b c Krebs, Gunter. "Kuaizhou-1A (KZ-1A)". Gunter's Space Page. Retrieved 30 November 2024.
  46. ^ a b c Krebs, Gunter. "Kuaizhou-1A-Pro (KZ-1A-Pro)". Gunter's Space Page. Retrieved 10 December 2024.
  47. ^ a b Andrew Jones (2022-12-07). "Private Chinese rocket reaches orbit 2 years after test-flight failure (video)". Space.com. Retrieved 2023-11-27.
  48. ^ Krebs, Gunter. "Kuaizhou-11 (KZ-11)". Gunter's Space Page. Retrieved 29 July 2024.
  49. ^ a b c "LM-2C – Launch Vehicle – CGWIC". cgwic.com. Archived from the original on 2015-08-13. Retrieved 2023-12-04.
  50. ^ a b Krebs, Gunter. "CZ-2C (3) YZ-1S (Chang Zheng-2C (3) YZ-1S)". Gunter's Space Page. Retrieved 11 August 2024.
  51. ^ "长征二号丁 _中国航天科技集团". spacechina.com. Retrieved 2024-05-07.
  52. ^ "LM-2D – Launch Vehicle – CGWIC". cgwic.com. Archived from the original on 2017-07-21. Retrieved 2023-12-04.
  53. ^ Krebs, Gunter. "CZ-2D (Chang Zheng-2D)". Gunter's Space Page. Retrieved 11 August 2024.
  54. ^ Krebs, Gunter. "CZ-2D (2) (Chang Zheng-2D (2))". Gunter's Space Page. Retrieved 11 August 2024.
  55. ^ Krebs, Gunter. "CZ-2D (2) YZ-3 (Chang Zheng-2D (2) YZ-3)". Gunter's Space Page. Retrieved 11 August 2024.
  56. ^ "China_Orbital_Launch_Activity_2020.pdf" (PDF). docs.google.com. Retrieved 2023-12-04.
  57. ^ Krebs, Gunter. "CZ-2F (Chang Zheng-2F)". Gunter's Space Page. Retrieved 11 August 2024.
  58. ^ Krebs, Gunter. "CZ-2F/G (Chang Zheng-2F/G)". Gunter's Space Page. Retrieved 11 August 2024.
  59. ^ Krebs, Gunter. "CZ-2F/T (Chang Zheng-2F/T)". Gunter's Space Page. Retrieved 11 August 2024.
  60. ^ a b c d Krebs, Gunter. "CZ-3A (Chang Zheng-3A)". Gunter's Space Page. Retrieved 11 August 2024.
  61. ^ a b c d e Krebs, Gunter. "CZ-3 (Chang Zheng-3)". Gunter's Space Page. Retrieved 11 August 2024.
  62. ^ Krebs, Gunter. "CZ-3B/G3Z (Chang Zheng-3B/G3Z)". Gunter's Space Page. Retrieved 11 August 2024.
  63. ^ a b c Krebs, Gunter. "CZ-3C/G2 (Chang Zheng-3C/G2)". Gunter's Space Page. Retrieved 11 August 2024.
  64. ^ Krebs, Gunter. "CZ-3C (Chang Zheng-3C)". Gunter's Space Page. Retrieved 11 August 2024.
  65. ^ Krebs, Gunter. "CZ-3C/G3Z (Chang Zheng-3C/G3Z)". Gunter's Space Page. Retrieved 11 August 2024.
  66. ^ a b c d Krebs, Gunter. "CZ-4B (Chang Zheng-4B)". Gunter's Space Page. Retrieved 11 August 2024.
  67. ^ a b c d Krebs, Gunter. "CZ-4C (Chang Zheng-4C)". Gunter's Space Page. Retrieved 16 August 2018.
  68. ^ a b "LM-5 – Launch Vehicle – CGWIC". cgwic.com. Retrieved 11 August 2024.
  69. ^ a b Krebs, Gunter. "CZ-5 (Chang Zheng-5)". Gunter's Space Page. Retrieved 11 August 2024.
  70. ^ Jones, Andrew (17 July 2020). "Long March 5 rolled out for July 23 launch of China's Tianwen-1 Mars mission". SpaceNews. Retrieved 11 August 2024.
  71. ^ a b Krebs, Gunter. "CZ-5/YZ2 (Chang Zheng-5/YZ2)". Gunter's Space Page. Retrieved 11 August 2024.
  72. ^ a b Krebs, Gunter. "CZ-5B (Chang Zheng-5B)". Gunter's Space Page. Retrieved 11 August 2024.
  73. ^ a b c Krebs, Gunter. "CZ-6 (Chang Zheng-6)". Gunter's Space Page. Retrieved 11 August 2024.
  74. ^ "Long March 6A". Retrieved 7 May 2024.
  75. ^ a b Krebs, Gunter. "CZ-6A (Chang Zheng-6A)". Gunter's Space Page. Retrieved 11 August 2024.
  76. ^ a b Krebs, Gunter. "CZ-6 (Chang Zheng-6)". Gunter's Space Page. Retrieved 30 November 2024.
  77. ^ "LM-7 – Launch Vehicle – CGWIC". cgwic.com. Retrieved 11 August 2024.
  78. ^ a b Volosín, Juan I. Morales (15 January 2024). "Tianzhou-7 | Long March 7". Everyday Astronaut. Retrieved 11 August 2024.
  79. ^ Krebs, Gunter. "CZ-7 (Chang Zheng-7)". Gunter's Space Page. Retrieved 11 August 2024.
  80. ^ Krebs, Gunter. "CZ-7/YZ1A (Chang Zheng-7/YZ1A)". Gunter's Space Page. Retrieved 11 August 2024.
  81. ^ Krebs, Gunter. "CZ-7A (Chang Zheng-7A)". Gunter's Space Page. Retrieved 11 August 2024.
  82. ^ a b "Long March 8". sat.huijiwiki.com. Retrieved 25 March 2024.
  83. ^ a b c d Krebs, Gunter. "CZ-8 (Chang Zheng-8)". Gunter's Space Page. Retrieved 11 August 2024.
  84. ^ a b Krebs, Gunter. "CZ-8 (Chang Zheng-8)". Gunter's Space Page. Retrieved 11 August 2024.
  85. ^ a b c d e f Krebs, Gunter. "CZ-11 (Chang Zheng-11)". Gunter's Space Page. Retrieved 5 October 2021.
  86. ^ a b c Krebs, Gunter. "CZ-12 (Chang Zheng-12)". Gunter's Space Page. Retrieved 30 November 2024.
  87. ^ a b "Indian Space Research Organisation". isro.gov.in. Retrieved 11 August 2024.
  88. ^ Kerbs, Gunter. "GSLV Mk.3 (LVM-3)". Gunter's Space Page. Retrieved 11 August 2024.
  89. ^ "Crew module Atmospheric Re-entry Experiment (CARE)". ISRO. 18 December 2014. Archived from the original on 25 September 2020. Retrieved 4 September 2018.
  90. ^ a b c Krebs, Gunter. "Taurus-3210 (Taurus-XL) / Minotaur-C-XL-3210". Gunter's Space Page. Retrieved 25 August 2024.
  91. ^ a b "MINOTAUR I Space Launch Vehicle" (PDF). northropgrumman. Northrop Grumman Corporation. Retrieved 25 August 2024.
  92. ^ a b Krebs, Gunter. "Minotaur-1 (OSP-SLV)". Gunter's Space Page. Retrieved 25 August 2024.
  93. ^ a b c Krebs, Gunter. "Minotaur-4 (Minotaur-IV, OSP-2 Peacekeeper SLV)". Gunter's Space Page. Retrieved 25 August 2024.
  94. ^ Krebs, Gunter. "Minotaur-4-Lite (OSP-2 Peacekeeper SLV)". Gunter's Space Page. Retrieved 25 August 2024.
  95. ^ Krebs, Gunter. "Minotaur-4 HAPS (Minotaur-IV HAPS, OSP-2 Peacekeeper SLV)". Gunter's Space Page. Retrieved 25 August 2024.
  96. ^ Krebs, Gunter. "Minotaur-4 Orion-38 (Minotaur-IV Orion-38, OSP-2 Peacekeeper SLV)". Gunter's Space Page. Retrieved 25 August 2024.
  97. ^ a b c Krebs, Gunter. "Minotaur-4+ (Minotaur-IV, OSP-2 Peacekeeper SLV)". Gunter's Space Page. Retrieved 25 August 2024.
  98. ^ a b c Krebs, Gunter. "Minotaur-5 (Minotaur-V, OSP-2 Peacekeeper SLV)". Gunter's Space Page. Retrieved 25 August 2024.
  99. ^ a b 동아사이언스 (2022-12-04). "누리호 탑재 중량 1.5t→1.9t으로 성능 '업'". m.dongascience.com (in Korean). Retrieved 2023-07-12.
  100. ^ Krebs, Gunter. "Nuri (KSLV-2)". Gunter's Space Page. Retrieved 25 August 2024.
  101. ^ a b c d Krebs, Gunter. "Pegasus-XL". Gunter's Space Page. Retrieved 27 August 2024.
  102. ^ "PEGASUS Patented Air Launch System" (PDF). northropgrumman. Northrop Grumman. Retrieved 27 August 2024.
  103. ^ a b Krebs, Gunter. "Pegasus-XL HAPS". Gunter's Space Page. Retrieved 27 August 2024.
  104. ^ a b "Proton-M". nextspaceflight.com. Retrieved 27 August 2024.
  105. ^ Krebs, Gunter. "Proton-M". Gunter's Space Page. Retrieved 27 August 2024.
  106. ^ a b c Krebs, Gunter. "Proton-K & -M Briz-M". Gunter's Space Page. Retrieved 27 August 2024.
  107. ^ Krebs, Gunter. "Proton (UR-500) Family". Gunter's Space Page. Retrieved 27 August 2024.
  108. ^ Krebs, Gunter. "Proton-M Blok-DM-03". Gunter's Space Page. Retrieved 27 August 2024.
  109. ^ a b c Krebs, Gunter. "PSLV-CA (2)". Gunter's Space Page. Retrieved 27 August 2024.
  110. ^ Krebs, Gunter. "PSLV-CA". Gunter's Space Page. Retrieved 27 August 2024.
  111. ^ a b Krebs, Gunter. "PSLV". Gunter's Space Page. Retrieved 27 August 2024.
  112. ^ Krebs, Gunter. "PSLV-DL". Gunter's Space Page. Retrieved 27 August 2024.
  113. ^ Krebs, Gunter. "PSLV-QL". Gunter's Space Page. Retrieved 27 August 2024.
  114. ^ a b c d Krebs, Gunter. "PSLV-XL". Gunter's Space Page. Retrieved 27 August 2024.
  115. ^ Arunan, S.; Satish, R. (25 September 2015). "Mars Orbiter Mission spacecraft and its challenges". Current Science. 109 (6): 1061–1069. doi:10.18520/v109/i6/1061-1069.
  116. ^ a b Krebs, Gunter. "Qaem-100". Gunter's Space Page. Retrieved 27 August 2024.
  117. ^ a b Krebs, Gunter. "Qased". Gunter's Space Page. Retrieved 27 August 2024.
  118. ^ Davenport, Justin (29 March 2023). "Israeli Shavit-2 successfully launches Ofek 13 military satellite". NASASpaceFlight.com. Retrieved 31 August 2024.
  119. ^ Krebs, Gunter. "Shavit-2". Gunter's Space Page. Retrieved 31 August 2024.
  120. ^ a b c Krebs, Gunter. "Simorgh (Safir-2)". Gunter's Space Page. Retrieved 31 August 2024.
  121. ^ "ماهواره‌بر سیمرغ رکورد بزرگترین و سنگین‌ترین تزریق محموله فضایی در مدار را شکست". ایسنا (in Persian). 2024-12-06. Retrieved 2024-12-06.
  122. ^ a b "SOYUZ-2 Launch Vehicle". en.samspace.ru. Retrieved 31 August 2024.
  123. ^ a b Krebs, Gunter. "Soyuz-2-1a (14A14)". Gunter's Space Page. Retrieved 31 August 2024.
  124. ^ a b Krebs, Gunter. "Soyuz-2-1a Fregat". Gunter's Space Page. Retrieved 31 August 2024.
  125. ^ Krebs, Gunter. "Soyuz-2-1a Volga". Gunter's Space Page. Retrieved 31 August 2024.
  126. ^ Krebs, Gunter. "Soyuz-2-1b". Gunter's Space Page. Retrieved 31 August 2024.
  127. ^ a b c d Krebs, Gunter. "Soyuz-2-1b Fregat". Gunter's Space Page. Retrieved 31 August 2024.
  128. ^ a b c Krebs, Gunter. "Soyuz-2-1v (Soyuz-1)". Gunter's Space Page. Retrieved 31 August 2024.
  129. ^ a b Krebs, Gunter. "Soyuz-2-1v Volga (Soyuz-1 Volga)". Gunter's Space Page. Retrieved 31 August 2024.
  130. ^ a b "NASA's Space Launch System Reference Guide (Web Version)" (PDF). nasa.gov. National Aeronautics and Space Administration. p. 8. Retrieved 31 August 2024.
  131. ^ Krebs, Gunter. "SLS". Gunter's Space Page. Retrieved 31 August 2024.
  132. ^ "Indian Space Research Organisation". isro.gov.in. Indian Space Research Organisation. Retrieved 31 August 2024.
  133. ^ a b Krebs, Gunter. "SSLV". Gunter's Space Page. Retrieved 31 August 2024.
  134. ^ a b c Krebs, Gunter. "Tianlong-2". Gunter's Space Page. Retrieved 3 September 2024.
  135. ^ a b "Vega C". arianespace.com. Arianespace. Retrieved 3 September 2024.
  136. ^ Krebs, Gunter. "Vega-C". Gunter's Space Page. Retrieved 3 September 2024.
  137. ^ "Europe's Vega-C returns to flight with Sentinel-1C mission".
  138. ^ a b c Krebs, Gunter. "Zhuque-2 (ZQ-2, LandSpace-2, LS-2)". Gunter's Space Page. Retrieved 3 September 2024.
  139. ^ a b "Starship". SpaceX. Archived from the original on 30 September 2019. Retrieved 1 October 2019.
  140. ^ a b c d e f g h SpaceX [@SpaceX] (April 6, 2024). "At Starbase, @ElonMusk provided an update on the company's plans to send humanity to Mars, the best destination to begin making life multiplanetary" (Tweet). Archived from the original on 6 April 2024 – via Twitter.
  141. ^ a b c d e f Krebs, Gunter. "Angara (cluster)". Gunter's Space Page. Retrieved 30 November 2024.
  142. ^ a b "South Korean ADD Solid-Fuel SLV". nextspaceflight.com. Retrieved 31 August 2024.
  143. ^ a b "Launch Vehicle". Space One. Retrieved 2 January 2024.
  144. ^ Krebs, Gunter. "KAIROS". Gunter's Space Page. Retrieved 29 July 2024.
  145. ^ a b ""북한, 6개월만에 누리호와 같은 계열 엔진"". 문화일보 (in Korean). Retrieved 2024-06-04.
  146. ^ Krebs, Gunter. "North Korean Kerolox Launch Vehicle". Gunter's Space Page. Retrieved 25 August 2024.
  147. ^ a b c "Vulcan". ULA. Retrieved 3 September 2024.
  148. ^ Krebs, Gunter. "Vulcan Centaur VC2S / Vulcan Centaur VC2L". Gunter's Space Page. Retrieved 3 September 2024.
  149. ^ "Angara-A5V (Angara-5V) launch vehicle". russianspaceweb.com. Retrieved 2024-06-03.
  150. ^ "Antares". nextspaceflight.com. Retrieved 2024-03-28. [permanent dead link]
  151. ^ Davenport, Justin (2023-08-09). "Northrop Grumman and Firefly's Antares 330 and MLV plans take shape". NASASpaceFlight.com. Retrieved 2024-08-30.
  152. ^ Clark, Stephen (2024-07-10). "Europe's first Ariane 6 flight achieved most of its goals, but ended prematurely". Ars Technica. Retrieved 2024-08-30.
  153. ^ a b "Mission – Perigee". perigee.space. Retrieved 2023-12-18.
  154. ^ Blue Whale 1 Sea Launch Animation. Retrieved 2024-03-28 – via YouTube.
  155. ^ "Mission – Perigee". perigee.space. Retrieved 2024-08-30.
  156. ^ a b Boucher, Marc (14 March 2017). "Exclusive: Maritime Launch Services Selects Nova Scotia Site for Spaceport Over 13 Other Locations". SpaceQ. Retrieved 18 March 2017.
  157. ^ Krebs, Gunter. "Tsiklon-4M (Cyclone-4M)". Gunter's Space Page. Retrieved 11 April 2017.
  158. ^ "Precious Payload allies with Maritime Launch + adds Canada's 1st commercial spaceport to the Launch.ctrl marketplace for smallsat interests – SatNews". news.satnews.com. Retrieved 2022-12-29.
  159. ^ a b Space, Vaya (2024-03-20). "Vaya Space Announces Strategic Partnership with All Points' Space Prep Launch Support Program". Vaya Space. Retrieved 2024-03-28.
  160. ^ Zisk, Rachael (2024-03-11). "Phantom Raises a Bridge Round". Payload. Retrieved 2024-03-15.
  161. ^ "LOTUSat-1 (JV-LOTUSat)". eoportal.org. Retrieved 2024-08-30.
  162. ^ "LAUNCH". Gilmour Space. Retrieved 2021-05-29.
  163. ^ Gilmour Space [@GilmourSpace] (5 December 2023). "** LAUNCH UPDATE: With end of year fast-approaching and launch approvals still pending, Test Flight 1 will now attempt first orbital launch in 2024. **" (Tweet). Retrieved 5 December 2023 – via Twitter.
  164. ^ Jones, Andrew (2023-04-28). "Orienspace of China targets first launch in second half of the year". SpaceNews. Retrieved 2024-08-30.
  165. ^ "INNOSPACE HANBIT – Nano". 이노스페이스 (in Korean). Retrieved 2024-03-28.
  166. ^ "INNOSPACE Signs Agreements on HANBIT-Nano Rocket to Launch Brazilian Satellites and Inertial System". Yahoo Finance. 2024-05-30. Retrieved 2024-08-30.
  167. ^ Jones, Andrew (2 November 2023). "China's iSpace launches and lands rocket test stage". spacenews.com. Retrieved 2 November 2023.
  168. ^ "HTV-X 1, 2, 3 (Kotonotori 1, 2, 3)". Gunter's Space Page. Retrieved 2024-08-30.
  169. ^ a b Jones, Andrew (28 June 2021). "China's super heavy rocket to construct space-based solar power station". Retrieved 8 January 2022.
  170. ^ Jones, Andrew (5 July 2018). "China reveals details for super-heavy-lift Long March 9 and reusable Long March 8 rockets". SpaceNews. Retrieved 4 September 2018.
  171. ^ Enthusiast, Space (2023-12-14). "Long March 9: China's Super-Heavy Ambitions". Orbital Today. Retrieved 2024-08-30.
  172. ^ Parsonson, Andrew (2024-01-10). "ArianeGroup to Increase MaiaSpace Investment to €125M". European Spaceflight. Retrieved 2024-08-30.
  173. ^ Pinedo, Emma (20 October 2023). "Spain's PLD Space expects first orbital launch in Q1 2026 from French Guiana". Reuters. Retrieved 5 December 2023.
  174. ^ "Medium Launch Vehicle". Firefly Aerospace. Retrieved 7 August 2024.
  175. ^ Foust, Jeff (7 August 2024). "Firefly signs multi-launch agreement with L3Harris". SpaceNews. Retrieved 7 August 2024. Representatives of Firefly and Northrop said they expected the first flight of MLV to take place in the second half of 2026.
  176. ^ a b c d e f Bell, Adrian (18 April 2024). "China Roundup: ZhuQue-3 moves left, Tianlong-3 gets engines, and Chang Zheng rockets launch". nasaspaceflight. Retrieved 18 April 2024.
  177. ^ "Rocket Lab pushes back Neutron debut to 2025". spacenews.com. 2024-05-07. Retrieved 2024-05-29.
  178. ^ Foust, Jeff (8 March 2017). "Eutelsat first customer for Blue Origin's New Glenn". SpaceNews. Retrieved 8 March 2017.
  179. ^ Samantha Mathewson (2024-08-29). "Blue Origin's powerful New Glenn rocket to debut Oct. 13 with NASA Mars launch". Space.com. Retrieved 2024-08-30.
  180. ^ "Interview. Bordeaux : après des essais dans leur jardin, ils vont lancer leur fusée dans l'espace". actu.fr (in French). 2023-05-04. Retrieved 2023-11-21.
  181. ^ China 'N Asia Spaceflight 🚀🛰️🙏 [@CNSpaceflight] (9 January 2023). "GAPACTIC-ENERGY's another important goal is to develop the reusable kerosene fueled rocket PALLAS-1, which is now targeted in 2024 for first launch https://t.co/TMrTZ6ZD8D https://t.co/xPKe0mVIBB" (Tweet). Archived from the original on 11 January 2023. Retrieved 20 March 2023 – via Twitter.
  182. ^ Foust, Jeff (18 July 2018). "Orbex stakes claim to European smallsat launch market". SpaceNews. Retrieved 4 September 2018.
  183. ^ Dorsey, Kristy (1 May 2024). "New Orbex chief hints at Sutherland launch next year". The Herald. Retrieved 1 July 2024.
  184. ^ a b "LAUNCHER – Rocket Factory Augsburg". Retrieved 2021-09-18.
  185. ^ Rainbow, Jason (23 August 2024). "RFA pushes maiden flight to 2025 after launchpad explosion". SpaceNews. Retrieved 24 August 2024.
  186. ^ "Russia's Rokot-M carrier rocket to be launched in 2024 — Khrunichev Center". TASS. Retrieved 2024-08-30.
  187. ^ "Skyrora XL Rocket | Skyrora". skyrora.com. 4 August 2022. Retrieved 2022-08-19.
  188. ^ Thompson, Alan (13–14 May 2024). Skyrora - ICAO (PDF). Workshop on New Entrants Integration in the NAT Region (2024). Paris: ICAO. p. 5. Retrieved 24 August 2024.
  189. ^ "GYUB (South Korean Solid Fueled LV)". Gunter's Space Page. Retrieved 2024-03-28.
  190. ^ "South Korean ADD Solid-Fuel SLV". nextspaceflight.com. Retrieved 2024-06-02.
  191. ^ "Space Launch System" (PDF). NASA Facts. NASA. 11 October 2017. FS-2017-09-92-MSFC. Archived from the original (PDF) on 24 December 2018. Retrieved 4 September 2018.
  192. ^ a b Harbaugh, Jennifer (9 July 2018). "The Great Escape: SLS Provides Power for Missions to the Moon". NASA. Archived from the original on 11 December 2019. Retrieved 4 September 2018.
  193. ^ Creech, Stephen (April 2014). "NASA's Space Launch System: A Capability for Deep Space Exploration" (PDF). NASA. p. 2. Archived from the original (PDF) on 7 March 2016. Retrieved 4 September 2018.
  194. ^ Zak, Anatoly (7 August 2017). "Preliminary design for Soyuz-5 races to completion". Russian Space Web. Retrieved 2 September 2018.
  195. ^ "First launch of Soyuz-5 rocket due Dec 24, 2025". TASS. 17 August 2023. Retrieved 18 August 2023.
  196. ^ a b Berger, Eric (7 October 2020). "Russian space corporation unveils planned "Amur" rocket—and it looks familiar". Ars Technica. Retrieved 7 October 2020.
  197. ^ a b "Spectrum". Isar Aerospace. Retrieved 2022-03-05.
  198. ^ Jones, Andrew (2023-11-03). "Norway opens Andøya spaceport". SpaceNews. Retrieved 2024-01-02.
  199. ^ a b SpaceX [@SpaceX] (June 6, 2024). "Watch Starship's fourth flight test" (Tweet) – via Twitter.{{cite web}}: CS1 maint: url-status (link)
  200. ^ a b "Relativity Space Shares Updated Go-to-Market Approach for Terran R, Taking Aim at Medium to Heavy Payload Category with Next-Generation Rocket". Relativity Space (Press release). 12 April 2023. Retrieved 12 April 2023.
  201. ^ "Vega E: M10 motor / Mira". Avio. Archived from the original on 19 April 2019. Retrieved 7 June 2018.
  202. ^ a b c "Launch Vehicle". Skyroot Aerospace. 2019-01-10. Archived from the original on 2020-12-15. Retrieved 2019-04-21.
  203. ^ "Skyroot Aerospace". Skyroot Aerospace. Retrieved 2019-04-21.
  204. ^ "Skyroot Aerospace Nears Historic Launch with Successful Vikram-1 Stage-1 Test". Financialexpress. 2024-07-10. Retrieved 2024-08-30.
  205. ^ "Vulcan Centaur VC4S / Vulcan Centaur VC4L". Gunter's Space Page. Retrieved 2024-08-30.
  206. ^ a b "Rocket Rundown – A Fleet Overview" (PDF). ULA. November 2019. Retrieved April 14, 2020.
  207. ^ Jones, Andrew (9 December 2023). "Landspace launches third methane Zhuque-2, targets 2025 launch of new stainless steel rocket". spacenews.com. Retrieved 2023-12-09.
  208. ^ Axe, David. "Iran's New Space Rocket Could Double As A Nuclear Missile". Forbes. Retrieved 2021-03-08.