Autor Wątek: STARTY RAKIET KOSMICZNYCH (zbiorczo) (Przeczytany 24882 razy)

Orionid · « **Odpowiedź #90 dnia:** Luty 26, 2022, 10:59 »

2023 cz1 https://www.forum.kosmonauta.net/index.php?topic=4133.msg185321#msg185321
cz2 https://www.forum.kosmonauta.net/index.php?topic=4133.msg185559#msg185559

H 1 https://www.forum.kosmonauta.net/index.php?topic=4133.msg184608#msg184608
H 2 https://www.forum.kosmonauta.net/index.php?topic=4133.msg185000#msg185000

2022

26.11. Falcon-9R B1076.1 KSC LC-39A/ASDS JRTI Atlantyk
Cargo Dragon CRS-26 + IROSA 2x , + 11 Cubesatów.

11.12. Falcon-9R B1073.5 Canaveral SLC-40/LZ-2 Floryda
Hakuto-R M1 (~1000 kg); 340 kg (dry)
Lunar Flashlight CubeSat (6U) (~14 kg)

28.12. Falcon-9R B1062.11 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v1.5 G5-1-1 - Starlink v1.5 G5-1-54 (54x~300 kg)

30.12. Falcon-9R B1061.11 Vandenberg SLC-4E/LZ-4
EROS C3-1 (~400 kg)

==========================
https://twitter.com/SpaceNosey/status/1497265611310866432

Orionid · « **Odpowiedź #91 dnia:** Marzec 04, 2022, 13:51 »

Lista pierwszych stopni Block 5 wg kolejności pierwszego startu. (2)
wcześniejsze: https://www.forum.kosmonauta.net/index.php?topic=4133.msg147380#msg147380

B1062 05.11.20 Falcon-9R Canaveral SLC-40/ASDS OCISLY Atlantyk GPS III SV04
17.06.21 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk GPS III
16.09.21 Falcon-9R KSC LC-39A/ ASDS JRTI Atlantyk, Crew Dragon F4 (Inspiration4) Resilience C207 F2 (91d) (224d)
06.01.22 Falcon-9R KSC LC-39A/ASDS ASOG Atlantyk Starlink v1.5 G4-5-1 - v1.5 G4-5-49 (112d)
08.04.22 Falcon-9R KSC LC-39A/ASDS ASOG Atlantyk Crew Dragon Endeavour C206 F3 Axiom-1 (92d)
29.04.22 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk Starlink v1.5 G4-16-1 - v1.5 G4-16-53 (21d)
08.06.22 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk Nilesat-301 (3938 kg) GEO (40d)

B1061 16.11.20 Falcon-9R KSC-39A/ASDS JRTI Atlantyk SpaceX Crew-1 Resilience C207 F1
23.04.21 Falcon-9R KSC LC-39A/ASDS OCISLY Atlantyk SpaceX Crew-2 Endeavour C206 F2 (158d)
06.06.21 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk SiriusXM-8 GEO (44d)
29.08.21 Falcon-9R KSC LC-39A/ASDS ASOG (A Shortfall of Gravitas) Atlantyk Dragon CRS-23 + CubeSaty (8 ) (84d)
09.12.21 Falcon-9R KSC, LC-39A/ASDS JRTI Atlantyk IXPE (Imaging X-ray Polarimetry Explorer, SMEX-14) (102d)
03.02.22 Falcon-9R KSC LC-39A/ASDS ASOG Atlantyk Starlink v1.5 G4-7-1 - v1.5 G4-7-49 (56d)
01.04.22 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk Transporter 4 (40) (57d)
25.05.22 Falcon-9R Canaveral SLC-40/LZ-1 Floryda, Transporter-5 (54d)
19.06.22 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk Globalstar-2 M087, (wojskowy Satelita ? Zuma-2 ?) (25d)

B1063 21.11.20 Falcon-9R Vandenberg SLC-4E/LZ-4 Vandenberg Jason-CS A (Sentinel 6A, Sentinel 6 Michael Freilich)
26.05.21 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk Starlink v1.0 L28-1 - Starlink v1.0 L28-60 (186d)
22.11.21 Falcon-9R Vandenberg SLC-4E/ASDS OCISLY Pacyfik DART, LICIACube sondy NEO (182d)
25.02.22 Falcon-9R Vandenberg SLC-4E/ASDS OCISLY Pacyfik Starlink v1.5 G4-11-1 - G4-11-50 (95d)
13.05.22 Falcon-9R Vandenberg SLC-4E/ASDS OCISLY Pacyfik Starlink v1.5 G4-13-1 - G4-13-53 (77d)
11.07.22 Falcon-9R Vandenberg SLC-4E/ASDS OCISLY Pacyfik Starlink v1.5 G3-1-1 - G3-1-46 (59d)

2021

B1067 03.06.21 Falcon-9R KSC LC-39A/ASDS OCISLY Atlantyk Dragon CRS-22 (SpX 22, Dragon C209-F1)
11.11.21 Falcon-9R KSC LC-39A/ASDS ASOG Atlantyk Crew Dragon Endurance 210 F1 (161d)
19.12.21 Falcon-9R Canaveral SLC-4/ASDS ASOG Atlantyk Türksat 5B GEO (38d)
27.04.22 Falcon-9R KSC LC-39A/ASDS ASOG Atlantyk Crew Dragon C212 "Freedom", Crew-4 (129d)
15.07.22 Falcon-9R KSC LC-39A/ASDS ASOG na Atlantyk Dragon CRS-25+ 6 Cubesatów (79d)

B1069 21.12.21 Falcon-9R KSC-39A/ASDS JRTI Atlantyk Dragon CRS-24 (SpX 24, Dragon C209-F2) + CubeSats

2022

B1071 02.02.22 Falcon-9R Vandenberg SLC-4E/LZ-4 Vandenberg USA 326 ? (NROL 87)
17.04.22 Falcon-9R Vandenberg SLC-4E/LZ-4 Kalifornia USA-327, USA-328 (NROL 85) (67d)
18.06.22 Falcon-9R Vandenberg SLC-4E/LZ-4 Vandenberg SARah 1 (62d)

B1073 14.05.22 Falcon-9R Canaveral SLC-40/ASDS JRTI Atlantyk Starlink v1.5 G4-15-1 - G4-15-53
29.06.22 Falcon-9R Canaveral SLC-40/ASDS ASOG/JRTI Atlantyk SES-22 GEO (46d)

-------------------------------------------------------------------

Planowane terminy startów kolejnych stopni

https://en.wikipedia.org/wiki/List_of_Falcon_9_first-stage_boosters
https://en.wikipedia.org/wiki/Landing_Zones_1_and_2
https://en.wikipedia.org/wiki/Vandenberg_Space_Launch_Complex_4#After_2015:_SpaceX_Landing_Zone_4
https://en.wikipedia.org/wiki/Autonomous_spaceport_drone_ship

1) 03.03.2022
https://twitter.com/SpaceNosey/status/1499475939847245830

2) 09.03.2022
https://twitter.com/SpaceNosey/status/1501561712142651394

3) 19.03.2022
https://twitter.com/SpaceNosey/status/1505164469583941635

4) 01.04.2022
https://twitter.com/SpaceNosey/status/1509949498474303496

Orionid · « **Odpowiedź #92 dnia:** Maj 22, 2022, 21:19 »

Statystyka użytych boosterów do wynoszenia Starlinków
AKT na 11.07.2022

Użyto łącznie 13 boosterów w 53 startach

B1038 (1)
B1049 (8 )
B1048 (2) Nieudane lądowanie
B1051 (9)
B1056 (1) Nieudane lądowanie
B1059 (2) Nieudane lądowanie
B1060 (11)
B1058 (9)
B1063 (4)
B1062 (2)
B1061 (1) Po 6. locie burza magnetyczna była przyczyną utraty większości satelitów
B1052 (2)
B1073 (1)

Poszczególne loty boosterów używanych o wyniesienia Starlinków wg kolejności pierwszego lotu te Starlinkami

2018

B1038.2

2019

B1049.3
B1049.4
B1049.5
B1049.6
B1049.7
B1049.8
B1049.9
B1049.10

B1048.4
B1048.5

2020

B1051.3
B1051.4
B1051.5
B1051.6
B1051.8
B1051.9
B1051.10
B1051.11
B1051.12

B1056.4

B1059.3
B1059.6

B1060.2
B1060.3
B1060.5
B1060.6
B1060.7
B1060.8
B1060.9
B1060.10
B1060.11
B1060.12
B1060.13

B1058.3
B1058.5
B1058.6
B1058.7
B1058.8
B1058.9
B1058.11
B1058.12
B1058.13

2021

B1063.2
B1063.4
B1063.5
B1063.6

2022

B1062.4
B1062.6

B1061.6

B1052.4
B1052.5

B1073.1

Debiutujące loty boosterów w starlinkowej roli:

2018 1
2019 2
2020 5
2021 1
2022 4

=========

Boostery Block 5 -statystyki (ilość startów wg kolejności pierwszego startu w danym roku)

2018 6- 24

B1046 4k (In-Flight Abort Test) Dragon C205 bez próby odzyskania)
B1047 3k (bez próby odzyskania)
B1048 5k (został wyłączony jeden z silników, później prawdopodobnie nie doszło do zapłonu do lądowania)
B1049 10
B1050 1k (miał wylądować na LZ-1 na Cape Canaveral, z powodu awarii pompy siłownika steru aerodynamicznego
skierował się do Atlantyku, gdzie miękko zwodował)
B1054 1k (brak próby odzyskania)

2019 7 - 31

B1051 12
B1052 5 (2FH, 3 F9)
B1053 2 (FH)
B1055 1k (FH) (Podczas powrotu na Cape Canaveral centralny stopień Falcona przewrócił się z powodu silnie wzburzonego morza)
B1056 4k (pierwszy stopień RN zwodował w pobliżu barki ASDS OCISLY na Atlantyku)
B1057 1k (FH) (stopień centralny nie trafił w T+11' 21" w barkę ASDS OCISLY na Atlantyku)
B1059 6k (spadł do Atlantyku w pobliżu barki)

2020 5 - 47

B1058 13
B1060 12
B1062 7
B1061 9
B1063 6

2021 2 -5

B1067 4
B1069 1

2022 2-5

B1071 3
B1073 2

Ilość inauguracyjnych lotów w poszczególnych latach ( w nawiasie ilość jeszcze aktywnych)

2018 6 (1)
2019 7 (3)
2020 5 (5)
2021 2 (2)
2022 2 (2)

Orionid · « **Odpowiedź #93 dnia:** Marzec 15, 2023, 06:31 »

2023 mar 13 11:00 Kosmonauta.net
Piękne! Starty SpaceX z Florydy
Wyraźny wzrost częstotliwości startów!

https://twitter.com/AlexSvanArt/status/1630896377176702977

1a 04.04.23) 2023 kwi 04 06:30 Kosmonauta.net
Precyzja lądowania stopni SpaceX
Świetny filmik, warto to zobaczyć!

1b)
https://twitter.com/spacemen1969/status/1649058588990803969

1c) 2021 SIE 29 19:31 KOSMONAUTA.NET
20 lat rakiety H-IIA
Wytwórca rakiet H-IIA - Mitsubishi Heavy Industries - przygotował taką grafikę dotyczącą rakiet H-IIA. Pierwszy lot tej konstrukcji nastąpił 29 sierpnia 2001 roku. Do ostatniego lotu (w listopadzie 2020) łącznie wykonano 43 starty H-IIA, z czego 42 były udane. Jedyny nieudany lot nastąpił 29 listopada 2003 roku.

1d 23.04.23) 2021 SIE 30 12:01
Aktualna flota pierwszych stopni rakiet Falcon 9
Poniższa grafika prezentuje aktualną flotę pierwszych stopni rakiet Falcon 9 firmy SpaceX.
https://twitter.com/_rykllan/status/1431902233868832773

1e) 2021 WRZ 03 15:02 KOSMONAUTA.NET
Rakiety Vega i Ariane 6
Rada ESA wyraziła zgodę co do dalszego wykorzystania i rozwoju rakiet Vega i Ariane 6. W tym przypadku mowa m.in. o wykorzystaniu tych rakiet dla celów instytucjonalnych dla Europy (4x rakiety Ariane 6 i 2 x rakiety Vega rocznie).
https://twitter.com/esa/status/1433725635030097921

1f) 2023 maj 05 12:30 Kosmonauta.net
Świetny film o Falconach Heavy
Do czasu udanych startów większych rakiet (ekhm Stashipie!

), to właśnie Falcon Heavy jest obecnym królem wśród rakiet. Więc poznajmy Falcona Heavy!

1g) 2023 cze 24 12:30 Kosmonauta.net
Starship i N1
Bardzo ciekawe porównanie tych dwóch wielkich rakiet, oddalonych od siebie o dekady rozwoju.

1h) 2022 gru 31 08:27 Kosmonauta.net
Start Falcona 9 z pokładu samolotu
Niesamowity widok!
https://twitter.com/HistoryInPics/status/1603916329614200832

1i) 2023 lip 21 14:49 Kosmonauta.net
Problemy japońskich rakiet
Ten rok nie jest udany dla japońskich rakiet. Rakiecie H3 się nie udał pierwszy start,
https://kosmonauta.net/2023/03/nieudany-debiut-h3/
a 14 lipca doszło do eksplozji (podczas testów naziemnych) silnika drugiego stopnia rakiety Epsilon
https://kosmonauta.net/2022/10/proton-m-tak-epsilon-nie/ ,
której ostatni start (w 2022) się także nie udał.
https://twitter.com/ImAstroNana/status/1682329667418853376

2) 2023 mar 18 06:30 Kosmonauta.net
XRISM rozpocznie misję w 2023 roku
Japoński teleskop XRISM (X-Ray Imaging and Spectroscopy Mission) ma za zadanie prowadzić badania obiektów Wszechświata w zakresie rentgenowskiego promieniowania.
https://xrism.isas.jaxa.jp/en/about/
Rentgenowski teleskop NASA IXPE został umieszczony w przestrzeni kosmicznej w grudniu 2021 roku.
https://www.forum.kosmonauta.net/index.php?topic=4826.msg172101#msg172101
https://twitter.com/NASAUniverse/status/1572597949024067585

3) GomSpace signs an important contract to supply standard products for a satellite constellation
WED, MAR 15, 2023 12:36 CET Report this content

GomSpace signs a contract with a European integrator of smallsats to supply the first NanoCom Link X standard products for a European satellite constellation.

The contract value of the first delivery is 3,7 MSEK with the option to extend the agreement for additional units and equipment throughout the project. The first units will be delivered as early as Q2 2023.
https://news.cision.com/gomspace-a-s/r/gomspace-signs-an-important-contract-to-supply-standard-products-for-a-satellite-constellation,c3734498

4) Dubai engineering students to develop Rubik Cube size satellite for space exploration
by Angel Tesorero Published: Sat 18 Mar 2023, 6:17 PM Last updated: Sun 19 Mar 2023, 5:39 PM

The miniature device will be used to conduct science experiments and educational projects

A group of engineering students in Dubai is in the process of building a working CubeSat named Mahasat that will be launched in the next two years. This came following the recent signing of Memorandum of Understanding between BITS Pilani Dubai Campus (BPDC) and UAE-based Edutech4Space.

A CubeSat is a square-shaped miniature satellite – roughly the size of a Rubik Cube (10cm × 10cm ×10 cm) — weighing about 1kg that is used for science experiments and educational projects.
https://www.khaleejtimes.com/space/dubai-engineering-students-to-develop-rubik-cube-size-satellite-for-space-exploration

5) Press Release: IVO Ltd. to Launch Quantum Drive Pure Electric Satellite Thruster into Orbit on SpaceX Transporter 8 with partner Rogue Space Systems
March 15, 2023

Washington, D.C. – Mar. 15, 2023 – IVO Ltd., the pioneer of capacitive based technologies, today announced its pure electric thruster for satellites, the IVO Quantum Drive, will be aboard SpaceX Transporter 8. Hosted by IVO’s partner, Rogue Space Systems, the Quantum Drive-powered satellite will begin its journey to low earth orbit on June 10th, 2023. After demonstration and baselining of the IVO Quantum Drive’s performance specifications, IVO Ltd will provide propulsion for Rogue Orbots supporting Rogue’s high-mobility satellite servicing business model.

The IVO Quantum Drive is the world’s first commercially viable and available pure electric propulsion technology to achieve legitimacy via thermal vacuum testing. The thruster technology provides unmatched efficiency, achieving up to 52 mN from a single watt with the ability to stack units to multiply thrust output. Thrusters can be mounted in any orientation enabling up to 6 degrees of freedom. This is done solely via electricity, eliminating the need for liquid, solid or gas fuels. The elimination of legacy fuel systems and storage allows for a larger payload and a reduced form factor of any spacecraft. Due to a lack of emissions, the thruster can be mounted internally to a satellite.
https://ivolimited.us/press-release-ivo-ltd-to-launch-quantum-drive-pure-electric-satellite-thruster-into-orbit-on-spacex-transporter-8-with-partner-rogue-space-systems/

6) Rocket Lab to Launch Pair of Satellites for BlackSky from New Zealand Just Days After Successful Launch from Virginia

LONG BEACH, Calif. March 17, 2023 – Rocket Lab USA, Inc (Nasdaq: RKLB) (“Rocket Lab” or “the Company”), a leading launch and space systems company, announced that it will launch a pair of satellites on a dedicated Electron mission for BlackSky (NYSE: BKSY) through global launch services provider Spaceflight, Inc., during a launch window opening March 22, 2023 UTC.
https://www.rocketlabusa.com/updates/rocket-lab-to-launch-pair-of-satellites-for-blacksky-from-new-zealand-just-days-after-successful-launch-from-virginia/

7) China's 1st liquid-fueled rocket moved to launch pad for liftoff this month
By Andrew Jones published March 17, 2023

If the launch is successful, it will make Space Pioneer the first Chinese commercial firm to reach orbit with a liquid propellant rocket.

A Space Pioneer Tianlong-2 rocket. (Image credit: Space Pioneer)

Chinese launch company Space Pioneer is all set for its first attempt to reach orbit, according to a photo from the country's Jiuquan spaceport.

Space Pioneer's Tianlong 2 rocket, which can translate (opens in new tab)to "heavenly dragon," is nearing its first launch and is set to lift off before the end of March, according to a recent report(opens in new tab).

The expendable, three-stage Tianlong 2 uses a kerosene and liquid oxygen propellant mix. If the launch is successful, it will make Space Pioneer the first Chinese commercial firm to reach orbit with a liquid propellant rocket.
https://www.space.com/china-tianlong-2-1st-liquid-rocket-launch-pad

8 ) China Focus: China to launch Einstein Probe to observe changing universe
Source: XinhuaEditor: huaxia 2023-03-18 20:52:15

BEIJING, March 18 (Xinhua) -- China plans to launch a new X-ray astronomical satellite, Einstein Probe (EP), at the end of this year, said Yuan Weimin, principal investigator of the satellite project.

Yuan, who is also a researcher at the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), revealed the latest progress of the EP project at the recent 35th National Symposium on Space Exploration.

"The satellite has entered the final stage of development," he said.

According to the scientist, the probe is expected to capture the first light from supernova explosions, help search for and pinpoint gravitational wave sources, and observe the mysterious transient phenomena in the universe.
https://english.news.cn/20230318/60349c3f71c14eb8bed70043709ddf92/c.html

9) Quantum Sensing in Outer Space: New NASA-funded Research Will Build Next-Gen Tech to Better Measure Climate
MARCH 16, 2023

Texas Engineers are leading a multi-university research team that will build technology and tools to improve measurement of important climate factors by observing atoms in outer space.

They will focus on the concept of quantum sensing, which use quantum physics principles to potentially collect more precise data and enable unprecedented science measurements. These sensors could help satellites in orbit collect data about how atoms react to small changes in their environment, and using that to infer the time-variations in the gravity field of the Earth. This will enable scientists to improve how accurately several important climate processes can be measured, such as sea level rise, ice melt rates, changes in land-water resources and ocean heat storage changes.
https://cockrell.utexas.edu/news/archive/9659-quantum-sensing-in-outer-space-new-nasa-funded-research-will-build-next-gen-tech-to-better-measure-climate

10) College Students Are About to Put a Robot on the Moon Before NASA
29 March 2023 14:00 CEST By Katrina Manson

A commercial spaceflight in May will take a Carnegie Mellon-designed rover, named Iris, to the lunar surface.

An engineering model of the Iris rover at Carnegie Mellon University’s Robotics Institute. Source: Carnegie Mellon University

The US was the first and only country to put humans on the moon, but NASA has been noticeably absent from the international competition to put robots there. The USSR landed the first lunar robotic rovers in the 1970s; India tried and failed to land one in 2019. The only lunar rover in operation is China’s Yutu-2, a 300-pound machine that’s spent the past four years prowling almost two-thirds of a mile across the moon’s far side, sending back images of rocks. Greece, Japan and the United Arab Emirates are among those working on their own lunar rover programs.

It seems likely that NASA’s robots will also be beaten by a group made up primarily of students at Carnegie Mellon University. About 300 students worked on a rover named Iris that they plan to send to the moon aboard a commercial lunar lander scheduled to launch on May 4.

Nikolai Stefanov, who was a 19-year-old physics undergraduate joined up after coming across a poster advertising the project with the motto: “There is never a second chance to be first.” Given his lack of experience, he offered to fetch coffee for the people doing the technical work. Stefanov, now 22, wound up with another job: mission control director. Once the rover lands on the moon, he’ll make sure things are running smoothly.

Stefanov in the mission control observation room.Source: Carnegie Mellon University

Iris is about the size of a shoebox and weighs a little less than 4.5 pounds, which would make it the smallest and lightest rover yet to reach the moon. It’s also the first to be made from carbon fiber, rather than aluminum. Part of the reason to build such a small rover was so its creators could afford to hitch a ride on a private flight. The company operating the landing—a CMU spinoff called Astrobotic Technology—is taking 14 payloads to the moon. CMU won’t say how much Iris’s ticket cost, but the whole project has come in at $800,000. (The university has provided some of the financial backing, as have private donors, in part through a crowdfunding campaign supporting CMU’s lunar projects. Each of the 900 people who contributed, many of them students, will have their name carried to the moon in a text file aboard Iris.)

As a tool of scientific observation, Iris isn’t the most powerful instrument. It has just a single camera at the front and back, which will make distinguishing shadowy rocks from craters especially difficult. Iris has the advantage, though, of being low to the ground, meaning its camera could capture close-up images of moon dust. Despite its limitations, Iris is an undeniable step forward for the private space industry. It’s set to be the first rover not built by a nation-state to land on an extraterrestrial body. “We want to open up space to everybody,” Stefanov says.

Project lead Raewyn Duvall (standing, right) during a mission simulation with the Iris team.Source: Carnegie Mellon University

Success isn’t guaranteed. If Iris makes it past launch and survives the vibrations of space, strong electromagnetic fields and a moon landing, it still has to deal with extreme temperatures and the challenges of navigating the moon’s surface. Iris has about 50 hours of battery life, during which time its creators hope it can capture photos and send them back to Earth. Once its batteries run out, it will remain on the moon.

The official US space program puts a greater focus on Mars than on the moon. NASA has landed five rovers on the planet, the first one in 1997. It’s planning on sending its first rover, a 1,000-pound robot named Viper, to the moon in November 2024. Viper will map the moon’s resources and try to identify the location and concentration of ice.

Stefanov and a teammate create a lunarlike surface to mimic driving conditions Iris will face on the moon.Source: Carnegie Mellon University

CMU expects its students to be a fixture of lunar exploration. It’s planning another student-made rover, a $5 million project called MoonRanger and funded by NASA. MoonRanger will be designed to head to the moon’s south pole to look for ice, believed to be buried a yard or so beneath its crust. That might make the rover a good candidate to accompany NASA’s planned water-seeking mission to the moon, which is intended to land two Americans at the lunar south pole in 2025. They’d be the first humans on the moon in more than 50 years.

Raewyn Duvall, the 28-year-old project lead for Iris, previously worked at NASA and is now a Ph.D. student at CMU. She says rovers will pave the way for humans living in outer space, a scenario she says is inevitable. Rovers can prepare landing areas, then create human-friendly habitats by doing things such as extracting hydrogen and oxygen from lunar regolith—moon dust—for use as water, air and rocket fuel. “Robots are really the way to find the best locations and the resources where humans should be going next,” Duvall says.
https://www.bloomberg.com/news/articles/2023-03-29/carnegie-mellon-students-beat-nasa-to-put-robot-on-the-moon?leadSource=uverify%20wall

11 16.04.23) 2023 kwi 16 06:30 Kosmonauta.net
Falcon 9 z samolotu
Śliczne!
https://twitter.com/ilove_aviation/status/1578567347018792960

12 01.05.23)

Cytuj

Najkrótszy czas między startami orbitalnymi na Przylądku wynosi 97 m 25 s, jak ustalił Gemini 11 i jego cel dokujący Agena 12 września 1966 r.

https://twitter.com/LaunchPhoto/status/1652070604239929344

13 18.05.23) 2021 wrz 09 23:41 orionid
Uhura-1
Arianespace przy pomocy rakiety Ariane 6 planuje umieścić w 2023 roku na orbicie geostacjonarnej satelitę komunikacyjnego Uhura-1, który zdolny będzie do łączności laserowej.
więcej: https://golden.com/wiki/Skyloom-DB9W54W
https://twitter.com/Arianespace/status/1436015766722203651

14 19.05.23) 2021 wrz 11 02:02 orionid
GOES-U zostanie wyniesiony przez Falcon Heavy
NASA wybrała Falcon Heavy do umieszczenia satelity pogodowego NASA GOES-U.
Start nastąpi w 2024 roku z wyrzutni 39A w Kennedy Space Center na Florydzie .
Całkowity koszt NASA związany z wyniesieniem GOES-U określono na około 152,5 miliona dolarów.
GOES-U zapewni wysokiej jakości obrazy i pomiary atmosferyczne ziemskiej pogody, oceanów i środowiska, a także będzie zdolny do mapowanie w czasie rzeczywistym całkowitej aktywności wyładowań atmosferycznych oraz do bardziej wyrafinowanego monitorowania aktywności słonecznej i pogody kosmicznej.
https://twitter.com/SpaceX/status/1436425327849316356

15)

Cytuj

Fresh satellite industry 2022 outlook from the report by Satellite Industry Association:
⭕️ Overall space economy decline vs 2021, especially the consumer satellite services (not sure why)
❎ #spacesustainability activities (I suppose space situational awareness, in-orbit servicing, including space debris removal) are for the first time mentioned as part of the global space economy pie in the report

https://www.linkedin.com/posts/sergey-gugkaev_spacesustainability-activity-7078790450534338560-naoK

https://twitter.com/RcSboii/status/1673229867322863616

16) Przegląd rakiet nośnych i statków kosmicznych obecnie używanych.
https://twitter.com/Kosmo_Michal/status/1673735171944726548

17) 2023 sie 09 16:30 Kosmonauta.net
Jak "działa" załogowy pojazd Dragon?
Świetne nagranie! Warto to zobaczyć!

18) 2023 wrz 24 14:30 Kosmonauta.net
2016: 1450 satelitów w 10 lat
W 2016 roku firma Euroconsult przewidywała wystrzelenie 1450 satelitów o masie powyżej 50 kg.
https://kosmonauta.net/2016/09/1450-satelitow-w-najblizszej-dekadzie/
Mocno niedoszacowali!

19) 2023 gru 27 15:31 Kosmonauta.net
Spadający pierwszy stopień w Chinach
...po wykonanej pracy... wygląda to o tak:
https://twitter.com/AJ_FI/status/1739684413644972475

20) 2023 gru 27 16:30 Kosmonauta.net
Pełna rodzina radzieckich silników rakietowych
Świetne! Warto to zobaczyć!

Polskie Forum Astronautyczne · « **Odpowiedź #93 dnia:** Marzec 15, 2023, 06:31 »

Orionid · « **Odpowiedź #94 dnia:** Marzec 16, 2023, 12:33 »

Preproduction batch of Russia’s Marafon IoT satellites to be launched in 2025
29 MAR, 06:50

Cytuj

Overall, the Marafon-IoT satellite constellation designed by Reshetnev ISS will comprise 264 spacecraft

MOSCOW, March 29. /TASS/. The preproduction batch of Marafon satellites for the internet of things (IoT) will be launched in 2025, the Academician M.F. Reshetnev Information Satellite Systems (ISS) Company said in a fact sheet.

"The launch of five prototypes of the [Marafon] satellite (preproduction batch) [is due] in 2025," the design bureau said in the document, released for the Archimedes annual international exhibition of inventions and innovation technologies.

Pavel Cherenkov, the director-general of the JSC Gonets Satellite System that controls the project’s operator Sfera, told TASS earlier that the launch of the preproduction batch is scheduled for 2024.

Overall, the Marafon-IoT satellite constellation designed by Reshetnev ISS will comprise 264 spacecraft, each weighing between 50 and 70 kg. They will be positioned in 12 orbital planes at the altitude of around 750 km and have a life span of more than five years.

The 26th Archimedes annual international exhibition of inventions and innovation technologies is held in Moscow on March 20-30, 2023.

https://tass.com/science/1595789?utm_source=spacetoday.net

Crescent Space To Deliver Critical Services To A Growing Lunar Economy

Crescent's Lunar Network Provides Customers with Game-Changing Communications and Navigation Capabilities

DENVER, March 28, 2023 /PRNewswire/ -- Today, Crescent Space Services LLC announced its entry into the lunar infrastructure sector. Crescent Space is a new commercial company launched by Lockheed Martin (NYSE: LMT) that provides infrastructure-as-a-service for lunar missions.

Why Invest in Lunar Infrastructure?

As humankind expands its presence beyond low-Earth orbit, one of the first key challenges is uninterrupted communications between Earth, the Moon, and the growing number of lunar missions. To do this seamlessly – especially on the far side of the Moon – customers need a network that helps them talk over vast distances, like what cell towers enable here on Earth.
https://news.lockheedmartin.com/2023-03-28-Crescent-Space-to-Deliver-Critical-Services-to-a-Growing-Lunar-Economy

LOCKHEED MARTIN TO OFFER COMMUNICATIONS, NAVIGATION SERVICES ON THE MOON
By Marcia Smith | Posted: March 28, 2023 11:39 pm ET | Last Updated: March 28, 2023 11:49 pm ET

Lockheed Martin has created a subsdiary, Crescent, to provide communications and navigation services on the Moon. Crescent will own and operate a constellation of satellites around the Moon to enable uninterrupted communications between Earth and people and spacecraft in orbit and on the lunar surface, including the farside.
https://spacepolicyonline.com/news/lockheed-martin-to-offer-communications-navigation-services-on-the-moon/

Cnr-Iia, D-Orbit e Brown University School of Engineering celebrano il successo della missione "Sbudnic"
30/03/2023

Il grafico mostra quanto sia più bassa l'orbita di SBUDNIC, rappresentata dalla linea blu spessa, a confronto con altri satelliti simili rilasciati dalla missione Transporter-5, tra fine maggio 2022 e inizio marzo 2023

Il satellite Sbudnic, costruito dagli studenti della Brown University con la collaborazione scientifica dell’Istituto sull’inquinamento atmosferico del Consiglio nazionale delle ricerche (Cnr-Iia) e il supporto di D-Orbit, oltre ad AMSAT-Italia, Dipartimento di Ingegneria Meccanica ed Aerospaziale (DIMA) di Sapienza Università di Roma e NASA Rhode Island Space Grant, ha dispiegato con successo il suo dispositivo di trascinamento, una innovativa drag sail in poliamide Kapton stampata in 3D progettata per aumentare la resistenza aerodinamica del satellite e accelerarne il decadimento orbitale dai nominali 25-27 anni a soli 5 anni, riducendo i tempi di rientro del satellite dell’80%.
https://www.cnr.it/it/nota-stampa/n-11824
https://twitter.com/D_Orbit/status/1641446623896277004
https://twitter.com/momentusspace/status/1647970059422400512

Orionid · « **Odpowiedź #95 dnia:** Marzec 23, 2023, 11:31 »

Wybrane 1-sze starty rakiet lub ich wariantów

2006 Pierwszy Falcon - start zakończony katastrofą [4. próba udana]
http://lk.astronautilus.pl/n060316.htm#03

2010 Wystartował pierwszy Falcon-9!
http://lk.astronautilus.pl/n100601.htm#05

2012 Pierwsza Vega, pierwszy polski satelita
https://www.forum.kosmonauta.net/index.php?topic=895.msg174320#msg174320

2013 Pierwszy lot Antaresa
http://lk.astronautilus.pl/n130416.htm#03

2013 Pierwszy start Epsilona-X
http://lk.astronautilus.pl/n130901.htm#07

2013 Wystartowała nowa rakieta "made in China"
http://lk.astronautilus.pl/n130916.htm#04

2016 CZ-5 - Chiny w klubie ciężkich rakiet
https://www.forum.kosmonauta.net/index.php?topic=2585.msg98658#msg98658

Cytuj

2017 Drugi start CZ-5 nieudany
https://www.forum.kosmonauta.net/index.php?topic=2897.msg106674#msg106674

Orionid · « **Odpowiedź #96 dnia:** Maj 29, 2023, 12:35 »

Historyczne loty kosmiczne i suborbitalne (1)
cz 2 https://www.forum.kosmonauta.net/index.php?topic=4133.msg185000#msg185000

16.04.1946 V-2 White Sands

13.05.1948 Bumper-WAC White Sands, Test

21.04.1955 15:58 Aerobee Hi Holloman

17.03.1958 Vanguard Canaveral LC 18A Vanguard 1

21.03.1958 Atlas Agena B Canaveral LC-12 , Ranger 9

03.03.1959 Juno-2 Canaveral LC-5, Pioneer 4

28.05.1959 Jupiter IRBM Cape Canaveral LC-26B, Bioflight 2 Test

09.09.1959 Atlas 10-D Canaveral LC-14, Mercury Big Joe 1

11.03.1960 Thor-DM18 Able-4 Canaveral LC 17A, Pioneer 5

01.04.1960 Thor Able II Canaveral LC-17A, Tiros 1

22.06.1960 Thor Ablestar Canaveral LC-17B, Transit 2A, GREB 1 (Solrad 1)

16.02.1961 Scout-X1 Wallops LA-3, Explorer 9

21.02.1969 N-1 11A52 Bajkonur LC-110R

21.02.1961 Atlas 2 Canaveral LC-14, Mercury- (MA-2)

22.02.1961 Veronique Hammaguira Blandine, Life Science mission (Hector)

05.05.1961 Redstone MRLV Canaveral Mercury 3 Freedom 7

26.04.1962 Thor Delta Cape Canaveral LC-17A, Ariel 1

10.07.1962 Thor-Delta Canaveral LC-17B, Telstar 1

14.02.1963 Delta-B Canaveral LC-17B, Syncom 1

28.03.1963 Saturn I (SA-4) Canaveral LC-34, testowy lot suborbitalny RN

02.04.1963 Mołnia 8K78 Bajkonur 1/PU Łuna-4

03.04.1963 Thor Delta B Canaveral LC-17A, Explorer 17

13.04.1963 Kosmos 63S1 Kapustin Jar Majak-2, Kosmos 14

07.05.1963 Thor Delta B Cape Canaveral LC-17B, Telstar 2

15.05.1963 Atlas D Canaveral LC-14, Mercury 9 MA-9/Faith 7

14.06.1963 Wostok 8K72K Bajkonur LC-1 Wostok 5

16.06.1963 Wostok 8K72K Bajkonur LC-1 Wostok 6

19.06.1963 Thor Delta B Canaveral LC-17B, Tiros 7

08.04.1964 Titan II Canaveral LC-19, Gemini I

28.05.1964 Saturn I Canaveral LC-37B, Apollo CSM Boilerplate (AS-101, SA-6)

17.02.1965 Atlas-LV3 Agena-B Canaveral LC-12, Ranger 8

21.03.1965 Atlas Agena B Canaveral LC-12, Ranger 9

29.05.1965 Thor Delta C Canaveral LC-17B, Explorer 28

26.02.1966 Saturn IB Canaveral LC-34, Apollo CSM -009

31.03.1966 Mołnia-M (Blok-L) Bajkonur 31/PU, Łuna 10

30.05.1966 Canaveral LC-36A Atlas-LV3C Centaur-D, Surveyor 1

05.05.1967 Scout A Vandenberg SLC5, Ariel 3

30.05.1967 Scout B Vandenberg SLC-5, ESRO 2A

12.06.1967 Mołnia 8K78M Bajkonur LC-1, Wieniera-4

14.06.1967 Atlas SLV-3 Agena D Canaveral LC-12, Mariner 5

01.02.1968 Juno-1 Canaveral SLC-26A, Explorer-1

22.01.1968 Saturn IB KSC LC 37B, Apollo 5 (LM 1)

04.04.1968 Saturn V Canaveral LC-39A, Apollo 6 (CM 020/SM 014)

09.04.1968 Veronique AGI Kourou ALFS, FU184

17.05.1968 Scout B Vandenberg SLC 5, ESRO-2B

25.02.1969 Atlas SLV-3C Centaur Canaveral LC-36B, Mariner 6

27.03.1969 Atlas SLV-3C Centaur Canaveral LC-36A, Mariner 7

16.07.1969 Saturn V Canaveral LC-39A, Apollo 11/AS-506 Columbia/Eagle

11.02.1970 Lambda 4S Kagoshima, Ohsumi 5

10.03.1970 Diamant B Kourou, DIAL-WIKA, Dial MIKA

11.04.1970 Saturn V Canaveral LC-39A Apollo 13 (Odyssey/Aquarius)

12.09.1970 Proton-K/Blok-D Bajkonur LC-81/23 Łuna 16

30.05.1971 Atlas SLV-3C Centaur Canaveral LC-36B, Mariner 9

16.04.1972 Saturn V Canaveral LC-39A Apollo 16 (CSM:Casper i LM:Orion)

03.04.1973 Proton-K Bajkonur 81/PU-23, Salut 2 (Ałmaz)

06.04.1973 Atlas SLV-3D Centaur Canaveral LC-36B, Pioneer 11

19.04.1973 10:19 Kosmos 11K63 Kapustin Jar LC- 86/4, Interkosmos 9 (Kopernik 500)

14.05.1973 Saturn V Canaveral LC-39A, Skylab (Skylab 1)

21.05.1973 Diamant B Kourou Diamant, Castor i Pollux

25.05.1973 Saturn IB Cape Canaveral LC-39B, Skylab 2

07.06.1973 Super Arcas Kourou, EXAMETNET 35-22

10.06.1973 Delta 1913 Canaveral LC-17B, Explorer 49

15.07.1975 Sojuz-U Bajkonur LC-1, Sojuz 19 EPAS Sojuz

15.07.1975 Saturn IB Canaveral LC-39-B, Apollo ASTP/AS-210

04.05.1976 Delta 2913 Vandenberg SLC2W, LAGEOS

20.04.1977 10:15 Delta 2914 Canaveral LC-17B, ESA-GEOS 1

16.06.1977 Delta 2914 Canaveral LC-17B, GOES 2

05.09.1977 Titan IIIE Canaveral LC-41, Voyager 1

10.01.1978 Sojuz-U Bajkonur LC1 Sojuz 27

20.01.1978 Sojuz-U Baikonur LC31, Progress 1

15.06.1978 Sojuz-U Bajkonur LC-1, Sojuz 29

16.06.1978 Delta 2914 Canaveral LC-17B, GOES 3

27.06.1978 Thor Ablestar Vandenberg SLC-3W, Seasat 1

27.06.1978 Sojuz-U Bajkonur LC-1, Sojuz 30 Salut-6/IK Kawkaz

14.07.1978 Delta 2914 Canaveral LC-17A, ESA GEOS 2

26.08.1978 Sojuz-U Bajkonur LC-1 Sojuz 31 Salut-6/IK Jastrieb

10.04.1979 Sojuz-U Bajkonur 31/PU Sojuz-33

12.04.1981 Shuttle Canaveral LC-39A/23 Edwards AFB, STS-1 Columbia/F-1

19.06.1981 Ariane 1 Kourou ELA1, Meteosat 2, Apple, CAT 3,

22.03.1982 Shuttle Canaveral LC-39A/SH White Sands, STS-3 Columbia F3 (Launch 106782 kg, Landing 93924 kg, Payload 10301 kg)

27.06.1982 STS-4 Columbia/F-4 Canaveral LC-39A/22 Edwards AFB

04.04.1983 Shuttle STS-6 Challenger/F-1 Canaveral LC-39A/22 Edwards AFB TDRS 1 [IUS]

20.04.1983 13:10 Sojuz-U Bajkonur LC-1, Sojuz T-8

26.05.1983 Delta 3914 Vandenberg SLC-2W, EXOSAT

16.06.1983 Ariane-1 Kourou ELA1, Eutelsat-1, AMSAT P3B

18.06.1983 STS-7 Challenger/F-2 KFC LC-39A/15 Edwards AFB, Anik C2, Palapa B1, [SPAS-1]

02.07.1985 Ariane 1 Kourou ELA1, Giotto

11.03.1988 Ariane 3 Kourou ELA1 Telecom 1C, Spacenet F3R

17.03.1988 Wostok-2M Bajkonur LC-31 , IRS-1A

17.05.1988 Ariane 2 Kourou ELA-1, Intelsat 5-F13

07.06.1988 Sojuz-U2 Bajkonur LC-1, Sojuz TM-5

06.03.1989 Ariane 44LP (V29) Kourou ELA2, JCSAT 1, Meteosat 4

15.06.1988 Ariane 44LP Kourou ELA2, Meteosat 3, PAS 1, AMSAT P3C

12.07.1989 Ariane 3 Kourou ELA-1, Olympus-1

18.10.1989 STS-34 Atlantis/F-5 Canaveral LC-39B, Galileo, (SSBUV-1, SSBUV-2)

05.04.1990 Pegasus XL Edwards Air Force Base (AFB)/B-52, Pegsat, SECS

24.04.1990 STS-31 Discovery/F-10 Canaveral LC-39B/22 Edwards AFB HST

02.03.1991 Ariane 44LP Kourou ELA-2, Astra 1B, Meteosat 5

07.06.1992 Delta 6920-10 Canaveral LC-17A, EUVE (Explorer 67)

13.01.1993 STS-54 Endeavour/F-3 Canaveral LC-39B/SLF (RW33) KSC. TDRS 6 [IUS]

24.01.1993 Sojuz-U2 Bajkonur LC1 Sojuz TM-16 Mir OE-13

20.02.1993 M-3S-2 Kagoshima M1, Astro D

08.04.1993 STS-56 Discovery/F-16 Canaveral LC-39B/KSC SLF (RW33), (SPARTAN-201 F1)

26.04.1993 STS-55 Columbia/F-14 Canaveral LC-39A/22 Edwards AFB, (Spacelab D-2)

12.05.1993 Ariane 42L Kourou ELA2, Astra 1C, Arsene

25.01.1994 Titan II SLV Vandenberg SLC4W, Clementine, ISA

21.04.1995 01:44 Ariane-40 H10+ Kourou ELA-2, ERS 2

11.01.1996 STS-72 Endeavour/F-10 KSC LC-39B/SLF (RW15) , (Spartan 206-F1 OAST-Flyer)

17.02.1996 Delta 7925-8 Canaveral LC-17B, NEAR Shoemaker

30.04.1996 Atlas I Canaveral LC-36B, SAX

10.02.1997 Sojuz-U-PVB Baikonur LC-1 Sojuz TM-25

23.02.1997 Titan IVB/IUS Canaveral LC-40, DSP 18 (USA 130)

15.05.1997 STS-84 Atlantis/F-19 Canaveral LC-39A/SLF (RW33) KSC {Spacehab}

15.10.1997 Titan 401B/Centaur Canaveral LC-40 Cassini/Huygens

Orionid · « **Odpowiedź #97 dnia:** Czerwiec 17, 2023, 20:59 »

Historyczne loty kosmiczne i suborbitalne (2)

23.01.1998 STS-89 Endeavour/F-12 Canaveral LC-39A/SLF (RW15) KSC, {SPACEHAB}, połączenie z Mirem

29.01.1998 Sojuz-U-PVB Bajkonur LC1 Sojuz TM-27 Mir OE-25

04.02.1998 Ariane 44LP Kourou ELA2 Brasilsat B3, Inmarsat 3 F5

27.02.1998 Ariane 42P (Ariane V106) Kourou ELA-2, Hot Bird 4

24.03.1998 Ariane-40 H10-3 Kourou ELA2, SPOT 4

28.04.1998 Ariane-44P H10-3 Kourou ELA2, Nilesat, BSAT 1B

03.07.1998 M-5 [KM-V1] Kagoshima M-V, Nozomi

29.10.1998 STS-95 Discovery/F-25 Canaveral LC-39B [Spacehab-SM], {SPARTAN-201-5}, PANSAT

20.11.1998 Proton-K Bajkonur LC-81L Zarja

20.02.1999 Sojuz-U-PVB Bajkonur LC-1, Sojuz TM-29

23.07.1999 STS-93 Columbia/F-26 Canaveral LC-39B/KSC SLF (RW33) , Chandra

07.04.2001 Delta-2 (7925) Canaveral LC17A,    2001 Mars Odyssey

30.06.2001 Delta-2 (7425) Canaveral LC-17A, MAP

12.07.2001 STS-104 Atlantis/F-24 ISS-7A Canaveral LC-39B/SLF (RW15) KSC, [Quest, zbiorniki tlenu i azotu (HP Gas).

05.02.2002 Pegasus XL Canaveral, HESSI

01.03.2002 Ariane-5 Kourou ELA-3, Envisat

05.07.2002 Ariane-5 Kourou ELA-3, Stellat 5, N-Star 6

28.04.2003 Pegasus-XL Canaveral, GALEX

09.05.2003 M-V    Kagoshima, Hayabusa=MUSES-c

02.06.2003 Sojuz-FG/Fregat Bajkonur LC31, Mars Express, Beagle-2

10.06.2003 Delta-2 (7925) Canaveral SLC-17A,    MER-A/Spirit

11.06.2003 Ariane-5G Kourou ELA-3, Optus C1, B-Sat 2c

29.08.2003 Sojuz-U Bajkonur LC1, Progress M-48

15.10.2003 CZ-2F Jiuquan SLS Shenzhou-5

21.06.2004 Spaceship One Mojave RW12/30 WK1

20.11.2004 Delta-2 (7320) Canaveral SLC17A Swift

12.02.2005 Ariane-5 ECA Kourou ELA-3 XTAR-EUR, Sloshsat, MaqSat-B2

27.09.2007 Delta-2 (7925H) Canaveral SLC-17B Dawn

09.03.2008 Ariane-5ESV Kourou ELA-3 ATV-1

18.04.2008 Ariane-5ECA Kourou ELA-3, Vinasat-1, Star One C2

26.04.2008 Sojuz-FG/Fregat Bajkonur 31/PU-6, GIOVE-B

11.06.2008 Delta-2 (7920H-10C) Canaveral SLC-17B, Fermi GST (Gamma-ray Space Telescope)

12.06.2008 Ariane-5ECA Kourou ELA-3, Skynet-5C, Türksat-3A

20.06.2008 Delta-2 (model 7320-10C) Vandenberg SLC-2W, Jason-2

17.03.2009 Rokot/Briz-KM Plesieck 133/PU-3 GOCE

11.05.2009 STS-125 Atlantis/F-30 HST SM-4 Canaveral LC-39A/RW22 Edwards AFB

14.05.2009 Ariane-5ECA Kourou ELA-3, Herschel, Planck

18.06.2009 Atlas-5/401 Canaveral SLC-41, LRO, LCROSS

28.10.2009 Ares-1 KSC LC-39B Orion (makieta)

08.04.2010 Dniepr Bajkonur 109/PU-95, CryoSat-2

12.10.2011 PSLV-CA Sriharikota FLP , 4 satelity

23.03.2012 Ariane-5ESV Kourou ELA-3, ATV-3 "Edoardo Amaldi"

22.05.2012 Falcon-9 v1.0 Canaveral SLC-40, Dragon C2+

13.06.2012 L-1011 "Stargazer"/Pegasus-XL Kwajalein,    NuSTar

16.06.2012 CZ-2F/G Jiuquan 921,    Shenzhou-9

01.03.2013 Falcon-9 v1.0 Canaveral SLC-40, Dragon SpX-2

28.03.2013 Sojuz-FG Bajkonur 1/PU-5 Sojuz TMA-08M

11.06.2013    CZ-2G Jiuquan 43/921,    Shenzhou-10

20.11.2013 Minotaur-1 Wallops LP-0B , 29 satelitów

07.05.2013 Vega ZLV Kourou, Proba-V, VNREDSat-1A, ESTCube-1

18.09.2013 Antares-110 Wallops LA-0A, Cygnus D1 (COTS Demo, G. David Low)

03.04.2014 Sojuz-STA/Fregat-M Kourou ELS, Sentinel-1A

02.07.2014 Delta-2 (7320-10C) Vandenberg SLC-2W, OCO-2

23.06.2015 Vega Kourou ZLV, Sentinel-2A

21.12.2015 Sojuz-2.1a Bajkonur 31/PU-6, Progress MS-01

Orionid · « **Odpowiedź #98 dnia:** Czerwiec 27, 2023, 17:49 »

Historyczne loty kosmiczne i suborbitalne (3)

Orionid · « **Odpowiedź #99 dnia:** Lipiec 01, 2023, 21:33 »

Starty 2023
cz 2 USA... https://www.forum.kosmonauta.net/index.php?topic=4133.msg185559#msg185559
cz 3 SpaceX https://www.forum.kosmonauta.net/index.php?topic=4133.msg185737#msg185737

Chiny

23.02. CZ-3B/G3 Xichang
Zhongxing-26 GEO
24.02. CZ-2C Jiuquan LC-43/91
Horus-1
09.03. CZ-4C Y51 Taiyuan LC-9
Tianhui-6A
Tianhui-6B
13.03. CZ-2C Jiuquan LC-43/94
Horus-2
15.03. CZ-11 Jiuquan LC-43/95A
Shiyan-19
17.03. CZ-3B 2 Y90 Xichang LC-2
Gaofen-13 (02)
22.03. Kuaizhou-1A Jiuquan
Tianmu-1 03
Tianmu-1 04
Tianmu-1 05
Tianmu-1 06
30.03. CZ-2D Taiyuan LC-9
Hongtu-1 01A
Hongtu-1 01B
Hongtu-1 01C
Hongtu-1 01D
31.03. CZ-4C Jiuquan
Yaogan-34 04
02.04. Tianlong-2 Jiuquan
Jinta (Aitaikong Kexue) (8 kg)
07.04. SQX-1 Jiuquan LC-43/95A
16.04. CZ-4B Jiuquan LC-43/94
Fengyun-3 07
10.05. CZ-7 Wenchang LC-201
Tianzhou-6
17.05. CZ-3B Xichang LC-3
Beidou-3 G4 (4600 kg) GEO
21.05. CZ-2C Jiuquan
MSS-1
MSS-2
Luojia-2 01
30.05. CZ-2F Jiuquan LC-43/91
Shenzhou-16
07.06. Lijian-1 Jiuquan LC-43/130
SY 24A
SY 24B
Fucheng 1 (300 kg)
Xi'an Hangtou 8
Xingshidai 16 ?
Tianyi 26 ?
20 innych satelitów
09.06. KZ-1A Jiuquan LC-43/95A
Longjiang-3 (120 kg)
15.06. CZ-2D Taiyuan LC-9
[Jilin-1 x 41]
20.06. CZ-6 Taiyuan LC-16
Shiyan-25
09.07. CZ-2C/YZ-1S Jiuquan LC-43/95
Hulianwang 1
Hulianwang 2
12.07. Zhuque-2 Jiuquan LC-43/96
-
20.07. Kuaizhou-1A Jiuquan LC-43/95B
Tianmu-1 07
Tianmu-1 08
Tianmu-1 09
Tianmu-1 10
22.07. Gushengxing-1 Jiuquan LC43/95A
Qiankun-1
Taian
23.07. CZ-2D Taiyuan LC-9
Yinhe Hangtian Lingxi 03
Sixiang 01
Sixiang 01
Sixiang 01
26.07. CZ-2D Xichang LC-3
Yaogan-36-05A
Yaogan-36-05B
Yaogan-36-05C
03.08. CZ-4C Jiuquan LC-43/94
Fengyun-3F (2250 kg)
08.08. CZ-2C Taiyuan LC-9
Huanjing Jianzai-2 06
10.08. Gushenxing-1 Jiuquan LC-43/95A
Xiguang-1 01
Xi'an Hangtou 06
Xi'an Hangtou 88
Xi'an Hangtou 104
Xi'an Hangtou 112
Diwei Zhineng Yingji 1 (Henan Ligong 1, WonderJourney 1A, WJ 1A)
Xingchi 1B
12.08. CZ-3B/G3 Xichang LC-2
Ludi Tance 4A
14.08. Kuaizhou-1A Xichang LC-4
Hede-3A (45 kg)
Hede-3B (45 kg)
Hede-3C (45 kg)
Hede-3D (45 kg)
Hede-3E (45 kg)
20.08. CZ-4C Jiuquan LC-43/94
Gaofen-12 04
25.08. Gushenxing-1 Jiuquan LC-43/95A
Jilin-1 Kuangfu 02A (~230 kg)
31.08. CZ-2D Xichang LC-3
Yaogan 39-01A
Yaogan 39-01B
Yaogan 39-01C
05.09. Gushenxing-1S De Fu 15002, M. Żółte
Tianqi 21 (Hefei Gaoxin 1) (~50 kg)
Tianqi 22 (~50 kg)
Tianqi 23 (~50 kg)
Tianqi 24 (~50 kg)
06.09. CZ-4C Jiuquan LC-43/94
Yaogan-33 03
10.09. CZ-6A Taiyuan LC-9A
Yaogan-40A
Yaogan-40B
Yaogan-40C
17.09. CZ-2D Xichang LC-3
Yaogan-39 02A
Yaogan-39 02B
Yaogan-39 02C
21.09. Gushenxing-1 Jiuquan
Jilin-1 Gaofen 04B
26.09. CZ-4C Jiuquan LC-43/94
Yaogan-33 04

Orionid · « **Odpowiedź #100 dnia:** Lipiec 12, 2023, 22:31 »

2023

USA

United Launch Alliance

22.06. Delta-4H Canaveral SLC-37B
NRO L-68 [Orion 11 (RIO 11, Mission 8307, Mentor 9)]
10.09. Atlas-5/551 Canaveral SLC-41
Silentbarker 1 (USA 346, NROL 107)
Silentbarker 2 (USA 347, NROL 107)
Silentbarker 3 (USA 348, NROL 107)

Northrop Grumman

02.08. Antares-230+ Wallops LP-0A
Cygnus CRS-19 (NG 19, SS Laurel Clark) [7492 kg (#4)]
DUPLEX
SeaLion (VSCP 1A)
Ut-ProSat 1 (VSCP 1B) CubeSat (3U)

Rocket Lab

16.03. Electron/Curie Wallops LA-0C
Capella-9 (112 kg)
Capella-10 (112 kg)
24.03. Electron/Curie Onenui LC-1B
BlackSky 18 (BlackSky Global 19 ?) (56 kg)
BlackSky 19 (BlackSky Global 21 ?)
08.05. Electron/Curie Onenui LC-1B
TROPICS 05 CubeSat (3U) (5.3 kg)
TROPICS 06 CubeSat (3U) (5.3 kg)
26.05. Electron/Curie Onenui LC-1B
TROPICS 06 CubeSat (3U) (5.3 kg)
TROPICS 07 CubeSat (3U) (5.3 kg)
18.07. Electron/Curie Onenui Station LC-1B
Telesat LEO 3 (LEO Vantage 3) (30 kg)
Starling 1 CubeSat (6U)
Starling 2 CubeSat (6U)
Starling 3 CubeSat (6U)
Starling 4 CubeSat (6U)
Lemur-2 169 CubeSat (3U) (4 kg)
Lemur-2 170 CubeSat (3U) (4 kg)
23.08. Electron/Curie Onenui LC-1B
Acadia-1 (~165 kg)
19.09. Electron/Curie Onenui LC-1B
Acadia-2

Relativity Space

23.03. Terran-1 Canaveral SLC-16
[#GLHF]

Firefly Space Systems

15.09. Firefly Alpha Vandenberg SLC-2W
Victus Nox (TacRS 3)

Rosja

05.02. Proton-M/DM-03 Bajkonur 81/PU-24
Elektro-Ł No. 4 GEO
09.02. Sojuz-2.1a Bajkonur 31/PU-6
Progress MS-22
24.02. Sojuz-2.1a Bajkonur 31/PU-6
Sojuz MS-23 (bezzałogowy)
12.03. Proton-M/Briz-M Bajkonur 200/PU-39
Olimp-K 2 (Łucz-4, Łucz-5Ch 2) GEO
23.03. Sojuz-2.1a Plesieck 43/PU-3
Kosmos 2567
29.03. Sojuz-2.1w Plesieck 43/PU-3
Kosmos 2568
24.05. Sojuz-2.1a Bajkonur 31/PU-6
Progress MS-23
26.05. Sojuz-2.1a/Fregat Wostocznyj 1S
Kondor-FKA Nr 1 (1050 kg)
27.06. Sojuz-2.1b/Fregat Wostocznyj 1S
Meteor-M 2-3 i 42 małe satelity
07.08. Sojuz-2.1b/Fregat Plesieck 43/PU-3
Kosmos 2569
10.08. Sojuz-2.1b/Fregat Wostocznyj 1S
Łuna-25
23.08. Sojuz-2.1a Bajkonur 31/PU-6
Progress MS-24
15.09. Sojuz-2.1a Bajkonur 31/PU-6
Sojuz MS-24

Japonia

07.03. H-3 (22S) Tanegashima Y/LP-2
Daichi-3 (~3000 kg)
06.09. H-2 (202) Tanegashima Y/LP-1
XRISM (2300 kg) satelitę astronomicznego
SLIM (730 kg) lądownik księżycowy

Indie

10.02. SSLV Sriharikota FLP
EOS 07 (156 kg)
AzaadiSAT 2 (9 kg)
Janus 1 CubeSat (6U) (10 kg) USA
26.03. LVM3 Sriharikota SLP
OneWeb L18-1 - OneWeb L18-36 (36 x 147 kg)
22.04. PSLV-CA Sriharikota FLP
TeLEOS-2 (741 kg) (Singapur)
Lumelite-4 CubeSat 12U (16 kg) (Singapur)
POEM-2 (platforma do eksperymentów zintegrowana z 4. stopniem RN -pl. czas lotu ok. 1 miesiąc) (Indie)
29.05. GSLV Mk 2 Sriharikota SLP
NVS-01 (2232 kg) GEO
14.07. LVM-3 Sriharikota SLP
Chandrayaan 3 (3900 kg) [2148 kg orbiter]
Chandrayaan 3 / Vikram 2 1752 kg (lander + rover); 26 kg (rover)
30.07. PSLV-CA Sriharikota FLP
DS-SAR, Singapur
VELOX AM (23 kg), Singapur
ARCADE (INSPIREsat 4) (23 kg), Singapur
ORB-12 Strider CubeSat (12U) UK
Galassia 2 CubeSat (3U), Singapur
NuLIoN CubeSat (3U), Singapur
SCOOB 2 (S3 2) (4,1 kg) CubeSat (3U), Singapur
02.09. PSLV-XL Sriharikota SLP
Aditya-L1 (1475 kg) L1 układu Słońce-Ziemia

Izrael

28.03. Shavit-2 Palmachim
Ofeq-13 (260 kg)

Europa

14.04. Ariane-5ECA+ Kourou ELA-3
JUICE (5963 kg)
05.07. Ariane-5ECA+ Kourou ELA-3
Heinrich Hertz (3408 kg) GEO
Syracuse 4B (3572 kg) GEO

Korea Południowa

25.05. Nuri Naro LP-2
NEXTSat 2 (150 kg)
SNIPE A (Doyosaet 1, KASI-SAT A) CubeSat (6U) (10 kg)
SNIPE B (Doyosaet 2, KASI-SAT B) CubeSat (6U) (10 kg)
SNIPE C (Doyosaet 3, KASI-SAT C) CubeSat (6U) (10 kg) (6U) (10 kg)
SNIPE D (Doyosaet 4, KASI-SAT D)
Lumir-T1
KSAT3U
JAC (JLC-101-v1-2)

Korea Północna

30.05. Chollima-1 Sohae LC-1
Malligyong-1
23.08. Chollima-1 Sohae LP-2
Malligyong-2

Iran

27.09. Qased Shahroud LC-1
Noor-3

Orionid · « **Odpowiedź #101 dnia:** Lipiec 21, 2023, 06:40 »

SpaceX (2023) cz 1

03.01. Falcon-9R B1060.15 Canaveral SLC-40/LZ-1 Floryda
YAM 5 (83 kg) USA
Lynk Tower 03 USA
Lynk Tower 04
Umbra-SAR 04 (65 kg) USA
Umbra-SAR 05
EOS-SAT 1 (EOS Agrisat-1) (178 kg) RPA
ICEYE X21 Finland, US
ICEYE X22
ICEYE X27
ÑuSat 32 (NewSat 32, Aleph-1 32, Albania 1)
ÑuSat 33 (NewSat 35, Aleph-1 33, Albania 2)
ÑuSat 34 (NewSat 34, Aleph-1 34, Amelia Earhart)
ÑuSat 35 (NewSat 35, Aleph-1 35, Williamina Fleming) ▲
Skykraft Deployer 1    Australia
Skykraft 1 Australia
Skykraft 2
Skykraft 3
Skykraft 4
Skykraft 5 ▲
Chimera LEO-1 USA
ION-SCV 007 (Glorious Gratia) Włochy
ION-SCV 008 (Fierce Franciscus) Włochy
Astrocast 0401 CubeSat (3U) (5 kg) Szwajcaria
Astrocast 0402
Astrocast 0403
Astrocast 0404 ▲
Futura 1 CubeSat (3U) Włochy
Futura 3 CubeSat (3U) Włochy
Kelpie 1 CubeSat (3U) Szwecja
Sharja-Sat 1 CubeSat (3U) ZEA
TAUSAT 2 CubeSat (3U) izrael
Orbiter SN1 (CubeSat deployers) USA
(Skyline Celestial)
MDQSAT 1A (Juana Azurduy)    CubeSat (0.5U) Argentyna
MDQSAT 1B (Simón Bolivar) CubeSat (0.5U) Argentyna
(NPC Spacemind)
PROVES-Yearling    CubeSat (1U) (1.75 kg) USA
SAPLING 1 CubeSat (1U) (1.75 kg) USA
Unicorn 2G PocketQube (3P) (< 1 kg) UK
Unicorn 2H PocketQube (3P) (< 1 kg) UK
Vigoride 5 Satellite deployment USA
ZEUS 1 CubeSat (3U) Singapur
KSF 3A CubeSat (6U) Luksemburg
KSF 3B
KSF 3C
KSF 3D ▲
Flock-4y 1 (Dove 2415) CubeSat (3U) (5 kg) USA
Flock-4y 2 (Dove 24a1)
Flock-4y 3 (Dove 242e)
Flock-4y 4 (Dove 24B0)
Flock-4y 5 (Dove 24B4)
Flock-4y 6 (Dove 24AF)
Flock-4y 7 (Dove 2417)
Flock-4y 8 (Dove 24AB)
Flock-4y 9 (Dove 24A8)
Flock-4y 10 (Dove 24C3)
Flock-4y 11 (Dove 24A7)
Flock-4y 12 (Dove 24CF)
Flock-4y 13 (Dove 24C7)
Flock-4y 14 (Dove 24B5)
Flock-4y 15 (Dove 24B3)
Flock-4y 16 (Dove 24C9)
Flock-4y 17 (Dove 24C2)
Flock-4y 18 (Dove 24CE)
Flock-4y 19 (Dove 24A9)
Flock-4y 20 (Dove 24CA)
Flock-4y 21 (Dove 24BA)
Flock-4y 22 (Dove 24C1)
Flock-4y 23 (Dove 24BC)
Flock-4y 24 (Dove 24B9)
Flock-4y 25 (Dove 24B2)
Flock-4y 26 (Dove 24C4)
Flock-4y 27 (Dove 24C8)
Flock-4y 28 (Dove 24B1)
Flock-4y 29 (Dove 24BB)
Flock-4y 30 (Dove 24C0)
Flock-4y 31 (Dove 24BE)
Flock-4y 32 (Dove 24B6)
Flock-4y 33 (Dove 24BF)
Flock-4y 34 (Dove 24CC)
Flock-4y 35 (Dove 24C5)
Flock-4y 36 (Dove 24D0)
Lemur-2 157 (Lemur-2 Disclaimer)    CubeSat (3U) (4 kg) USA
Lemur-2 158 (Lemur-2 Emmaculate)
Lemur-2 159 (Lemur-2 FuenteTaja-01)
Lemur-2 160 (Lemur-2 MMolo)
Lemur-2 161 (Lemur-2 PhilAri)
Lemur-2 162 (Lemur-2 SteveAlbers)
SpaceBEE 156 CubeSat (0.25U) (0,25 kg) USA
SpaceBEE 157
SpaceBEE 158
SpaceBEE 159
SpaceBEE 160
SpaceBEE 161
SpaceBEE 162
SpaceBEE 163
SpaceBEE 164
SpaceBEE 165
SpaceBEE 166
SpaceBEE 167
EWS RROCI CubeSat (12U) GEO USA
BRO 8 CubeSat (6U) (6 kg) Francja
Gama Alpha    CubeSat (6U) Francja
Menut (GENEO)    CubeSat (6U) Hiszpania/UK
MilSpace2 1 (Birkeland) CubeSat (6U) (10 kg) Norwegia, Holandia
MilSpace2 2 (Huygens)
NSLSat 2    CubeSat (6U) Izrael
Platform 2 (SharedSat 2211) CubeSat (6U) Bułgaria
Star-Vibe    CubeSat (6U) Polska
Sternula 1 CubeSat (6U) Dania
EYE 1    CubeSat (6U) Japonia
Connecta T1.2 CubeSat (3U) Turcja
Guardian alpha CubeSat (3U) Hiszpania
PolyITAN-HP-30    CubeSat (2U) (2 kg) Ukraina
KuwaitSat 1 CubeSat (2U) (2 kg) Kuwejt
BDSAT 2 CubeSat (1U) (1 kg) Czechy
Pushan Alpha (3U) Kuwejt
10.01. Falcon-9R B1076.2 Canaveral SLC-40/LZ-1 Floryda
OneWeb L16-1 - OneWeb L16-1 (40x147 kg)
02.02. Falcon-9R B1069.5 KSC LC-39A
Starlink v1.5 G5-3-1 - Starlink v1.5 G5-3-53 (53x~300 kg)
07.02. Falcon-9R B1073.6 Canaveral SLC-40/ASDS JRTI Atlantyk
Amazonas Nexus (4500 kg) Hiszpania GEO
12.02. Falcon-9R B1062.12 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v1.5 G5-4-1 - Starlink v1.5 G5-4-55 (55x~300 kg)
17.02. Falcon-9R B1063.9 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v1.5 G2-5-1 - Starlink v1.5 G2-5-51 (51x~300 kg)
18.02. Falcon-9R B1077.3 Canaveral SLC-40/ASDS JRTI Atlantyk
Inmarsat GX6B GEO
27.02. Falcon-9R B1076.3 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-1-1 - Starlink v2-Mini G6-1-21 (21x~750 kg)
02.03. Falcon-9R B1078.1 KSC LC-39A/ASDS JRTI Atlantyk
Dragon Crew-6
03.03. Falcon-9R B1061.12 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
     Starlink v1.5 G2-7-1 - Starlink v1.5 G2-7-1 (51x~300 kg)
09.03. Falcon-9R B1062.13 Canaveral SLC-40/LZ-1 Floryda
     OneWeb L17-1 - OneWeb L17-40 (40x147 kg)
15.03. Falcon-9R B1073.7 KSC LC-39A/ASDS ASOG Atlantyk
Dragon-27
STP-H9 ⇑
ARKSAT 1 ↑ CubeSat (1xU) (1 kg)
LightCube ↑ CubeSat (1xU) (1 kg)
Ex-Alta 2 ↑ CubeSat (3U) (4 kg)
AuroraSat ↑ CubeSat (2U) (4 kg)
YukonSat ↑ CubeSat (2U) (4 kg)
NEUDOSE ↑ CubeSat (2U) (2 kg)
17.03. Falcon-9R B1071.8 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
     Starlink v1.5 G2-8-1 - Starlink v1.5 G2-8-52 (52x~300 kg)
18.03. Falcon-9R B1069.6 Canaveral SLC-40/ASDS JRTI Atlantyk
SES-18 GEO
SES-19 GEO
24.03. Falcon-9R B1067.10 Canaveral SLC-40/ASDS ASOG Atlantyk
     Starlink v1.5 G5-5-1 - Starlink v1.5 G5-5-56 (56x~300 kg)
29.03. Falcon-9R B1077.4 Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v1.5 G5-10-1 - Starlink v1.5 G5-10-56 (56x~300 kg)
02.04. Falcon-9R B1075.2 Vandenberg SLC-4E/LZ-4 Vandenberg
Transport Layer Tranche-0 A-Class
Transport Layer Tranche-0 A-Class
Transport Layer Tranche-0 A-Class
Transport Layer Tranche-0 A-Class
Transport Layer Tranche-0 A-Class
Transport Layer Tranche-0 B-Class
Transport Layer Tranche-0 B-Class
Transport Layer Tranche-0 B-Class
Tracking Layer Tranche-0 WFOV
Tracking Layer Tranche-0 WFOV
07.04. Falcon-9R B1076.4 Canaveral SLC-40/ASDS ASOG Atlantyk
Intelsat 40e/TEMPO (~5440 kg) GEO
15.04. Falcon-9R B1063.10 Vandenberg SLC-4E/LZ-4 Vandenberg
Transporter-7 [51 ładunków, w tym 48 satelitów]
19.04. Falcon-9R B1073.8 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-2-1 - Starlink v2-Mini G6-2-21 (21x~750 kg)
27.04. Falcon-9R B1061.13 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v1.5 G3-5-1 - Starlink v1.5 G3-5-46 (46x~300 kg)
28.04. Falcon-9R B1078.2 Canaveral SLC-40/ASDS JRTI Atlantyk
O3b mPower 3 (O3b 23) (1700 kg)
O3b mPower 4 (O3b 24) (1700 kg)
01.05. Falcon Heavy KSC LC-39A
ViaSat 3.1 (ViaSat 3 Americas) (~6400 kg) GEO
Arcturus (Aurora 4A) (300 kg) GEO
G-Space 1 (GS 1, Nusantara H1-A) CubeSat (16U) (22 kg) GEO
04.05. Falcon-9R B1069.7 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v1.5 G5-6-1 - Starlink v1.5 G5-6-56 (56x~300 kg)
10.05. Falcon-9R B1075.3 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v1.5 G2-9-1 - Starlink v1.5 G2-9-51 (51x~300 kg)
14.05. Falcon-9R 1067.11 Canaveral SLC-40
Starlink v1.5 G5-9-1 - Starlink v1.5 G5-9-56 (56x~300 kg)
19.05. Falcon-9R B1076.5 Canaveral SLC-40/ASDS ASOG na Atlantyk
Starlink v1.5 G6-3-1 - Starlink v1.5 G6-3-22 (22x~750 kg)
20.05. Falcon-9R B1063.11 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
     Iridium-NEXT 174 (860 kg)
Iridium-NEXT 177
Iridium-NEXT 178
Iridium-NEXT 179
Iridium-NEXT 181
OneWeb L19-1 (147 kg)
OneWeb L19-2
OneWeb L19-3
OneWeb L19-4
OneWeb L19-5
OneWeb L19-6
OneWeb L19-7
OneWeb L19-8
OneWeb L19-9
OneWeb L19-10
OneWeb L19-11
OneWeb L19-12
OneWeb L19-13
OneWeb L19-14
OneWeb L19-15
OneWeb L19-16 (JoeySat, OneWeb 0721) (~150 kg)
21.05. Falcon-9R B1080.1 KSC LC-39A/LZ-1
Crew Dragon F11 Axiom-2 Freedom C212 F2
27.05. Falcon-9R B1062.14 Canaveral SLC-40/ASDS JRTI Atlantyk
Badr-8 (~4500 kg) GEO
31.05. Falcon-9R B1061.14 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v1.5 G2-10-1 - Starlink v1.5 G2-10-52

05.06. Falcon-9R B1077.5 KSC LC-39A/ASDS ASOG Atlantyk
Dragon CRS-28 (SpX 28, Dragon C208-F4)
iROSA 1A ⇑
iROSA 1B ⇑
Moonlighter ↑
ESSENCE ↑
Iris ↑
RADSAT-SK ↑
SC-ODIN ↑
Ukpik 1 ↑
12.06. Falcon-9R B1071.9 Vandenberg SLC-4E
[Transporter-8] 72 satelity
18.06. Falcon-9R B1067.12 Canaveral SLC-40/ASDS ASOG Atlantyk
Satria (~ 4600 kg) GEO
22.06. Falcon-9R B1075.4 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v1.5 G5-7-1 - Starlink v1.5 G5-7-1 (47x~300 kg)
23.06. Falcon-9R B1069.8 Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v1.5 G5-12-1 - Starlink v1.5 G5-12-56 (56x~300 kg)
01.07. Falcon-9R B1080.2 Canaveral SLC-40/ASDS ASOG Atlantyk
Euclid (2160 kg)
07.07. Falcon-9R B1063.12 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v1.5 G5-13-1 - Starlink v1.5 G5-13-48 (48x~300 kg)
10.07. Falcon-9R B1058.16 Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v2-Mini G6-5-1 - Starlink v2-Mini G6-5-22 (22x~750 kg)
16.07. Falcon-9R B1060.16 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v1.5 G5-15-1 - Starlink v1.5 G5-15-54 (54x~300 kg)
20.07. Falcon-9R B1071.10 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v2-Mini G6-15-1 - Starlink v2-Mini G6-15-15 (15x~750 kg)
24.07. Falcon-9R B1076.6 Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v2-Mini G6-6-1 -    Starlink v2-Mini G6-6-22 (22x~750 kg)
28.07. Falcon-9R B1062.15 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-7-1 - Starlink v2-Mini G6-7-22 (22x~750 kg)
29.07. Falcon Heavy B1065.3 i B1064.3, B1074.1 KSC LC-39A/ B1065.3 LZ-1/B1064.3 LZ-2
Jupiter-3 (EchoStar 24) [~9200 kg; 5817 kg (dry)] GEO
03.08. Falcon-9R B1077.6 Canaveral SLC-40/ASDS JRTI Atlantyk
Galaxy 37/Horizons 4 (Galaxy 13R/Horizons 4) (5063 kg) GEO
07.08. Falcon-9R B1078.4 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-8-1 - Starlink v2-Mini G6-8-22 (22x~750 kg)
08.08. Falcon-9R B1075.5 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v2-Mini G6-20-1 - Starlink v2-Mini G6-20-15 (15x~750 kg)
11.08. Falcon-9R B1069.9 Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v2-Mini G6-9-1 - Starlink v2-Mini G6-9-22 (22x~750 kg)
17.08. Falcon-9R B1067.13 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-10-1 - Starlink v2-Mini G6-10-22 (22x~750 kg)
22.08. Falcon-9R B1061.15 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v2-Mini G7-1-1 - Starlink v2-Mini G7-1-15 (15x~750 kg)
26.08. Falcon-9R B1081.1 KSC LC-39A/LZ-1 Floryda
Crew Dragon Crew-7 (Endurance C210 F3)
27.08. Falcon-9R B1080.3 Cape Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v2-Mini G6-11-1 - Starlink v2-Mini G6-11-22 (22x~750 kg)
01.09. Falcon-9R B1077.7 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-13-1 - Starlink v2-Mini G6-13-22 (22x~750 kg)
02.09. Falcon-9R B1063.13 Vandenberg SLC-4E/LZ-4 Vandenberg
Tranche 0 F2 (x13)
04.09. Falcon-9R B1073.10 KSC LC-39A/ASDS JRTI Atlantyk
Starlink v2-Mini G6-12-1 - Starlink v2-Mini G6-12-21 (21x~750 kg)
09.09. Falcon-9R B1076.7 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-14-1 - Starlink v2-Mini G6-14-22 (22x~750 kg)
12.09. Falcon-9R B1071.11 Vandenberg SLC-4E/ASDS OCISLY Pacyfik
Starlink v2-Mini G7-2-1 - Starlink v2-Mini G7-2-21 (21x~750 kg)
16.09. Falcon-9R B1078.5 Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v2-Mini G6-16-1 - Starlink v2-Mini G6-16-22 (22x~750 kg)

Orionid · « **Odpowiedź #102 dnia:** Wrzesień 25, 2023, 00:25 »

SpaceX (2023) cz 2

20.09. Falcon-9R B1058.17 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-17-1 - Starlink v2-Mini G6-17-22 (22x~750 kg)
24.09. Falcon-9R B1060.17 Canaveral SLC-40/ASDS JRTI Atlantyk
Starlink v2-Mini G6-18-1 - Starlink v2-Mini G6-18-22 (22x~750 kg)
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Starlink v2-Mini G7-3-1 - Starlink v2-Mini G7-3-21 (21x~750 kg)
30.09. Falcon-9R B1069.10 Canaveral SLC-40/ASDS ASOG Atlantyk
Starlink v2-Mini G6-19-1 - Starlink v2-Mini G6-19-22 (22x~750 kg)

Polskie Forum Astronautyczne · « **Odpowiedź #102 dnia:** Wrzesień 25, 2023, 00:25 »

Autor Wątek: STARTY RAKIET KOSMICZNYCH (zbiorczo) (Przeczytany 24882 razy)

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