Summer thunderstorms have yet to arrive on the Space Coast this year, but there were rumbles and roars a-plenty yesterday on the Eastern Range. First, in the wee hours, SpaceX launched CRS-32 from KSC, and its booster landed at Landing Zone 1 at Cape Canaveral Space Force Station. Then, after sunset, the company completed another RTLS Falcon 9 launch, this time from Space Launch Complex 40 at Cape Canaveral Space Force Station. Liftoff was at 8:48 PM ET.
Eight minutes and seven seconds after liftoff, Booster B1090 completed its third flight successfully at Landing Zone 2 on the site of the former Launch Complex 13.
Timelapse of SpaceX Falcon 9 Bandwagon 3 flight. Photo: Charles Boyer / Talk of Titusville
Summer thunderstorms have yet to arrive on the Space Coast this year, but there were rumbles and roars a-plenty yesterday on the Eastern Range. First, in the wee hours, SpaceX launched CRS-32 from KSC, and its booster landed at Landing Zone 1 at Cape Canaveral Space Force Station. Then, after sunset, the company completed another RTLS Falcon 9 launch, this time from Space Launch Complex 40 at Cape Canaveral Space Force Station. Liftoff was at 8:48 PM ET.
Eight minutes and seven seconds after liftoff, Booster B1090 completed its third flight successfully at Landing Zone 2 on the site of the former Launch Complex 13.
Payloads
Among the payloads that were launched last night were some interesting spacecraft:
425Sat-3: Enhancing South Korea’s Reconnaissance Capabilities
425Sat-3, as part of the 425 Project, was among the payloads lofted by Bandwagon-3. This initiative aims to establish a constellation of five satellites—four equipped with Synthetic Aperture Radar (SAR) and one with Electro-Optical/Infrared (EO/IR) sensors—to bolster surveillance over North Korea. T
The SAR satellites, developed by a consortium including Korean Aerospace Industries, Hanwha Systems, and Thales Alenia Space, provide all-weather, day-and-night imaging capabilities. Once fully operational, the constellation will enable monitoring of the Korean Peninsula at two-hour intervals, enhancing South Korea’s independent intelligence-gathering capacity, a vital national interest item.
Tomorrow-S7, launched by Tomorrow.io, represents a significant step in commercial weather observation. As part of a planned 30-satellite constellation, Tomorrow-S7 is equipped with advanced radar and microwave sounder instruments designed to deliver precise, hyperlocal weather data. This satellite aims to improve forecasting accuracy for both commercial and governmental applications, particularly in regions lacking comprehensive weather monitoring infrastructure.
PHOENIX-1: Testing Innovative Reentry Technology
PHOENIX-1, developed by Germany’s Atmos Space Cargo, is a prototype reentry capsule launched to test new technologies for returning cargo from Low Earth Orbit. The capsule features an inflatable heat shield, which deploys during reentry to slow the spacecraft without the need for parachutes.
During its mission, PHOENIX-1 carried four payloads, including biological and technological experiments. The data collected will inform the development of future reusable cargo return systems, with the goal of providing efficient and cost-effective solutions for transporting materials from space.
Launch Replay
Next Launch
Lather, rinse, repeat. It may as well be SpaceX’s corporate motto, because they launch so regularly, especially in regards to their Starlink constellation. The company plans to launch another set of satellites for Group 6 NET Thursday, April 24, 2025:
Falcon 9 Block 5 | Starlink Group 6-74 Mission Details
Mission
Falcon 9 Block 5 | Starlink Group 6-74
Organization
SpaceX
Location
Cape Canaveral SFS, FL, USA
Rocket
Falcon 9 Block 5
Pad
Space Launch Complex 40
Status
To Be Confirmed
Status Info
Awaiting official confirmation – current date is known with some certainty.
Window Opens
Thursday, 04/24/2025 9:32:00 PM EDT
Window Closes
Friday, 04/25/2025 2:39:00 AM EDT
Destination
Low Earth Orbit
Mission Description
A batch of satellites for the Starlink mega-constellation – SpaceX’s project for a space-based Internet communication system.
SpaceX and NASA launched the CRS-32 mission early Monday morning from Launch Complex 39A at Kennedy Space Center. After an apparently event-free countdown, liftoff was at 04:15:34 AM ET. About 7.5 minutes after liftoff, the booster used for the flight returned to land at Landing Zone 1 at Cape Canaveral Space Force Station.
Overnight tonight, SpaceX and NASA will launch Falcon 9 with a Cargo Dragon bound for the International Space Station. Along with the foodstuffs and normal cargo aboard CRS-32, there are also some thirty experiments that astronauts will conduct aboard the ISS-NL orbiting outpost. One of them will test Albert Einstein’s Theory of Relativity.
NASA and SpaceX are set to launch the 32nd Commercial Resupply mission to the International Space Station from Kennedy Space Center on Monday. Launch time is set for 04:15:34 AM Monday morning in an instantaneous window.
File photo of a Falcon 9 in Dragon configuration on launch LC-39A at KSC Photo: Charles Boyer / Talk of Titusville
The flight Falcon 9’s first stage will land a few miles south at Landing Zone 1 in Cape Canaveral about 7-8 minutes after liftoff. That being said, a sonic boom will rattle the Space Coast area not long after the rumble of the liftoff fades.
This mission marks the 12th under NASA’s Commercial Resupply Services-2 (CRS-2) contract with SpaceX.
SpaceX CRS-32 Mission Details
Mission
SpaceX CRS-32
Organization
SpaceX
Location
Kennedy Space Center, FL, USA
Rocket
Falcon 9
Pad
Launch Complex 39A
Status
Go for Launch
Status Info
Current T-0 confirmed by official or reliable sources.
Window Opens
Monday, 04/21/2025 4:15:34 AM EDT
Window Closes
Monday, 04/21/2025 4:15:34 AM EDT
Destination
Low Earth Orbit
Mission Description
The 32nd Commercial Resupply Services mission to the International Space Station operated by SpaceX. This flight, conducted under NASA’s CRS-2 contract, will deliver approximately 6,700 pounds of supplies and payloads, including critical materials to directly support science and research investigations onboard the orbiting laboratory. Notable experiments include studies on nanomaterial production, drug manufacturing advancements, and novel materials for aerospace, defense, energy, and robotics. The Cargo Dragon spacecraft, C209, is scheduled to autonomously dock to the station’s Harmony module and remain for about one month before returning to Earth with research and hardware for analysis.
Weather Forecast
Weather forecasts for Cape Canaveral on Monday indicate mostly cloudy conditions with a high of 81°F (27°C) and a low of 68°F (20°C). These conditions are generally favorable for a successful launch.
Jimmy Taeger, a Launch Weather Officer of the 45th Weather Squadron of Space Launch Delta 45 said today that “Weather is looking really good for early next week. There’s a small chance of a cumulus cloud rule violation.”
“[That chance is] only about 10% for the primary launch day and the backup day, but that means 90% chance that the weather could be good,” Taeger concluded.
Trajectory
Online Viewing
NASA_ will have a livestream of the launch on their website and on YouTube: CRS-32 Launch. Coverage starts about fifteen minutes before liftoff.
Spaceflight Now will have coverage of the launch starting about one hour before liftoff on Youtube: link
For official updates regarding launch times, SpaceX.com is the best source of information. Starlink launch times change from time to time, and the company generally updates their website within minutes of the decision to change the launch time. This is very handy if none of the streaming options on YouTube have started their broadcasts.
Remember that there is a delay between a launch stream and the actual countdown clock. That is simply because of physics: it takes time for the signal to travel from the launch site, through the Internet, and back down to your phone, resulting in a five to fifteen-second delay.
Next Space Flight an app for iOS and Android phones, has a real-time countdown clock that is accurate to a second, give or take. The app is free. Search the App Store or Google Play. They are also on the web: nextspaceflight.com.
Launch Viewing: In Person
The best options for watching the launch: Northern Titusville parks on Washington Avenue / US-1 are your best bets: Space View Park, Sands Park, Rotary Riverfront Park.
The best options for watching the landing: beaches Cherie Down Park or 528W at the Banana River Bridge.
File photo of a Falcon 9 booster beginning its landing burn at LZ-1 at Cape Canaveral Space Force Station.
Photo: Charles Boyer / Talk of Titusville
Ax-4 crew members Tibor Kapu, Peggy Whitson, Sławosz Uznański, Shubhanshu Shukla during underwater training. Photo: Axiom Space
Axiom Space has released new information about the scientific and technological goals for its upcoming Ax-4 mission to the International Space Station, scheduled for launch no earlier than May 2025.
Commanded by veteran astronaut Peggy Whitson (U.S.), the Ax-4 crew includes pilot Shubhanshu Shukla (India), mission specialist Sławosz Uznański-Wiśniewski (ESA/Poland), and mission specialist Tibor Kapu (Hungary). The team will launch aboard a SpaceX Falcon 9 rocket and Dragon capsule from the Eastern Range no earlier than late May.
Ax-4 Will Perform The Most Research-Driven Axiom Mission To Date
The mission will carry roughly 60 science and research payloads involving partners from 31 countries — including the U.S., India, Hungary, Poland, Saudi Arabia, Brazil, Nigeria, the UAE, and others across Europe. This marks the most research-driven mission Axiom has led to date, reinforcing the growing international momentum behind low-Earth orbit science and commercial space collaboration.
Much of the research on the mission will be driven by the crew members’ home countries, including experiments from India’s ISRO, Poland in partnership with the European Space Agency, Hungary’s HUNOR program, and the United States. Axiom is also collaborating with research institutions and universities to study how spaceflight affects the human body and how these insights can improve healthcare back on Earth.
Ax-4 Mission Specialist Tibor Kapu, Pilot Shubhanshu Shukla, Commander Peggy Whitson, and Mission Specialist Sławosz Uznański-Wiśniewski [Right] have been training to live and work aboard the space station for the past eight months in preparation for their mission, which is targeted to launch no earlier than May 2025.
Ax-4 is a key step in building a sustainable research and business environment in orbit — and in paving the way for Axiom Station, the company’s planned commercial space station.
Axiom has been making strides in getting their Station completed, launched and connected to ISS — a multi-pronged highly complex program. They recently demonstrated a successful detailed simulation of the capturing and attaching Axiom Station to ISS, a key milestone on the way towards launching the real thing sometime in 2027.
Ax-4 crew member Sławosz Uznański holds a silver packet up to a machine. Photo: Axiom Space
Ax-4 Crew and Launch Plans
Axiom-Led Research
Axiom’s research program spans critical areas in space health and biology. Highlights include:
Supporting astronauts with insulin-dependent diabetes during spaceflight.
Studying how microgravity affects brain function, joints, blood flow, and psychological adaptation.
Gathering health data using wearables and smart devices.
Investigating cancer progression and stem cell behavior in space.
Monitoring radiation exposure and its effects on human tissue.
India: ISRO
India’s space agency, ISRO, is running several biology and materials science experiments in partnership with NASA and ESA. Focus areas include:
Visual and cognitive responses to screen use in microgravity.
Microgravity effects on algae and cyanobacteria strains.
Studying muscle degeneration and crop seed germination in orbit.
Identifying genetic resilience to extreme space environments.
Poland / ESA
With ESA support, Poland is conducting a wide-ranging scientific package focused on astronaut health, physiology, and advanced technology. Research will explore:
Mental health and behavioral responses in space.
Bone loss, gut microbiome changes, and immune system function.
Wearable tech performance and biomedical data monitoring.
New pharmaceutical storage methods and radiation sensors.
Microgravity experiments with algae, tardigrade genes, and neurofeedback tools.
Hungary: HUNOR Program
Hungary’s national space research initiative is contributing a diverse set of studies covering biology, physics, propulsion, and education:
Microbiome studies of astronauts.
Effects of spaceflight on cognition, cardiovascular function, and motor control.
Advanced propulsion experiments using low-melting-point metals.
Demonstrating 3D printing behavior, microfluidic drug testing, and smart clothing technologies in orbit.
Collaborative educational physics experiments simulating gravity and atmospheric dynamics.
On March 14, 2025, the Federal Aviation Administration (FAA) unveiled a Draft Environmental Assessment (EA) SpaceX’s proposal to increase the number of launch as well as relocating Falcon landing zones to Space Launch Complex 40 (SLC-40) within Cape Canaveral Space Force Station. The FAA is now seeking your input, which you can do online or by attending a virtual public meeting next week on April 16, 2025. Information is below.
The following changes are planned. Keep in mind that the proposal is for SLC-40 only and does not affect the company’s plans or activities at nearby LC-39A.
Planned Changes at SLC-40. Graphic via FAA EA
The proposed landing site locations are below. Click on each one to enlarge:
EA Draft Findings
In a nutshell, the FAA found
The FAA is posting for public review a Draft Environmental Assessment (EA) analyzing the SpaceX proposal to increase Falcon 9 operations from 50 to up to 120 per year from Space Launch Complex 40 at the Cape Canaveral Space Force Station in Florida. The Draft EA also reviews the construction of a first-stage booster landing zone at the site with up to 34 landings per year.
In order to meet the Department of the Air Force (DAF) National Environmental Policy Act requirements, the FAA has also posted a link to the Draft Finding of No Significant Impact (FONSI) for public comment on behalf of DAF.
A virtual public meeting will be held on April 16 and the public comment period closes on April 24, 2025.
The FAA
Solicitation For Public Comment
The FAA invites interested parties to submit comments on the Draft EA. Instructions on how to submit comments can be found on the FAA webpage linked here:
To further engage stakeholders, the FAA has scheduled a virtual public meeting on April 16, 2025, from 6:00 to 8:00 PM Eastern Time. Participants are required to register in advance to attend. Registration can be completed at:
If any accommodation for public meeting is needed (such as additional translation services), please submit a request by April 11, 2025 to SpaceXFalconSLC40@icf.com
File photo of a Falcon 9 flight from LC-39A Photo: Charles Boyer / Talk of Titusville
United Launch Alliance’s Kuiper KA-01 mission was scrubbed last night due to persistent high winds and offshore showers. SpaceX has the range scheduled for a Starlink launch from KSC this evening, so ULA will be pushed back to at least Monday.
According to ULA CEO Tory Bruno on X.com, “Mighty Atlas’ count was very clean. Unfortunately, weather stayed rough. [We] appreciate support from the USSF Weather team.”
The Monday date is pending Eastern Range approval, among others, and may shift. As always, stay tuned.
Starlink 12-17
SpaceX is planning to launch another set of Starlink satellites to orbit from pad LC-39A at Kennedy Space Center this evening. The launch window opens at 9:54 PM ET and extends to 1:43 AM Friday morning. According to SpaceX, “If needed, additional launch opportunities are also available on Friday, April 11 starting at 9:15 p.m. ET.”
Falcon 9 Block 5 | Starlink Group 12-17 Mission Details
Mission
Falcon 9 Block 5 | Starlink Group 12-17
Organization
SpaceX
Location
Kennedy Space Center, FL, USA
Rocket
Falcon 9 Block 5
Pad
Launch Complex 39A
Status
Go for Launch
Status Info
Current T-0 confirmed by official or reliable sources.
Window Opens
Thursday, 04/10/2025 9:54:40 PM EDT
Window Closes
Friday, 04/11/2025 1:43:00 AM EDT
Destination
Low Earth Orbit
Mission Description
A batch of 21 satellites for the Starlink mega-constellation—SpaceX’s project for a space-based Internet communication system.
After concluding its duty powering the payload towards orbit, the first stage booster, B1083, will land on ASDS ‘A Shortfall of Gravitas’ which will be stationed on the Atlantic Ocean near The Bahamas. Since the booster is not returning directly to the Cape Canaveral region after liftoff, there will not be a sonic book over the Space Coast region.
Weather looks good, with only a 5% chance of a weather-related range violation. That said, it should be a beautiful evening to go to space.
This will be the 10th flight of B1083. Previously, it has launched Crew-8, Polaris Dawn, CRS-31, Astranis: From One to Many, IM-2, and four Starlink missions.
The trajectory is southeast, and Starlink 12-17 will pass just east of The Bahamas on its way to orbit.
ULA Atlas V Kuiper KA-01 Now Slated For Monday
Due to the SpaceX launch, this evening is not an option for United Launch Alliance to fly Atlas V and the Kuiper KA-01 mission. At this point in time, secondary sources (FAA, etc) are pointing to an attempt this coming Monday, April 14th.
Atlas V 551 | Project Kuiper (KA-01) Mission Details
Mission
Atlas V 551 | Project Kuiper (KA-01)
Organization
United Launch Alliance
Location
Cape Canaveral SFS, FL, USA
Rocket
Atlas V 551
Pad
Space Launch Complex 41
Status
To Be Confirmed
Status Info
Awaiting official confirmation—current date is known with some certainty.
Window Opens
Monday, 04/14/2025 7:00:00 PM EDT
Window Closes
Monday, 04/14/2025 11:34:00 PM EDT
Destination
Low Earth Orbit
Mission Description
Project Kuiper is a mega constellation of satellites in Low Earth Orbit that will offer broadband internet access. This constellation will be managed by Kuiper Systems LLC, a subsidiary of Amazon. It is planned to be composed of 3,276 satellites, projected to be placed in 98 orbital planes across three orbital layers at altitudes of 590 km, 610 km, and 630 km.
Keep in mind that is not official, and it could easily change. Stay tuned for any schedule shifts.
Boeing Starliner CFT leaving the factory and heading towards SLC-41 last year. Photo: Charles Boyer / Talk of Titusville
NASA and Boeing are advancing the certification process for Boeing’s CST-100 Starliner spacecraft following its Crew Flight Test to the International Space Station (ISS). Joint teams are addressing in-flight anomalies and planning propulsion system tests in preparation for Starliner’s upcoming missions.
Starliner’s Flights Have Been Issue-Filled
Rendering of Starliner docked at ISS.
Graphic courtesy Boeing
Boeing’s Crew Flight Test (CFT) of the CST-100 Starliner spacecraft encountered several technical challenges that impacted the mission:
Reaction Control System (RCS) Thruster Failures: During the approach to the International Space Station (ISS), multiple RCS thrusters experienced malfunctions. Initially, two thrusters failed, prompting manual intervention by Commander Butch Wilmore. Subsequently, a total of four thrusters became inoperative, compromising the spacecraft’s attitude control.
Wilmore later told Ars Technica that during that phase of flight, “I don’t know that we can come back to Earth at that point. I don’t know if we can. And matter of fact, I’m thinking we probably can’t.”
Clearly, it is an utter imperative for NASA and Boeing to demonstrably resolve these issues prior to any flight, much less a crewed one.
Helium Leaks: The spacecraft experienced multiple helium leaks in its propulsion system. A single leak detected after a launch scrub expanded to three by the time of docking, and eventually, five leaks were identified. These leaks affected the pressurization of the propulsion system, essential for thruster operation and orbital maneuvers.
Extended Mission Duration: Originally planned as an eight-day mission, the CFT was extended due to the aforementioned technical issues. Astronauts Butch Wilmore and Suni Williams remained aboard the ISS for over nine months as engineers unexpectedly.
These challenges prompted NASA and Boeing to conduct thorough investigations and implement corrective measures to ensure the spacecraft’s safety and reliability for future missions.
Ken Bowersox, Photo: NASA
Ken Bowersox, NASA’s associate administrator for Space Operations, emphasized the importance of commercial partnerships: “NASA’s strategy for crew transportation is critical for assured access to space using American private industry.”
He further noted, “Our investment in commercial crew transportation capabilities is providing the needed flexibility to operate in space as safely as possible and respond to changes quickly when they arise. NASA is seeing the commitment from Boeing to adding the Starliner system to the nation’s crew transportation base.”
Data Analysis on Starliner CFT Nearly Complete
Since the uncrewed Starliner capsule’s return from the ISS, NASA and Boeing have analyzed post-flight data. Over 70% of flight observations and in-flight anomalies have been addressed at program-level control boards. Major in-flight propulsion system anomalies are expected to remain under review into 2025, pending outcomes of ground testing and potential system upgrades.
The agencies are finalizing the scope and timelines for propulsion system test campaigns and analyses scheduled for spring and summer. Testing at White Sands Test Facility in New Mexico will include integrated firing of key Starliner thrusters within a single service module doghouse. This aims to validate thermal models and inform potential propulsion and spacecraft thermal protection system upgrades.
Operational solutions under consideration involve adding thermal barriers within the doghouse to better regulate temperatures and modifying thruster pulse profiles in flight to prevent overheating. Concurrently, teams are testing new helium system seal options to mitigate the risk of future leaks.
Starliner’s Next Flight: Crewed Or Uncrewed?
NASA’s Steve Stich
Photo: from NASA Livestream
Steve Stich, manager of NASA’s Commercial Crew Program, commented on the testing schedule: “Once we get through these planned test campaigns, we will have a better idea of when we can go fly the next Boeing flight.” He added, “We’ll continue to work through certification toward the end of this year and then go figure out where Starliner fits best in the schedule for the International Space Station and its crew and cargo missions. It is likely to be in the timeframe of late this calendar year or early next year for the next Starliner flight.”
Mission managers are planning for the next Starliner flight to be a crew-capable post-certification mission. However, NASA retains the flexibility to fly only cargo, depending on the agency’s needs.
One person that will not be a part of the next Starliner flight is Boeing Starliner CFT backup astronaut Mike Fincke. He has been assigned to Crew 11 aboard a SpaceX Crew Dragon.
Starliner CFT on the launch pad in the spring of 2024.
Photo: Charles Boyer / Talk of Titusville
SpaceX launched their 41st mission of 2025 this evening from Cape Canaveral when the company sent the Starlink 6-78 mission to low Earth orbit aboard Falcon 9. Liftoff was at 11:07 PM EDT and into clear but hazy skies skies on a seasonal night here on the Space Coast.
![Ax-4 Mission Specialist Tibor Kapu, Pilot Shubhanshu Shukla, Commander Peggy Whitson, and Mission Specialist Sławosz Uznański-Wiśniewski [Right] have been training to live and work aboard the space station for the past eight months in preparation for their mission, which is targeted to launch no earlier than May 2025.](https://i0.wp.com/old-man-par.com/wp-content/uploads/2025/04/67ed572d67ee3f8a01fa865e_Ax4_Axiom_PAMIntegratedRoutineOps1_ALL_20241219_0771_Web.webp?resize=762%2C508&ssl=1)
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