ULA’s Vulcan with the USSF-106 mission on the launch pad. Photo: Charles Boyer / Talk of Titusville
United Launch Alliance (ULA) is preparing to launch Vulcan on its first national security mission early next week from SLC-41 at Cape Canaveral Space Force Station. Scheduled for Tuesday, August 12, the USSF-106 mission will lift off from Cape Canaveral’s Space Launch Complex 41, carrying the U.S. Space Force’s Navigation Technology Satellite-3 (NTS-3) into geosynchronous orbit.
Current T-0 confirmed by official or reliable sources.
Window Opens
Tuesday, 08/12/2025 7:59 PM EDT
Window Closes
Tuesday, 08/12/2025 8:59 PM EDT
Destination
Geosynchronous Orbit (GEO)
Mission Description
USSF-106 is a U.S. Space Force mission deploying multiple payloads—including the NTS-3 (Navigation Technology Satellite 3), a demonstration satellite testing a reprogrammable digital signal generator to improve navigation resilience—directly into GEO using the new Vulcan Centaur VC4S rocket.
Information current as of: August 10, 2025, 11:54 AM EDT
Launch dates and liftoff times are subject to change at any time.
USSF-106 will be Vulcan’s first operational flight, a milestone years in the making. ULA started work on the Vulcan family of rockets in 2014, and later the same year decided to use Blue Origin’s BE-4 methane-oxygen (methalox) engines. The decision was somewhat controversial at the time, given that Blue had not completed the final design of BE-4 much less started producing them at scale. It is ULA’s first rocket that the company has designed completely by itself.
This decision was a result of a way to move away from reliance on Russian RD-180 engines, which powered ULA’s Atlas V, and to ensure a domestically produced alternative for national security launches, and was mandated by Congress.
High Stakes for ULA
The mission is a key test not only of the rocket’s technical reliability but also of ULA’s ability to deliver on commitments that have been delayed by the vehicle’s troubled rollout. Military leaders, including Major General Stephen G. Purdy, have voiced frustration with setbacks that pushed back four major national security missions.
Vulcan CERT-2, midflight. Photo: Charles Boyer / Talk of Titusville
For ULA, this launch is more than just another flight; it is a chance to restore customer confidence after the near-disaster of Vulcan’s second certification mission last October. That launch succeeded in reaching orbit, but only after a solid rocket booster nozzle broke off mid-flight, causing asymmetric thrust that had to be corrected in real time by the in-flight software and by ground controllers. The incident raised concerns about the Vulcan’s Northrup Grumman-built GEM 63XL solid rocket motors, which lead to months of investigation and a test firing before certification for Vulcan was granted in March.
ULA holds a $5.3 billion contract to provide launch services through 2034, a lucrative and strategically important deal that depends on consistent, fault-free performance. A successful USSF-106 flight would help Vulcan’s place as a major part of the nation’s launch capability. A failure would put the company’s reputation and perhaps even government contracts in peril.
Photo: Charles Boyer / Talk of Titusville
Payload
The mission’s payload, NTS-3, is an experimental navigation satellite designed to test advanced technologies designed to augment the GPS system.
The Air Force Research Lab released this video describing NTS-3:
Artist’s concept for NTS-3 in geostationary orbit. L3Harris Corporation will integrate NTS-3 using Northrop Grumman’s ESPAStar bus, building on EAGLE’s flight heritage. Graphic Credit: 1st Lt. Jacob Lutz
The small shower that soaked SpaceX’s Falcon 9 during the last two minutes of the terminal count today at the Cape. They will try again tomorrow. Photo: Charles Boyer / Talk of Titusville
A popup shower over the launch pad soaked another SpaceX launch at the last minute today, forcing a scrub of their launch of Falcon 9 carrying the Kuiper KF-02 mission from Space Launch Complex 40 with about 29 seconds remaining before liftoff. The company online announced that it will try again tomorrow. Lather, rinse, repeat.
This scrub was a near repeat of the Jul 31st attempt to launch Crew 11 from LC-39A up at Kennedy: everything was great until it wasn’t. Both launch attempts ended abruptly, as the scrubs came with only seconds remaining on the countdown clock.
Because SpaceX uses densified propellants, once the rocket is fueled, it must launch — or not — on time. If it doesn’t, the launch is scrubbed, and the rocket is defueled for the day.
Summers are like that on the Space Coast. A single cloud can pop up at any time and stop a countdown. Locals shrug and go about their day, but tourists cross their fingers and hope that their luck holds out. Today it didn’t.
Captain James A. “Jim” Lovell Jr., the NASA astronaut who commanded the the Apollo 13 mission and became a symbol of courage and ingenuity, died Thursday at the age of 97 in Lake Forest, Illinois. Lovell’s death was confirmed by family members.
Born March 25, 1928, in Cleveland, Ohio, Lovell logged more than 700 hours in space over four missions. His calm under pressure during Apollo 13—immortalized by the phrase “Houston, we’ve had a problem”—cemented his place in history. Lovell was, as one former NASA engineer told us, “a cool customer.”
While he and his family were never Space Coast residents, Lovell still had deep connections to the area, dating back to the mid-1960s when, as a member of NASA’s “Next Nine” astronaut class.
His first mission, Gemini 7 in 1965, launched from Cape Canaveral’s Launch Complex 19, set a then-record for space endurance. More importantly, GEmini 7 was part of the first orbital rendezvous between two crewed spacecraft. Gemini 6A, piloted by Wally Schirra and Tom Stafford, and Gemini 7 achieved an orbital rendezvous.
Many overlook the importance of Gemini 7 and 6A: they proved NASA’s capability to calculate and coordinate two spacecraft in flight, and therefore that the Apollo capsule (CSM) and lander (LM) could rendezvous and dock. While today, those maneuvers are a routine part of any crewed mission, the two Gemini flights were the first actually to do it. And that with mid-1960’s computing power, meaning that the calculations were largely done by hand and that at great pace.
The Gemini 7 Astronauts: Jim Lovell, left, and Frank Borman, right.
Photo: NASA
Lovell would return to Florida’s coast for the launch of Gemini 12 in 1966. The last flight of the Gemini program, he commanded the mission with Edwin “Buzz” Aldrin as his co-pilot. The pair rendezvoused and docked with a target vehicle, and that mission served to further NASA’s and America’s confidence in the spaceflight capabilities of their program.
While those flights were record-breaking, Lovell’s best-known flights were on Apollo 8 in 1968—the first human flight around the Moon, and later, Apollo 13. Gemini proved that Lovell was a cool customer and an incredible space jockey, but the Apollo flights turned him into a legendary hero.
On Apollo 8, Lovell served as the Command Module Pilot. Apollo 8 was a daring mission: the first crewed mission to leave Earth orbit, the first humans to escape Earth’s gravity, the first to orbit another celestial body, and at the time, the farthest humans had ever traveled away from their home planet. Apollo 8 also set a record for re-entry speed after completing its mission. Jim Lovell drove.
Launched from Kennedy Space Center on December 21, 1968, the mission was a bold response to the Soviet Union’s lunar efforts. The Russian program was rumored to be preparing a circumlunar crewed Zond mission to beat NASA and the Americans to the moon, and snatching away another space record from America’s grasp. That would have been yet another coup for the Soviets and yet another crushing defeat for the United States on the global stage.
Four months before launch, Apollo 8’s mission plan was changed, and a lot of chips were pushed into the middle of the table by NASA and the Johnson administration.
With Commander Frank Borman focusing on overall mission leadership and Lunar Module Pilot Bill Anders focused on photography and scientific observations, Lovell’s primary responsibility was navigation and spacecraft systems management. His expertise was crucial in ensuring the spacecraft, Columbia, stayed on the correct trajectory during its unprecedented journey to lunar orbit. Lovell was in charge of getting Apollo 8 there and back.
During the mission, he handled much of the celestial navigation, using stars and onboard instruments to verify the spacecraft’s position and the accuracy of on-board computers. This was critical when Apollo 8 entered lunar orbit on December 24, 1968, becoming the first crewed spacecraft to do so. Shortly afterwards, they were the first humans to ever lay their eyes on the far side of the moon.
Lovell’s steady performance during complex orbital maneuvers gave mission control the confidence to execute the burns that allowed the crew to circle the Moon ten times. His navigational skill ensured the spacecraft maintained its proper course for both the lunar operations and the eventual return trip.
Lovell also served as the mission’s communicator within the crew, reading from the Book of Genesis during the Christmas Eve broadcast viewed by millions around the world.
When Apollo 8 successfully fired its engine to break free of lunar orbit on December 25 and head back to Earth, Lovell’s precision and calm professionalism played a vital role in ensuring the maneuver was executed flawlessly. Apollo 8’s success paved the way for the Moon landing just seven months later, and Lovell’s performance cemented his reputation as one of NASA’s most reliable and skilled astronauts.
Contemporary documentary of the Apollo 8 mission
As daring and accomplished as Apollo 8 was, it was eclipsed quickly by Apollo 11 and later, Apollo 13, but it should not be overlooked. Apollo 8 is probably the most daring spaceflight NASA has ever flown.
“I was asked to escort Charles Lindbergh to watch the launch of Apollo 11,” Jim Lovell once related, “As we listened to the countdown, I said, ‘Take a look at that Saturn V rocket. The spacecraft on top will try to land on the Moon.” But I could tell he was in deep thought, his mind elsewhere. I suspected he was thinking of his own voyage, that perilous 34-hour overwater flight from New York to Paris.”
“Suddenly he answered, “Apollo 11 will be quite an accomplishment. But your flight–Apollo 8– that initial 240,000-mile voyage from the Earth to the Moon. That’s the flight I will remember.”
Lovell and Lindbergh were two of a kind.
Apollo 13
Lovell is well known as the commander of Apollo 13, NASA’s third planned lunar landing mission. Launched from Kennedy Space Center on April 11, 1970, with Command Module Pilot Jack Swigert and Lunar Module Pilot Fred Haise, the crew’s primary objective was to land in the Fra Mauro highlands of the Moon. That was not to be.
The Apollo 13 Crew after successfully landing in 1970. Photo: NASA
Two days into the mission, an oxygen tank in the Service Module exploded, crippling the spacecraft. While the event was unfolding and all hell was breaking loose, Lovell’s calm voice relaying, “Houston, we’ve had a problem,” became an enduring symbol of composure under pressure. As commander, he was immediately responsible for diagnosing the situation alongside Mission Control and determining how to keep his crew alive with rapidly diminishing resources.
The explosion left the Command Module without enough power, heat, or oxygen to support the crew for the trip home, forcing Lovell, his crewmates and ground controllers to make quick, calculated decisions under extreme stress, all to keep Apollo 13’s capsule from turning into an icy tomb for the three astronauts. They did just that in what may be NASA’s finest hour. Lovell was front and center.
A photo of the damaged Apollo 13 Service Module after it was jettisoned before the capsule re-entered Earth’s atmosphere. Photo: NASA, Reprocessed by Andy Saunders.
One of his most critical calls was to use the Lunar Module, Aquarius, as a “lifeboat.” This shift required rerouting power, conserving water, and relying on limited life-support systems never designed for the full crew over such a long duration. Lovell coordinated with flight controllers in Houston to develop new procedures for navigation and course corrections, all while managing the psychological and physical strain on himself and his crew.
Perhaps Lovell’s most remarkable feat in space was his role in guiding Apollo 13’s manual course corrections. Without a functioning navigation computer in the Command Module, Lovell had to align the spacecraft using Earth’s position in the window and fire the Lunar Module’s descent engine at precise moments. These maneuvers, executed flawlessly, ensured the spacecraft stayed on a trajectory that would safely bring it back to Earth. The accuracy of these burns, given the limited tools available, remains one of the most celebrated acts of piloting in space history.
The Apollo 13 crew being interviewed in 1970 by Johnny Carson
By April 17, 1970, Lovell had successfully brought his crew home, splashing down safely in the Pacific Ocean. While Apollo 13 never landed on the Moon, the mission became known as a “successful failure” because of the safe return against all the odds.
Much of that success is credited to Lovell’s steady leadership, problem-solving skills, and ability to maintain composure under life-threatening conditions. His role in Apollo 13 is often cited as one of the finest examples of crisis management in the history of human spaceflight.
To be sure, everyone involved pitched in with every bit of their vigor and considerable skill, and Jim Lovell would have been the first to tell you that. In fact, he always did, showing hius stellar leadership long after Apollo 13.
After NASA
Lovell retired from NASA and the U.S. Navy in 1973, but he frequently returned to Florida for anniversaries, commemorations, and educational events. He co-authored Lost Moon: The Perilous Voyage of Apollo 13, which inspired the 1995 film Apollo 13. In later years, he appeared at Kennedy Space Center events to discuss the mission’s lessons in leadership and resilience as well as meeting members of an adoring public.
Lovell is survived by his four children: Barbara Harrison, James Lovell III, Susan Lovell, and Jeffrey Lovell, along with 11 grandchildren and 7 great-grandchildren. His wife Marilyn passed away in 2023.
Starship Heavy lifts off from Boca Chica, Texas to start the IFT-6 mission. Photo: Richard Gallagher, FMN
The Federal Aviation Administration has released the long-awaited draft Environmental Impact Statement (EIS) evaluating SpaceX’s plan to launch its Starship-Super Heavy rocket from Launch Complex 39A at NASA’s Kennedy Space Center. The report concludes that the proposed operations would not result in significant environmental harm, paving the way for a positive finding for the company in the final document, due sometime late this year.
According to the draft EIS, the FAA determined that impacts from launch operations such as noise, sonic booms, and visual disturbances—would be “less than significant” when evaluated in the context of the surrounding spaceport and existing activity.
Still, the report acknowledges potential stressors to wildlife, including bald eagles, sea turtles, manatees, and migratory birds, especially during nesting seasons. The closest bald eagle nest is roughly 2.5 miles from the proposed Starship launch pad. In between, another avian raptor, ospreys, probably have dozens of nests. The FAA, in coordination with the U.S. Fish and Wildlife Service and other agencies, has initiated formal consultations under the Endangered Species Act and other environmental protections.
The Reports
Instead of one single document, the FAA released 28, and are linked below.
“The FAA is releasing the Draft Environmental Impact Statement for SpaceX’s proposed licensing and operation of the Starship Super-Heavy vehicle at Launch Complex 39A (LC-39A) at Kennedy Space Center (KSC) (Draft EIS). The National Aeronautics and Aerospace Administration (NASA), the Department of the Air Force (DAF), the United Stated Coast Guard (USCG), the United States Fish and Wildlife Service (USFWS), and the National Park Service (NPS) are cooperating agencies.”
The Executive Summary of the Draft EIS is available below:
The FAA is now accepting public comments on the draft EIS, with a public comment period open through September 22, 2025. Four in-person meetings and one virtual session have been scheduled:
August 26, 2025 — 1:00–3:00 PM and 5:00–7:00 PM at Kennedy Space Center Visitor Complex
August 28, 2025 — 1:00–3:00 PM and 5:00–7:00 PM at Cape Canaveral Public Library
September 3, 2025 — Virtual public meeting (details available on the FAA’s website)
Members of the public and local stakeholders are encouraged to provide feedback. Other than written feedback, this will be the last public opportunity for the public to enter its feedback into the process.
What Happens Next
After the public comment period closes, the FAA will review all input, complete consultations with relevant federal and state agencies, and prepare a final EIS.
Only then will it decide on whether to issue a launch license to SpaceX. The FAA also noted that a completed EIS does not guarantee license approval—SpaceX must still meet all safety, risk, and indemnification standards under federal law.
If approved, Starship operations at Kennedy Space Center would mark a significant expansion of the company’s heavy-lift launch capabilities in Florida, complementing its existing activities in Texas.
Crew 11 rising into the clouds that threatened to force a second launch scrub on August 1, 2025 Photo: Charles Boyer / Talk of Titusville
SpaceX, NASA and the Crew 11 astronauts beat the clouds and rain showers today, but just barely. With dark skies and rain rapidly advancing from the south, liftoff of SpaceX’s 18th crewed flight was at 11:43 AM ET from Launch Complex 39A from Kennedy Space Center. Crew 11’s four astronauts are now on their way the International Space Station, with an expected arrival time at the orbital outpost around 3AM ET tomorrow, August 2.
It didn’t look like much at first, but the approaching storms from the south would soon cover the launch pad. Had they been a couple minutes faster, there would have been a second launch scrub in as many days for Crew 11. Photo: Charles Boyer
The countdown today was a near carbon copy of yesterday’s: picture perfect with few if any issues until the last half hour. At that time, with afternoon temperatures rising into what is best called “miserable”, coastal winds started to rise up in the atmosphere, creating clouds that would grow into rain showers and later, thunderstorms. Yesterday, the clouds were too close to LC-39A and caused a launch scrub because of a weather violation. Today, with a Phase 1 lightning issued only minutes before, the burgeoning showers stayed just far enough away to allow the countdown to proceed and liftoff to occur on schedule.
Making Its Own Clouds Crew 11 left quite a post-Max Q contrail today on its way to orbit. The “cloud” below the rocket is actually Falcon 9’s, and one that expanded even more rapidly than the deteriorating weather. Photo: Charles Boyer / Talk of Titusville
Later, when Booster 1094 returned to Landing Zone 1 at Cape Canaveral Space Force Station rather quietly — from the vantage of the KSC Press Site, the descending booster was hidden in the clouds until the very last, appearing only a second or two before it’s final landing burn began. The normal sonic boom was muted too, and was nowhere near as loud as normal. Today’s landing marks the last at Landing Zone 1 as SpaceX prepares to move Falcon 9 landing operations to a new area nearly adjacent to Space Launch Complex 40.
Meanwhile, the second stage and astronauts aboard Crew Dragon Endeavour continued on their way to orbit, which they achieved at the T+ 00:08:46 mark. At T+ 09:36, Crew Dragon separated from Falcon 9’s second stage.
On Their Way To ISS
Now in orbit, Crew 11 will begin chasing down ISS in earnest, with an expected arrival time around 3 AM ET on August 2nd.
After docking, the station’s total crew will climb to 11 for a brief period as they join current occupants: NASA astronauts Anne McClain, Nichole Ayers, and Jonny Kim; JAXA astronaut Takuya Onishi; and Roscosmos cosmonauts Kirill Peskov, Sergey Ryzhikov, and Alexey Zubritsky.
Crew-10, the previous NASA-SpaceX mission, will remain aboard for a short handover after Crew-11 arrives, then return to Earth. Before their departure, mission teams will monitor weather conditions at designated splashdown zones off the California coast to ensure a safe landing.
Crew-11’s mission focuses heavily on scientific research supporting long-duration human spaceflight and applications on Earth. Their work includes simulating lunar landings, studying how to protect astronauts’ vision in space, and advancing human spaceflight research through NASA’s Human Research Program. Additional experiments will explore plant cell division, the impact of microgravity on virus-bacteria interactions, and methods to produce more human stem cells and generate nutrients on demand.
Crew 11’s astronauts preparing to depart for the launch pad early in the morning on August 1. Photo: Charles Boyer / Talk of Titusville
Flight of Starlink 10-29 Photo: Chris Leymarie, Florida Media Now
SpaceX continued adding to its Starlink constellation last night when it sent another group of 28 Mini V2 satellites to orbit late last evening. Dubbed Starlink 10-29, liftoff was at 11:37 PM ET from Space Launch Complex 40 at Cape Canaveral Space Force Station.
Booster B1069 flew for the 26th time during the mission, and afterwards, it landed offshore aboard ASDS ‘Just Read The Instructions,’ one of SpaceX’s two automated landing platforms assigned to the Eastern Range. B1069 and ‘JRTI’ will now return to Port Canaveral, where the booster will be offloaded and transported to SpaceX’s Hangar X facility at Kennedy Space Center. There it will be refurbished and prepared for its next flight.
Launch Replay
Next Launch
Tomorrow afternooon, SpaceX and NASA are planning to launch four astronauts to ISS as part of Crew-11.
SpaceX Crew‑11 Mission Details
Mission
SpaceX Crew‑11
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, 07/31/2025 12:09:20 PM EDT
Window Closes
Thursday, 07/31/2025 12:09:20 PM EDT
Destination
Low Earth Orbit (ISS)
Mission Description
Crew‑11 is the 11th operational crewed flight of a Crew Dragon spacecraft to the International Space Station under NASA’s Commercial Crew Program, carrying four astronauts to the ISS.
Crew 8 on the pad at LC-39A. Photo: Charles Boyer / Talk of Titusville
NASA and SpaceX are finalizing preparations for the launch of Crew-11, the next long-duration mission to the International Space Station (ISS), currently targeted for Thursday, July 31, 2025, at 12:09 PM ET from Launch Complex 39A at NASA’s Kennedy Space Center in Florida. The crew members arrived yesterday at KSC, and are undergoing their final preparations for Wednesday’s launch.
The mission will send four astronauts to the ISS aboard a SpaceX Falcon 9 rocket, flying the Crew Dragon Endeavour spacecraft on its sixth voyage to orbit. The launch marks the eleventh operational crew rotation flight under NASA’s Commercial Crew Program.
Should weather or technical issues delay the liftoff, NASA and SpaceX have identified Thursday, August 1, as the primary backup launch opportunity, with a similar afternoon launch window.
Leading the Mission: Commander Zena Cardman
At the helm of Crew-11 is NASA astronaut Zena Cardman, making her first journey into space. Selected by NASA in 2017, Cardman holds degrees in biology and marine science from the University of North Carolina at Chapel Hill. Prior to her astronaut career, she conducted research in microbial ecology and geobiology—skills that align closely with her role in conducting biological experiments on the ISS.
Commander Zena Cardman speaking Saturday after the Crew 11 astronauts arrived at Kennedy Space Center Photo: Eric A. Moore/Florida Media Now
A Veteran Returns: Mike Fincke
Seated beside Cardman in the pilot’s chair is veteran astronaut Mike Fincke. A retired U.S. Air Force colonel and flight test engineer, Fincke has already logged more than 381 days in space across two ISS expeditions and one space shuttle mission. He has also completed nine spacewalks.
Astronaut Mike Fincke in a Russian Orlan suit during an EVA. Photo: NASA
Originally assigned to the Boeing Starliner program, Fincke was the backup astronaut attached the the Crew Flight Test of Starliner that resulted in the unexpectedly long stay aboard ISS for astronauts Suni Williams and Butch Wilmore.
Finke was reassigned to Crew-11 after the return of Starliner, and commercial crew schedule adjustments were made thanks to delays introduced by the CFT problems. His experience provides invaluable backup for the relatively newer members of the team, and his familiarity with long-duration spaceflight is expected to be critical in managing station operations and mentoring the crew aboard.
Representing Japan: Kimiya Yui
Kimiya Yui. Photo: ESA
JAXA astronaut Kimiya Yui returns to orbit for his second flight, having previously served aboard the ISS in 2015 during Expedition 44/45. Yui, a former fighter pilot in the Japan Air Self-Defense Force, was instrumental in setting up Japan’s Kibo laboratory module during his first mission. On Crew-11, he’ll continue that legacy by supporting international science initiatives and representing Japan’s contributions to the station’s operations.
A Russian Debut: Oleg Platonov
Oleg Platonov Photo: Credit: IMAGO/ITAR-TASS
Rounding out the crew is Oleg Platonov, a first-time space traveler from Russia’s Roscosmos agency. Platonov, an aerospace engineer and former Air Force officer, was initially scheduled to fly on a Soyuz mission but joined Crew-11 under a seat-swap agreement between NASA and Roscosmos.
Despite political tensions on Earth, Platonov’s role highlights the ongoing collaboration between the United States and Russia in maintaining the ISS as a platform for peaceful international science and exploration.
Once At ISS
Once aboard the ISS, the crew will take part in Expeditions 73 and 74, diving into hundreds of research projects ranging from plant biology to space manufacturing to human health in microgravity. The mission also serves as preparation for the Artemis program, as NASA continues to build systems and experience for future lunar missions.
Dragon Endeavour, making its sixth flight, adds another chapter to its legacy as the most frequently reused crew spacecraft in NASA’s current fleet. If all goes according to plan, Crew-11 will return to Earth in April 2026 with a splashdown in the Pacific Ocean.
A SpaceX Falcon 9 awaiting launch at SLC-40 in Cape Canaveral
SpaceX is set to launch Falcon 9 and the SES-operated O3b mPower satellites this evening from Space Launch Complex 40 at Cape Canaveral. Liftoff is set for 05:12 PM ET, with a two hour window extending to 07:12 PM ET.
Official weather forecasts have given the mission a 50/50 chance for acceptable weather, with roughly a 25% chance of thunderstorms in the launch area during the launch window. Keep in mind that acceptable conditions consider more than just rain, it also includes thunderstorm activity in the launch area as well as the lightning potential in the immediate vicinity of the rocket. To learn more about launch commit criteria, click here.
Boeing’s 9th and 10th O3b mPOWER satellites—launched in partnership with SES—will bolster the company’s push to deliver global connectivity from space. Leveraging Boeing’s fully software-defined payload technology, these satellites can dynamically allocate power to match user demand.
Today will mark the sixth mission for Falcon 9 first stage booster B1096, and after completing its share of the mission, the booster will touch down offshore on ASDS ‘Just Read The Instructions.’
Weather
The 45th Weather Squadron of Space Launch Delta 45 of the US Space Force gives a 50% chance for weather to be acceptable during the launch window:
SpaceX will have a livestream of the launch on their website: O3B MPower Mission. This will also be available on the X platform. 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 free options are available for spectators: Northern Titusville parks on Washington Avenue / US-1 are your best bets: Space View Park, Sands Park, Rotary Riverfront Park.
The Space Bar will be open through the launch window. New York New York in Titusville will be open to roughly 7 PM, and is a great place to watch as well. Restaurants in Port Canaveral, specifically Gators Dockside, Fishlips and Grills Seafood should have good views after the rocket clears obstructions.
A Timelapse of Falcon 9’s ascent on the Kuiper KF-01 Mission Photo: SpaceX
SpaceX launched 27 Kuiper satellites for Amazon aboard a Falcon 9 last night from Space Launch Complex 41 at Cape Canaveral Space Force Station. Liftoff was at 2:30 AM ET.
This morning’s launch was the debut flight for SpaceX’s newest Falcon 9 booster, B1096. It flew flawlessly, and touched down safely aboard ASDS ‘A Shortfall of Gravitas’ about eight and a half minutes after liftoff. B1096 and ASOG will now return to Port Canaveral in a few days, where the booster will be offloaded and returned to SpaceX’s Hangar X at Kennedy Space Center. There, it will be inspected, refurbished and prepared for its next mission.
While the first stage was touching down at sea, the second stage and payload continued towards orbit, which it achieved roughly at the same time as B1096’s touchdown. At T+0:52:43, the second stage was reignited to place the payloads in the final orbit, and the payload released shortly thereafter.
Successful deployment of all KF-01 satellites confirmed
Project Kuiper, a subsidiary of Amazon founded in April 2019, will deploy a constellation of 3,236 Low Earth orbit satellites to deliver low-latency broadband connectivity worldwide. The Federal Communications Commission granted Amazon approval on July 30, 2020, to launch and operate half of its satellites (1,618) by July 30, 2026, with the remainder due by July 30, 2029, and service is slated to begin once the first 578 satellites are in orbit. Under the leadership of president Rajeev Badyal, Kuiper Systems LLC is positioning itself to bridge digital divides and support Amazon Web Services clients across underserved regions.
If that sounds just like Starlink, it is, more or less. The two services are competitors, albeit a competition with Starlink that is many years, thousands of satellites, and millions of customers ahead of Amazon, who is just getting started building out their constellation.
Full‐scale deployment of Project Kuiper commenced in April 2025 with United Launch Alliance’s Atlas V rockets launching the initial batches, followed by a second Atlas V mission on June 23.
Amazon has earmarked around $23 billion for Kuiper’s build-out, primarily to cover launch and manufacturing costs, and projects annual revenue of $7.2 billion by 2032 with up to seven million subscribers. The company has secured 92 launches from United Launch Alliance, ArianeGroup, and Blue Origin—along with additional slots on SpaceX rockets—to accelerate its rollout, and plans three consumer service tiers offering speeds up to one gigabit per second.
As Amazon races to match SpaceX’s Starlink, which already boasts over six million users, Project Kuiper represents a strategic bet on owning its digital infrastructure and tapping into a satellite internet market forecast to exceed $1 trillion in the coming decade.
Work on SpaceX’s Starship tower at LC-39A is underway. In the background, the Falcon 9 that carried the Ax-4 mission to orbit in a Crew Dragon is visible. Photo: Charles Boyer / Talk of Titusville
July 11, 2025: it’s been over a year since the public scoping period for the FAA’s Environmental Impact Statement, and no Draft EIS or even a date for one has been announced for SpaceX’s Starship-Super Heavy project at Launch Complex 39A at KSC.
Casual onlookers may wonder if something is awry, but that’s probably not the case. The wheels of government turn slowly and often do so silently, and an announcement could come any day.
Two Separate Facilities, Two Seperate EIS
Many people who don’t live at the Space Coast don’t realize that Kennedy Space Center and Cape Canaveral Space Force Station are two adjoining but separately managed facilities. NASA operates KSC, of course, and SpaceX leases LC-39A from the government at KSC. Cape Canaveral SFS, located southeast of Kennedy, is a US Space Force Military facility and is operated by the Department of the Air Force. SpaceX leases SLC-40 at CCSFS and seeks to lease LC-37 there.
There are even gates between the two facilities, though they don’t seem to ever close. There is great cooperation between the Space Force and NASA, and they often work together when needed.
In this facilities map, the two different facilities that make up KSC and Cape Canaveral Space Force station are clearly visible. In green is KSC and in yellow is CCSFS Map: NASA
That’s important, because there are two authorities conducting two Environmental Impact Statements for two different launch pads: LC-37 and LC-39A. The former is the retired site of United Launch Alliance’s Delta IV Heavy rocket, which flew its last flight last year.
The last Delta IV Heavy on the launch pad at LC-37 last year. It’s successful flight marked the end of an era. Photo: Charles Boyer / Talk of Titusville
The latter, LC-39A, is of course the historic launch facility that served Apollo and STS (Shuttle) missions in its long and storied career. SpaceX has made their own history at LC-39A: the return of crew to orbit after a long gap following the end of the Shuttle program, the launch site of Falcon Heavy and other commercial spaceflight firsts.
Apollo 17 stands tall at LC-39A in 1972. It was the penultimate launch of a Saturn V. Photo: NASA
Current Status
The EIS process for LC-39A continues to be underway. No statements otherwise have been released by any of the parties involved, so it is safe to say that work is continuing.
SpaceX is preparing the EIS under FAA supervision, analyzing the environmental impacts of proposed Starship-Super Heavy operations, including up to 44 launches per year, infrastructure construction; a Super Heavy booster catch tower, propellant systems, and stormwater/deluge ponds), and landings at LC-39A or on a droneship.
The process is evaluating changes from the 2019 Environmental Assessment (EA), which found no significant impact but did not account for the current scope of operations. The next step is the release of the draft EIS for public review and comment, followed by a final EIS and a Record of Decision.
Release Date of the LC-39A Draft EIS
There is no specific release date publicly announced for the draft Environmental Impact Statement (EIS) for SpaceX’s Starship-Super Heavy project at LC-39A at Kennedy Space Center. The Federal Aviation Administration (FAA) initiated the EIS process with a Notice of Intent published on May 9, 2024, and held public scoping meetings in June 2024.
Based on typical EIS timelines (often 12-18 months) and the FAA’s ongoing work, the draft EIS is likely to be released in mid-to-late 2025. For comparison, the draft EIS for Starship launches at Space Launch Complex 37 (SLC-37) at Cape Canaveral Space Force Station was released on June 6, 2025, after a scoping period starting in February 2024, fifteen months earlier. The LC-39A EIS Draft should come in the next 5-6 months, or roughly the same time as a final decision on LC-37 is due, according to DAF project timelines.
New Federal NEPA Rules
The FAA has issued a notice rescinding its existing National Environmental Policy Act (NEPA) implementing procedures outlined in FAA Order 1050.1F, Environmental Impacts: Policies and Procedures, and replacing them with streamlined procedures in FAA Order 1050.1G. This change is driven by Executive Order 14154 of the President, entitled “Unleashing American Energy.”
The new order accelerates environmental reviews projects by imposing strict timelines and page limits on EISs (e.g., 2-year completion cap), expanding CATEX (Categorical Exclusion) usage, allowing combined exclusions, and promoting early collaboration to minimize delays. This aligns with the Trump Administration’s policy to expedite permitting. That could potentially benefit commercial space operators like SpaceX by shortening review periods for future licenses or modifications, thus supporting faster integration of technologies like Starship.
However, for the specific ongoing EIS for SpaceX’s Starship-Super Heavy operations at LC-39A, the new rules should not apply directly. Order 1050.1G applies only to FAA actions requiring environmental review that “commence on or after” July 3, 2025, and since the LC-39A EIS was started in 2024, the new order is moot.
Responsible Agencies
There is a mix of federal agencies responsible for completing aspects of the LC-39A EIS.
Lead Agency:Federal Aviation Administration (FAA), responsible for overseeing the EIS process and issuing a commercial launch Vehicle Operator License to SpaceX if the final decision of the EIS is to allow work on 39A to proceed.
Preparing Entity: SpaceX, tasked with preparing the EIS under FAA supervision.
Multiple Cooperating Agencies:
National Aeronautics and Space Administration (NASA): Manages KSC and leases LC-39A to SpaceX, providing oversight for space-related activities.permits.performance.gov
U.S. Fish and Wildlife Service (USFWS): Manages the Merritt Island National Wildlife Refuge, which includes KSC property, and provides expertise on wildlife impacts.permits.performance.gov
National Park Service (NPS): Oversees Canaveral National Seashore, partially within KSC boundaries, and contributes expertise on affected lands.permits.
U.S. Coast Guard (USCG): Involved due to maritime safety and airspace closures for launches.
Department of the Air Force (DAF): Coordinates due to proximity to Cape Canaveral Space Force Station and shared range.
For the most current LC-39A information, check the FAA’s website (www.faa.gov) or the project-specific page at :
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