SpaceX Starlink 10-17 lifts off from Cape Canaveral on October 19, 2025 Photo: Charles Boyer / Talk of Titusville
SpaceX added to its roster of Starlink satellites today when it launched the Starlink Group 10-17 mission from Space Launch Complex 40 at Cape Canaveral. Liftoff was at 1:39 PM ET and into partly cloudy skies on a day in the low 80s.
Aboard the rocket was another group of Starlink V2 Mini satellites, which will join the company’s Starlink network of more than 8,400 similar units in low-Earth orbit. Using Starlink satellites, the company provides Internet connectivity to over seven million customers in 130 countries and territories worldwide.
Launch Replay
Next Launch
Details
Mission
Falcon 9 Block 5 | SpainSat NG II — Go for Launch!
Organization
SpaceX
Customer / Payload Provider
Hisdesat / Spanish Government
Location
Cape Canaveral SFS, FL, USA
Rocket
Falcon 9
Pad
Space Launch Complex 40
Status
Go for Launch
Status Info
Current T-0 confirmed by official or reliable sources.
Window Opens
Wednesday, 10/22/2025 9:30 PM
Window Closes
Thursday, 10/23/2025 1:19 AM
Destination
Geostationary Transfer Orbit
Mission Description
Second of two next-generation satellites built by Airbus to provide secure communications for the Spanish government, its allies, and international organizations.
Broadcast Start Time
Coverage typically begins ~15 minutes before launch.
SpaceX Kuiper KF-03 timelapse, October 13, 2025 Photo: Charles Boyer
After multiple delays due to weather, the skies cooperated this evening for SpaceX, allowing the company to launch Falcon 9 and 24 Kuiper telecommunications satellites for Amazon. Liftoff was at 9:58 PM ET.
After flying straight and true throughout its part of the mission, after staging, Booster B1091-2 landed aboard ASDS ‘A Shortfall of Gravitas’ downrange in the Atlantic Ocean off of the coast of the Carolinas at T+ 00:08:18 of the flight.
Meanwhile the second stage and payload continued their ascent until the T+08:30:00 mark when the first second stage shutdown occurred. Another burn is scheduled for the T+00:52:50 mark, and payload deployment is slated to begin shortly after that.
This was the third and final mission for Project Kuiper hardware to launch aboard a Falcon 9, and SpaceX’s 133rd mission for 2025. All-time, SpaceX has flown 546 missions.
Payload
Amazon now has 153 Kuiper spacecraft in orbit.
The Kuiper project is Amazon’s initiative to provide broadband internet service through a constellation of satellites. Today’s launch is the sixth of a series that aims to meet the conditions set by the Federal Communications Commission, which require half of the planned 3,236 satellites to be in orbit by mid-2026. The full network is expected to be completed by mid-2029.
Amazon has publicly committed more than $10 billion to the development and deployment of the Kuiper constellation. The company is building out supporting infrastructure in tandem with the satellites, including user terminals and ground communication sites. The terminals, developed in-house, are designed to be compact and cost-effective. Amazon has said these terminals will support download speeds up to 400 Mbps and will be priced under $400, though full commercial service has not yet begun.
Trajectory
Estimated trajectory of SpaceX Kuiper KF-03.
Next Launch
Details
Mission
Falcon 9 Block 5 | Starlink Group 10-52 — Go for Launch!
Organization
SpaceX
Customer / Payload Provider
SpaceX — Starlink Division
Location
Cape Canaveral SFS, FL, USA
Rocket
Falcon 9
Pad
Space Launch Complex 40
Status
Go for Launch
Status Info
Current T-0 confirmed by official or reliable sources.
Window Opens
Thursday, 10/16/2025 2:42 AM
Window Closes
Thursday, 10/16/2025 6:42 AM
Destination
Low Earth Orbit
Mission Description
A batch of 28 satellites for the Starlink mega-constellation — SpaceX’s project for a space-based Internet communication system.
Broadcast Start Time
Coverage typically begins ~15 minutes before launch.
The rocket was clearly visible from The Cape as it passed to the south.
SpaceX launched its eleventh integrated flight of the Starship and Super Heavy booster system on Monday evening from Boca Chica in southeast Texas close to the Mexican border. Today’s mission tested core Starship systems including flight operations, launch, stage separation, engine relight, and controlled splashdowns among many other objectives. It was largely successful and marked a transition point for the company’s vehicle development program.
Starship light 11 lifts off from Boca Chica, Texas on October 13, 2025 Photo: Chris Leymarie, Florida Media Now
Liftoff occurred at 6:23 PM Central Time. Shortly after launch, the Super Heavy booster separated from the upper stage as planned and performed a controlled descent before splashing down in the Gulf of Mexico. There was no attempt to catch the booster using the tower’s mechanical arms. Before the launch SpaceX had reported that the descent data would inform future recovery efforts. In any event, the descent and landing of the booster appeared to be nominal in all respects until the rocket splashed down.
Ship 28, Starship’s upper stage, continued on a suborbital trajectory and deployed eight Starlink satellite simulators. It also successfully restarted its Raptor engines in space—an important test for missions that require multiple burns. The vehicle later reentered the atmosphere and splashed down in the Indian Ocean off of the northwest coast of Australia.
This flight is expected to be the final mission using the current version of the Starship hardware, as SpaceX prepares to introduce a more advanced variant, Version 3, with updated systems and structures. Engineers also gathered data on heat shielding and aerodynamic performance, which are critical for future operational flights.
Elon Musk watched the launch from outside mission control, describing the view as a different experience from past launches. No official statements were made during the live broadcast beyond brief technical updates.
Starship Flight 11. Photo: Chris Leymarie, Florida Media NowStarship Flight 11. Photo: Chris Leymarie, Florida Media NowStarship Flight 11. Photo: Chris Leymarie, Florida Media Now
NASA is monitoring the Starship program closely, as the vehicle is planned to serve as a lunar lander for future Artemis missions. While timelines remain uncertain, successful flights like this one move the system closer to the performance levels required for human-rated missions.
Another group watching closely were Space Coast residents. Starship is expected to heavily utilize the Eastern Range for many of its flights once it is operational, and tonight’s flight served as a preview of things to come in the area, probably sooner rather than later.
Starship Flight 11 hardware on the launch mount in Texas as the sun rises over the Gulf of Mexico. Photo: Chris Leymarie, Florida Media Now
SpaceX is set to launch Starship Flight 11 today from its Boca Chica, Texas, facility, on a test flight that potentially carries major implications for Florida’s Space Coast. As the company eyes future Starship operations from Cape Canaveral, today’s test flight will help validate critical systems—like heat shield performance, engine performance and stability, as well as booster recovery—all systems that must be fully qualified and fully dependable prior to the system entering an operational state.
As SpaceX prepares for the next Starship test flight from Texas, attention is shifting to Florida, where the company is laying the groundwork for future launches. SpaceX is preparing infrastructure at Kennedy Space Center and Cape Canaveral, potentially bringing economic growth, tourism surges, and job creation. At the same time, concerns about airspace closures, beach access restrictions, and environmental impacts are mounting locally.
Starship To Boost The Local Economy
The economic implications of Starship for the Space Coast region are significant. Experts believe that regular Starship launches could revive the kind of tourism once seen during the Space Shuttle era, drawing thousands of visitors and pumping millions into local businesses. Spending on hotels, restaurants, transportation, and entertainment could surge, while local hiring and infrastructure development could follow suit. If Florida becomes a key hub for Starship activity, the benefits could extend from tourism to long-term aerospace investment.
After 30 years and 135 missions, residents and visitors to Florida’s Space Coast crowd the new A. Max Brewer Bridge in Titusville to see the rocket’s red glare of NASA’s Space Shuttle Program soar for the last time. NASA / Frank Michaux
Others point to jobs that will be created both during construction and also during the ongoing operation of Starship from the Eastern Range. The Starship expansion in Florida is expected to create approximately 600 new full-time jobs on the Space Coast by 2030, along with a $1.8 billion infrastructure investment, according to a Reuters report.
Those are the direct jobs, and other indirect positions are likely to be created as well — payload processing, infrastructure support at The Cape and others come to mind. In short, it’s fair to say that Starship will bring jobs, local spending, increased tax revenues, and a lot of other positives for the Space Coast economy.
The Price Of Progress
But with those opportunities come challenges. Previous Starship launches have already caused ripple effects in Florida’s airspace. During Flight 8, the FAA grounded commercial flights at major airports across the state, including Miami, Orlando, and Palm Beach, due to debris concerns from failed flights. While those flight failures can fairly be attributed to the company’s efforts to develop and determine the limits of Starship hardware, the incidents also portend delays SpaceX ramps up operations here. Similar disruptions for ongoing normal operations could become more common, affecting both travelers and airlines across the region.
The Federal Aviation Administration (FAA) has warned that airline passengers could be delayed by up to 2 hours per flight, with an average interruption of 40 minutes per event. That will not only inconvenience passengers, it will also create logistics issues for air carriers and their destinations. All of that has a price, and airlines are resisting paying it.
Starship Flight 11 on the launch pad on October 13, 2025 Photo: Chris Leymarie, Florida Media Now
Environmental and community concerns are also growing. The FAA’s draft environmental review proposes closing Playalinda for around 60 days a year to create safety zones during launches and tests. That’s before Florida’s notoriously fickle launch weather is taken into account.
In the past 30 years of missions lifting off from the Kennedy Space Center or Cape Canaveral Air Force Station, about 48 percent of launch scrubs were because of weather violations. Each of those weather violations will result in additional closures at Playalinda and other nearby areas, inconveniencing not only tourists but also local businesses in the Titusville area that depend on them.
Local residents and advocacy groups are voicing concerns about the impact of frequent launches on wildlife, natural habitats, and noise levels. Researchers are also examining how the intense force of Starship liftoffs may spread particulate matter from the pad into surrounding areas. Whether that makes any difference to NASA, the US Fish and Wildlife Service or other government agency has yet to be seen.
Tonight’s Mission
Flight 11 will launch from Starbase in Boca Chica, Texas, using Booster 15 and Ship 38. Booster 15 will reuse a number of Raptor engines for its flight, proving the reusability of SpaceX’s new powerplants. After liftoff, the Super Heavy booster is expected to complete a full-duration ascent burn, separate cleanly from the Starship upper stage, and perform a controlled boostback and landing burn over the Gulf of Mexico. Unlike earlier tests that attempted landings on water, this booster will not be recovered, but the descent performance and engine burns will be closely monitored.
The Starship upper stage, once separated, will ignite its engines to reach near-orbital velocity and coast across the globe on a suborbital trajectory. The vehicle is expected to reenter Earth’s atmosphere over the Indian Ocean, targeting a controlled splashdown. During this phase, SpaceX will be evaluating critical thermal protection systems, particularly the performance of its heat shield tiles. This will help validate Starship’s reentry capabilities under conditions that simulate the return from orbital missions. The flight path has been carefully chosen to minimize risk to populated areas and optimize data collection.
Remote cameras set up, the press and spectators await t-0 and liftoff from Boca Chica for Starship Flight 11. Photo: Chris Leymarie, Florida Media Now
Success for Flight 11 doesn’t depend on full recovery or reuse but on hitting key engineering milestones. SpaceX is focused on clean stage separation, stable engine performance, successful ignition and shutdown sequences, and accurate reentry tracking. It also aims to test refinements in flight software, telemetry, and structural resilience. If the heat shield performs as intended and the booster’s descent proceeds according to plan, the flight will mark a step forward in proving Starship’s viability for future orbital missions, including satellite deployment, lunar landings, and eventually Mars transport.
Flight 11 is also a proving ground for operational procedures and systems integration that will feed into future missions from Florida and beyond. Every sensor reading, pressure fluctuation, and engine plume will inform hardware tweaks and software updates for the next generation of test flights. While the vehicle won’t carry payloads or astronauts this time, the stakes are high: SpaceX is racing to mature Starship into a reliable workhorse for NASA’s Artemis program.
No matter the outcome of tonight’s flight, Starship in Florida will remain a hot topic, at least until the Department of the Air Force and the FAA release their findings from the ongoing environmental studies, which are now in their final rounds with the public. Those decisions are due late this year or early in 2026.
Starship Flight 10 Rising: initial ascent from the Texas coast went exactly as planned. Photo: Chris Leymarie, Florida Media Now
File photo: Starlink launching in 2023 from SLC-40 in Cape Canaveral. Photo: Charles Boyer / Talk of Titusville
SpaceX is planning to launch another tranche of Kuiper satellites for Amazon from Space Launch Complex 40 at Cape Canaveral Space Force Station Monday evening after weather delays stopped previous attempts last week. The current launch window opens at 08:08 PM ET (0008 Z), and closes at 10:22:00 PM the same day. Weather here at the launch site is all but perfect, but out at sea, conditions in the expected booster landing area will remain a concern for at least another couple of days.
After launching and powering the initial ascent phase for the mission, Booster 1091-2 will complete its second mission by landing on ASDS ‘Just Read the Instructions’, which is stationed downrange in the Atlantic Ocean.
Should it be required, a backup launch opportunity is available on Tuesday, October 14 starting at 7:46:00 PM ET.
At A Glance
Details
Mission
Falcon 9 Block 5 | Project Kuiper (KF-03) — Go for Launch!
Organization
SpaceX
Customer / Payload Provider
Amazon Kuiper Systems
Location
Cape Canaveral SFS, FL, USA
Rocket
Falcon 9
Pad
Space Launch Complex 40
Status
Go for Launch
Status Info
Current T-0 confirmed by official or reliable sources.
Window Opens
Monday, 10/13/2025 8:08 PM
Window Closes
Monday, 10/13/2025 10:22 PM
Destination
Low Earth Orbit
Mission Description
Third of a three-launch contract for Amazon’s Kuiper low Earth orbit
satellite internet constellation, with 24 satellites on board.
Broadcast Start Time
Coverage typically begins ~15 minutes before launch.
As of 11:48 AM Friday October 10, 2025. Launch times are subject to change or cancellation at any time. Consult
SpaceX.com
for more information.
Weather
The 45th Weather Squadron of the US Space Force’s Launch Delta 45 has forecast a 95% chance of acceptable conditions at The Cape, and they have also outlined concerns in the booster recovery area.
Trajectory
The vehicle is expected to insert its payloads into a roughly 630 km altitude, 52° inclination orbit — the same operational orbit used for prior Kuiper launches.
Payload
Tonight’s launch carries 24 Kuiper satellites, built for Amazon’s Project Kuiper constellation. These spacecraft are designed for broadband internet delivery, each outfitted with advanced phased-array antennas and inter-satellite laser links to route data across the network.
Together, they will bolster a growing low Earth orbit (LEO) broadband mesh that Amazon aims will eventually consist of over 3,200 satellites to provide global high-speed internet access.
Once in service, these 24 new Kuiper satellites will add capacity and redundancy to the live network. They’re expected to support continuous global coverage in coordination with previously launched Kuiper craft, making the network more robust against outages or orbital anomalies.
Launch Viewing: In Person
The best options are available for spectators: Jetty Park, the Banana River Bridge on FL 528 W or the southern Titusville parks on Washington Avenue / US-1.
The Space Bar will be open through the launch window. Restaurants in Port Canaveral, specifically Gators Dockside, Fishlips and Grills Seafood should have good views after the rocket clears obstructions.
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.
Launch Viewing: Online
SpaceX will have a livestream of the launch on their website: Kuiper KF-03. 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.
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.
Falcon Heavy launches the GOES-U weather satellite for NOAA on JUne 25, 2024. Photo: Charles Boyer / ToT
Since its first flight in 2018, Falcon Heavy has demonstrated exceptional lift capacity and mission flexibility. After the retirement of the venerable Delta IV Heavy, Falcon Heavy is the only three-liquid booster-core combination in operation at the Cape. SLS uses solid rockets as its side cores.
So far this year, Falcon Heavy has not been on SpaceX’s launch schedule. The last Heavy launch was on October 14, 2024, but at least one is tentatively set for late 2025, and as of now, there are no confirmed Falcon Heavy launches with a fixed date before 2027.
Astrobotic’s Griffin-1 Set For NET December
Astrobotic’s Griffin Mission One is a lunar lander contracted by NASA as part of the Commercial Lunar Payload Services (CLPS) program, and it is slated to head for the Moon aboard a Falcon Heavy. It is reportedly on schedule for a December launch from Kennedy Space Center, assuming that payload preparation and rocket availability remain on track.
Two Potential Flights For Falcon Heavy In 2026
For other Falcon Heavy missions, the schedule is far more nebulous. There are two potential Falcon Heavy missions scheduled for next year, but no specific target dates for launch have been announced.
That said, it is possible that after the Griffin launch late this year that SpaceX might launch Starship from LC-39A before a Falcon Heavy. Possible, sure, but launch schedules have a funny way of changing without notice, so as always, keep an eye on the schedule trackers for the latest information.
First, the USSF launches recently granted (plus Griffin). After that, it gets interesting.
Expected Falcon Heavy Launches — Now through January 1, 2027
Mission / Payload
Launch Vendor
Rocket
Estimated / NET Date
Remarks / Notes
Griffin Mission 1
SpaceX
Falcon Heavy
Late 2025
Listed on multiple tracking sites as the next Falcon Heavy launch from LC-39A.
USSF-75
SpaceX
Falcon Heavy
2027
Appears in SpaceX manifest as a future Falcon Heavy mission.
USSF-70 (ROOSTER-5 & TETRA)
SpaceX
Falcon Heavy
2027
Listed in 2027 manifest; details subject to change.
NROL-97
SpaceX
Falcon Heavy
2027
Manifest sources list as planned Falcon Heavy mission.
USSF-186
SpaceX
Falcon Heavy
2027
Manifest shows “planned” status for late-decade launch.
As of October 6, 2025. Launch dates are subject to change or cancellation.
Others:
There is no current launch schedule for launching the ViaSat-3 F3 (Asia-Pacific) satellite; the satellite’s launch is planned for late in 2026, after its sister satellite, ViaSat-3 F2, is in service. It will be carried to orbit aboard Falcon Heavy.
Astrobotic’sthird lunar mission is targeted for launch in 2026 aboard Falcon Heavy. No date for liftoff has been given as of yet.
That tells me that if I want to witness the raw power and fury of a Falcon Heavy any time soon that I should make plans for the Astrobotic launch later this year. It might be a while after that before the heavy lifter flies from The Cape.
Falcon Heavy in flight on October 14, 2024 carrying the Europa Clipper probe for NASA.
Photo: Charles Boyer / TOT
Sputnik 1 ascends aboard a Soviet R-7, October 4, 1957. Photo is from a Soviet documentary, “Ten Years of Space”
On October 4, 1957, the Space Age began in earnest: on that day, the Soviet Union orbited Sputnik 1, shocking the world and especially the United States. Sputnik was flying overhead, the Russians were having a propaganda feast, and military leaders were confronting a sobering new reality.
Fear and anger washed over the West. If the Soviet Union could orbit the entire planet, then their missiles could strike any target any place in the world too. Suddenly, the Cold War was a lot colder. Nobody was safe. Anywhere.
Then came the questions: Were the Russians that far ahead of everyone, especially the US? Could America have orbited a satellite first? Then, of course, the biggest question, the one that was usually shouted: What are we going to do about it?
The answer to the last question was to orbit our own artificial moon, or satellite. Soon.
The answers to the other questions are nuanced. The US was indeed capable, and could have been the first to orbit, probably. Even if it had, America was still technically behind the Russians, who could loft more mass than the US.
President Dwight D. Eisenhower (1953 to 1961)
From the convenience of the hindsight offered by history, the short answer is technically that the United States rocket probably could have won the race to orbit, but politically, not under President Dwight D. Eisenhower.
Geopolitical Chess Games
Eisenhower deliberately chose a civilian path to America’s first satellite to set a crucial legal precedent for future reconnaissance, and he kept the Army’s rocket team (ABMA) on a tight leash until after Sputnik flew. Meanwhile, the Army had nearly complete orbit-capable rockets stored in an Alabama warehouse long before October 4, 1957, and the launch of Sputnik 1. Eisenhower sidelined them.
Years before Sputnik, Eisenhower was already pursuing reconnaissance satellites. In 1954, he had established The Killian Panel to devise technology for global intelligence gathering that would reduce the possibility of a surprise nuclear attack. The result was an initial concept for the WS-117L reconnaissance satellite program, which the Air Force began in earnest in 1956, with the result being the first American spy satellites.
Eisenhower’s advisers worried before Sputnik that if the United States put a military satellite such as a WS-117L spacecraft over other countries first, it could trigger diplomatic protests that outer space was sovereign airspace above each nation below.
To negate this idea, the White House therefore backed a civilianInternational Geophysical Year (IGY) satellite using the Navy’s Vanguard, precisely to establish the norm that satellites could lawfully overfly national territory—a principle dubbed “freedom of space.”
When Sputnik crossed American skies without international protest, Eisenhower saw that the norm was effectively validated. The concept of “Freedom of space” remains relevant to this day. So do reconnaissance satellites.
The firestorm was intense and instantaneous. ‘America,’ many political commentators said, ‘cannot let this stand.’
Publicly, the President downplayed Sputnik’s military significance but privately, he took it as a useful assist to the overflight precedent he wanted for reconnaissance. The punch certainly stung, but Eisenhower, ever the cagey strategist rolled with it.
It took Eisenhower four days to order an acceleration of the first U.S. launch. On Oct. 8, 1957, he directed the Pentagon to ready the Army Ballistic Missile Agency (ABMA) to orbit a satellite; the formal go-ahead arrived in Huntsville on Nov. 8. Explorer 1 flew on Jan. 31, 1958.
Did The US Have An “Orbit-Capable” Rocket Before October 4, 1957?
“The Redstone flew in ’53 the first time, and even before that, in about ’52, von Braun and I met each other in the hallway one day, and just in passing, he said to me, “With the Redstone we can do it.”
From a technical standpoint, the Army’s Jupiter-C was close to being an orbital launcher. But “close” is not “on the pad.” Juno did not have a flight-ready payload assembled and qualified, nor had it been authorized for an orbital mission. The ABMA team was dealt out despite holding the best hand at the table. Moreover, the orbital configuration’s design existed, had even been flight tested, but had never, of course, gone into orbit.
In 1956–57, Jupiter-C performed high-altitude nose-cone tests and ABMA and JPL engineers knew that adding a small fourth stage a small payload could reach orbital velocity—the configuration that lofted Explorer 1. In those earlier tests, the highest stage was intentionally “dead” (often described as being ballasted with sand) to prevent any accidental satellite. Those were orders, not a lack of know-how. The fourth stage would have to wait.
Were Orbit-Capable Rockets Just “Sitting In A Warehouse?”
One of the enduring stories claims ABMA had “orbit-capable rockets sitting in a warehouse” before Oct. 4, 1957. There is a kernel of truth wrapped in myth that has become legend.
ABMA did keep Jupiter-C hardware available from its nose-cone test series in storage in Huntsville, and senior Army leaders argued they could orbit a small satellite quickly if authorized. Those rockets were, of course, in Alabama, and not here in Florida, where they would eventually launch.
Later accounts (and Army memoirs) recall these “surplus” Jupiter-C vehicles “on the shelf” and describe efforts to ensure no accidental orbital launches resulted during previous test flights.
“Tucked away inside the Jupiter-C program was a well-known secret agenda to assemble one of these vehicles with a 4th stage that could place a small object into orbit about the earth. One of the Jupiter-Cs received special handling and security. When we conducted the SFT, which included testing all the electronics necessary to activate the 2nd, 3rd, and 4th stages, the Commanding General and Dr. von Braun were on hand to observe the test.
“When that test was completed, the whole assembly was wrapped and carried to a sealed hanger to await the possible permission to orbit a satellite.”
That supports the notion of ready hardware—but not a complete, cleared satellite mission waiting only for a countdown. Some final preparations would be needed. A payload needed to be designed, built and tested. The rockets would need to be transported to the Cape, they’d need to be prepared, tested, payload installed, tested some more, taken out to the launch pad then prepared to launch, etc. before finally flying. Once flying, telemetry would need to be monitored, a global task then involving international cooperation and even ships placed at points mid-ocean.
Those preparations are demanding and exacting and encountering problems during a launch campaign is almost expected. Especially when it is your first time doing it.
The Flop Heard Around The World: Vanguard TV3
On December 6, 1957, the US made its first reply to the Soviet feat.
Here at Cape Canaveral, Vanguard Test Vehicle-3 (TV-3) managed to rise only about 4 feet before it lost power. The rocket then collapsed back onto the launch pad and detonated in a tremendous fireball. It was a highly visible and embarrassing setback for the US.
Newspapers derided the failure with nicknames like “Flopnik” and “Kaputnik,” playing off the Soviets’ Sputnik triumph. Though the Vanguard payload was hurled clear of the blast and later recovered, it was too damaged for any further use. The rocket was in thousands of pieces and for it, there was no repair. For the time being, Vanguard was out. Redstone and ABMA were the US best hope to reply to the Soviet Union.
Now tasked to orbit a satellite after Sputnik, ABMA and JPL went to work as preparations for another Vanguard attempt continued elsewhere. The ABMA / JPL teams fielded the Juno I / Explorer 1 booster and satellite combination and launched successfully on Jan. 31, 1958.
If that sounds simple, it wasn’t. VL Pinson, Sr., an ABMA employee then located here in Cocoa said, “We checked, then we rechecked, then we checked again. When we were asleep we were dreaming about what we should check the next day. Everything had to be right.”
Turned out, the ABMA and JPL team did a whale of a good job. They successfully launched to orbit on their first try, a feat that even today is notable. In 1957, it was an incredible achievement.
William Pickering, James Van Allen, and Wernher von Braun celebrating at the announcement of Explorer I’s successful launch in 1958.
That mission is obviously the stuff of legend: in 119 days, the United States joined the Soviet Union as a spacefaring nation. While the two countries had launched “scientific” satellites, the meaning was very clear to military leaders from both sides of the Iron Curtain: either side can strike the other at any place and at any time. The reality of Mutual Assured Destruction was coming quickly into focus.
The speed of the ABMA Juno-1 turnaround underscores how mature the hardware was—but also that it was policy, final approvals and geopolitical gamesmanship that stood between Huntsville and an actual pre-Sputnik orbit.
So, Could The US Have Gone First?
There are a lot of ifs, but yes, under different political circumstances, the US probably would have beaten Sputnik 1.
If Washington had chosen the Army’s route in 1955–56 instead of Vanguard, the U.S. might have launched first. ABMA and its Redstone family were farther down its development timeline, its team more experienced, and its platform more robust. Its chances of success were always higher than Vanguard.
On the surface, that might suggest the US backed the wrong horse. Still, Eisenhower’s decision to support the Vanguard program was strategic and never careless: it prioritized a civilian image and the overflight precedent essential for the reconnaissance satellites that his administration was already developing.
So, sometimes when you lose, you win.
As NASA’s own history notes, the administration viewed Sputnik less as a military threat than as an (unwelcome) but useful boost to establishing “freedom of space.” Once that point of international law was established, Eisenhower unleashed Huntsville and JPL—and Explorer 1 was in orbit within weeks. And not so long afterward,
The Space Age was born and the starting gun for the Space Race had been fired…twice. The world and especially the areas around Cape Canaveral would never be the same.
For a fleeting moment, New Glenn lit LC-36 blue as it lifted off on the first. Photo: Charles Boyer / Talk of Titusville
As October progresses, Blue Origin has turned up the tempo of its preparations for the next launch of its New Glenn rocket. Plans are converging toward a liftoff sometime between mid-October and mid-November for the second mission of the 322-foot-tall (98-meter) rocket, which will carry NASA’s twin Rocket Lab-built ESCAPADE probes and place them on their way to Mars.
Though the company has not yet committed to a hard launch date, recent public statements suggest the first-stage static fire is likely to occur in the middle of the month, with a launch to follow soon thereafter. All of the pieces are coming together for a second New Glenn flight.
In a post on social media, Blue Origin affirmed that “ESCAPADE is at Astrotech and GS1 [the first stage] is headed to LC-36 in early October,” adding that the “vehicle hotfire mid-month” is the next major activity. Given that today is October 2, “mid-month” is only a couple of weeks away.
That phrasing strongly implies that the full booster test—igniting all seven BE-4 engines while the booster is held on the pad—is expected in mid-October. Assuming a successful test firing of GS1, the entire launch vehicle will then be stacked and returned to LC-36 for its eventual flight to space.
An update on NG-2: ESCAPADE is at Astrotech and GS1 is headed to LC-36 in early October. Next up is the vehicle hotfire mid-month with launch soon thereafter. pic.twitter.com/E8M2O7LbEs
Meanwhile, the second stage of the vehicle has already undergone a dedicated hot-fire test on September 23, a milestone that cleared that portion of the stack for upcoming integration work.
The FAA already licenses New Glenn Flight 2 under Blue Origin’s existing five-year Part 450 commercial space launch license, issued in December 2024 and valid through at least 2029. No separate license is required for subsequent flights under this framework, provided that Blue Origin meets the changes required after NG-1’s flight and subsequent investigation.
This license authorizes multiple orbital missions from Cape Canaveral Space Force Station (LC-36), including reusability attempts for the first stage on an Atlantic barge. It covers Flight 2 following the closure of the Flight 1 mishap investigation in March 2025.
Meet our second booster, with all modules mated: “Never Tell Me The Odds.” I think the odds of landing this booster are a lot better than 3,720-to-1. Both strakes are in place, and BE-4 installation is well underway. Great job by the team as we continue getting our second… pic.twitter.com/B065jDvA7N
Pretty clearly, business is picking up for Blue Origin. Sooner rather later, skies above the Space Coast are going to turn blue again as NG-2 powers its way to orbit. And may the odds ever be in their favor.
At 12:01 this morning, the federal government officially entered a shutdown after Congress failed to pass a continuing resolution funding key agencies. The shutdown’s ripple effects reach far, and here on the Space Coast, into the heart of America’s space program at KSC. According to many reports, NASA officials are scrambling to balance mission continuity, public access, and workforce impacts.
Since 1976, the U.S. has experienced shutdowns 20 times, with an average duration of just eight days. The most protracted one—from late 2018 into early 2019—spanned 34 days. Past events do not necessarily predict present ones, but one could expect the political pressure on both sides to ramp up steeply starting today.
The most visible impact is the furloughing of tens of thousands of NASA civil servants. According to agency estimates, more than 15,000 NASA employees have been sent home due to the funding lapse. A specific number of furloughed NASA employees here was not given, and Talk of Titusville has asked NASA for that number but has not heard back at the time of this writing.
Despite the disruption, NASA leadership and local officials have emphasized that the Artemis program will remain a priority and, to the extent possible, projects already in motion should not be derailed. “For the space industry, we want to make sure Artemis II goes off in spring. I’ve spoken to NASA — whether the government shuts or not, that is still on target,” said Congressman Mike Haridopolos, R-Brevard County.
What Is Affected?
As of today, across KSC and NASA, the nonessential components are largely in cold or idle mode. Budgetary and personnel constraints mean:
Research and development projects not already in “excepted” status are paused
Ground systems upgrades, facility maintenance, and infrastructure improvements are deferred
Administrative, planning, outreach, and educational activities are suspended
Many scientists, engineers, and support staff await instructions or return to work orders
Effects on KSC NASA Employees
Because of the funding freeze, NASA’s plans stipulate that when appropriations resume, back pay will be awarded retroactively under the Government Employee Fair Treatment Act of 2019. That’s good for the workers, but again, depending on the length of the shutdown, many will undoubtedly undergo some financial stress until they resume receiving paychecks. That might ripple through the local economy as workers reduce discretionary spending in order to stretch their savings further.
Back at NASA, delays in funding or staffing could create schedule pressure. Without support testing, mission planning, ground support and other necessary background tasks for the Artemis II launch campaign will inevitably be delayed and that in turn will delay the flight of Artemis II.
Tours At KSC Are Still Running; Sands Museum Is Closed
In a somewhat surprising twist, the Kennedy Space Center Visitor Complex remains open despite the federal shutdown. That’s due to Delaware North being a private contractor and the operator of KSCVC, and as such, they are not beholden to the federal budget.
At the same time, the shutdown may curtail some exhibit programs, tours, and demonstrations. Some behind-the-scenes access, such as bus tours, could be limited or suspended. Contact KSCVC for more information.
KSCVC Photo: Delaware North
On the other side of The Cape, the Sands Museum is closed, according to museum director James Draper, He posted this today on X.com:
The American Space Museum in Titusville is unaffected and will presumably operate on its normal schedule.
Playalinda Beach and other Cape Canaveral National Seashore facilities are closed, as are other national parks in the Sunshine State. Unlike 2013 there are no signs indicating the closure. There are some reports circulating that national parks across the country are operating in a “partially open” mode (whatever that means) so if you are interested in visiting one of the parks, call ahead first.
How Long Might This Last?
That’s a good question, and there is no certain answer other than “as long as it takes Congress to act like adults and do their jobs.” In other words, no one knows with any certainty. Congress is not well known for compromise and governing these days, so it is a matter of when they cave to political pressure.
Dream Chaser Tenacity at Kennedy Space Center Photo: Sierra Space
In a shift for NASA’s Commercial Resupply Services (CRS) program, the agency and Sierra Space announced today a mutual agreement to modify their contract concerning the Dream Chaser spaceplane.
Instead of committing to a series of resupply missions, Sierra Space will now focus on a free-flight demonstration targeted for late 2026, while NASA will provide only minimal support for the remaining development phase.
Under the revised agreement NASA is no longer bound to purchase a defined number of resupply missions from Sierra Space. If the free-flight demonstration is successful, NASA retains the option to contract later resupply missions via the current framework.
NASA’s involvement will scale back to a minimal supporting role for the remainder of the project and the demonstration itself.
“Development of new space transportation systems is difficult and can take longer than what’s originally planned. The ability to perform a flight demonstration can be a key enabler in a spacecraft’s development and readiness, as well as offering greater flexibility for NASA and Sierra Space,” said Dana Weigel, manager of NASA’s International Space Station Program.
“As NASA and its partners look toward space station deorbit in 2030, this mutually agreed to decision enables testing and verification to continue on Dream Chaser, as well as demonstrating the capabilities of the spaceplane for future resupply missions in low Earth orbit.”
Graphic representation of Dream Chaser on orbit. Credit: Sierra Space
Dream Chaser was born out of NASA’s Commercial Crew Development (CCDev) program, initiated in 2010. NASA awarded Sierra Nevada Corporation (SNC), the original developer of Dream Chaser, over $300 million across multiple Commercial Crew Development (CCDev) phases.
In 2016, NASA selected Dream Chaser under the Commercial Resupply Services 2 (CRS-2) contract, alongside SpaceX and Northrop Grumman. NASA committed to at least six resupply missions to the ISS using Dream Chaser, starting no earlier than 2020, later delayed to 2023, then 2024, and now late 2026.
The Dream Chaser cargo variant, called Tenacity, was designed specifically to fulfill these missions and was slated to fly on one of the United Launch Alliance Vulcan certification flights. Those Vulcan flights have come and gone, and Tenacity has remained at Kennedy Space Center, ostensibly in preparation for its maiden flight. At this point in time, it is unclear if the spacecraft will remain here in Florida, or will return to Sierra’s facilities while work on Tenacity is completed.
Vulcan Cert 2 lifts off with a dummy payload instead of Dream Chaser in October of 2024. Photo: Charles Boyer / Talk of Titusville
Now, under the revised agreement, NASA’s role is being reduced to minimal support, as Sierra Space leads the flight demo independently. If successful, NASA may still procure future cargo flights, but it is no longer obligated to do so.
This leaves Dream Chaser with an uncertain future: it is clearly having problems finalizing its development, and once that development is completed, there is no guarantee that NASA will be a customer. Given that ISS operations are slated to end in 2030, the space agency may opt to pass on the Dream Chaser entirely and continue to rely on SpaceX and Northrop Grumman’s proven platforms instead to retire risks in ISS logistics.
Should that come to pass, Sierra Space could have a completed orbital spacecraft with no immediate customers. That’s the bad news. The good news is that an offering of supply services aboard an already certified platform that is launcher-agnostic might be compelling to commercial space station vendors, provided the price is right.
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