NASA and SpaceX launched the GOES-U weather satellite for NOAA today from Launch Complex 39A at Kennedy Space Center at 05:26 PM EDT, ten minutes after the launch window opened, with thunderstorms looming in the distance. With mission managers satisfied that the storms would not affect either the launch of landings of Falcon Heavy, the launch proceeded as planned.
Florida weather can be a capricious, fickle thing, and that’s just what it has been the past few days on the Space Coast: windy, occasional rain, or sometimes both — weather that’s normal for this time of year but not very good for launching rockets. That caused two scrubs for SpaceX this week, due to high winds at Cape Canaveral.
Today, on the third attemt, the winds abated and the storms stayed far enough away for SpaceX to launch Falcon 9 carrying the Astra 1P / SES-24 television satellite to orbit. Liftoff was at the opening of the launch window at 5:35 PM EDT and roughly eight-and-a-half minutes later, Booster B1080 touched down safely aboard ASDS ‘Just Read The Instructions’ in the Atlantic Ocean, completing its mission for the day. At 6:10 PM EDT, SpaceX confirmed successful deployment of the payload, marking another successful mission for the launch services company. Astra 1P will now move under its own power to geosynchronous orbit, where it will begin its commissioning process.
SpaceX is targeting a Falcon 9 launch of 22 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida this evening.
The launch window opens at 5:20 PM EDT and extends until 9:00 PM EDT. The backup window for this launch is Thursday, June 13, starting at 4:46 p.m. EDT.
Weather may be an issue, as heavy rains are forecast for the region today.
According to the National Weather Service at 10:30AM EDT today, “Showers and possibly a thunderstorm, mainly before 10pm, then a chance of showers and thunderstorms after 10pm. Low around 75. South southwest wind around 10 mph, with gusts as high as 20 mph. Chance of precipitation is 80%. New rainfall amounts between a quarter and half of an inch possible.”
22 Starlink Mini V2 satellites, to be used in SpaceX’s orbital-based Internet service.
The 45th Weather Squadron is forecasting a 95% chance of creating a Range Violation Thursday, meaning a mere 5% chance of acceptable conditions throughout the launch window. On Thursday, conditions improve slightly: 15% “Go”, with an 85%” Probability of Violation.
In their discussion, the 45th Weather Squadron states, “The Spaceport, and the remainder of the peninsula, will see very wet and unsettled weather conditions through the remainder of the week. The forecast question for both the primary launch opportunity Wednesday afternoon and backup on Thursday remains exactly where [a frontal] boundary drifts to, and how quickly a developing area of low pressure sets up off the northeast Florida coast. For Wednesday afternoon, models differ if weather for launch opportunities may be better earlier or later in the window.“
The National Weather Service predicts cloud cover of about 80% tonight at the opening of the launch window.
The planned trajectory for the launch is northeast, or right-to-left if you are facing the Atlantic Ocean on Florida’s east coast. Depending on the time of day and the weather in their location, people living to the north of the Space Coast may see the rocket as it ascends.
According to SpaceX, tonight’s booster previously launched “This is the 16th flight for the first stage booster supporting this mission, which previously launched previously launched SES-22, ispace’s HAKUTO-R MISSION 1, Amazonas-6, CRS-27, Bandwagon-1, and 10 Starlink missions. Following stage separation, the first stage will land on the Just Read the Instructions droneship, which will be stationed in the Atlantic Ocean.” and will be on its nineteenth mission overall. That’s Booster B1073.
B1073 last flew May 12, 2024, or thirty-one days ago.
| Booster B1073 | May 12, 2024 | |
| Flight | Mission | Date |
| 1 | Starlink 4-15 | May 14, 2022 |
| 2 | SES-22 | June 29, 2022 |
| 3 | Starlink 4-26 | August 10, 2022 |
| 4 | Starlink 4-35 | September 24, 2022 |
| 5 | HAKUTO-R | December 11, 2022 |
| 6 | Amazonus Nexus | February 7, 2023 |
| 7 | CRS-27 | March 15, 2023 |
| 8 | Starlink 6-2 | April 19, 2023 |
| 9 | Starlink 5-11 | June 12, 2023 |
| 10 | Starlink 6-12 | September 4, 2023 |
| 11 | Starlink 6-27 | November 8, 2023 |
| 12 | Starlink 6-37 | January 15, 2024 |
| 13 | Starlink 6-41 | March 4, 2024 |
| 14 | Bandwagon-1 | April 7, 2024 |
| 15 | Starlink 6-58 | May 12, 2024 |
There are key events in the countdown that you may hear called out in launch coverage.
Remember that once Propellant Loading (T-minus thirty-eight minutes) starts, Falcon 9 is committed to the launch attempt. Because of the nature of the cryogenic fuels used to power the rockets, any hold precludes a later launch attempt the same day. While it only rarely happens, there have been occasions where that has happened, and a launch scrub is called for the day’s attempt.
SpaceX provides the following countdown milestones on their mission information page:
| Hours:Minutes:Seconds | Event |
| 00:38:00 | SpaceX Launch Director verifies go for propellant load |
| 00:35:00 | RP-1 (rocket grade kerosene) loading begins |
| 00:35:00 | 1st stage LOX (liquid oxygen) loading begins |
| 00:16:00 | 2nd stage LOX loading begins |
| 00:07:00 | Falcon 9 begins engine chill prior to launch |
| 00:01:00 | Command flight computer to begin final prelaunch checks |
| 00:01:00 | Propellant tank pressurization to flight pressure begins |
| 00:00:45 | SpaceX Launch Director verifies go for launch |
| 00:00:03 | Engine controller commands engine ignition sequence to start |
| 00:00:00 | Falcon 9 liftoff |
Typical SpaceX countdown timeline is presented for information purposes only.
SpaceX has published a timeline of expected events during the mission:
| Hours:Minutes:Seconds | Event |
| 00:00:00 | Liftoff |
| 00:01:10 | Max-Q (Moment of peak mechanical stress on the rocket) |
| 00:02:24 | 1st stage main engine cutoff (MECO) |
| 00:02:28 | 1st and 2nd stages separate |
| 00:02:35 | 2nd stage engine starts (SES-1) |
| 00:02:54 | Fairing deployment |
| 00:06:09 | 1st stage entry burn begins |
| 00:06:33 | 1st stage entry burn ends |
| 00:07:53 | 1st stage landing burn begins |
| 00:08:18 | 1st stage landing |
| 00:08:38 | 2nd stage engine cutoff (SECO-1) |
| 00:43:50 | 2nd stage engine starts (SES-2) |
| 00:43:52 | 2nd stage engine cutoff (SECO-2) |
| 00:52:44 | Starlink satellites deploy |
All events up to the end of the 1st stage entry burn should be visible for launch spectators watching the launch in person, so long as clouds are not blocking the viewer’s line of sight.
SpaceCoastLaunchCalendar.com will have a livestream of the launch if you’re not able to watch the launch in person: Livestream
SpaceX will have a livestream of the launch on their website: Starlink 10-2. This will also be available on the X platform. Coverage starts about five 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 Launch 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.
This morning’s planned launch is from SLC-40, on the south side of the Eastern Range (KSC and Cape Canaveral Space Force Station combined.) The southern parks in Titusville on Washington Avenue and FL-528/A1A in Cape Canaveral are the best spots to watch liftoff directly.
Given the early hours of the launch window (7:30AM – 11:30AM EDT) these restaurants may not be open for launch viewing. Later in the day, all three may well be, so if you are interested, be sure to call ahead to make sure they’ll be ready to serve you.
There are several excellent viewing spots for SLC-40 launches that offer indirect views — meaning you won’t see the rocket until it clears obstructions such as trees, buildings, even a storm berm in one case.
Playalinda Beach out on the Cape Canaveral National Seashore will be open to spectators until 8 PM EDT, that is if KSC Security and the National Park Service allow viewers for the launch. It opens to visitors at 6 AM.
Call ahead to be sure.
Cape Canaveral National Seashore • Playalinda Beach
Phone: (386) 428-3384 x0
Current operating hours: 6:00 AM–8:00 PM
If you are going to Playalinda, and if it is open, remember these general tips. Some may not apply to this particular launch.
Be prepared for potential changes or pushbacks in the launch schedule, and keep up by monitoring the live stream links mentioned above.
Keep up with launch news and other space events that affect the local area by subscribing to alerts when we publish a new article by entering your email at the link at the bottom of this page, or by visiting Space Talk here on the website. It’s free, and you can cancel at any time.
I was not able to be present at Cape Canaveral for the actual launch of Starliner due to prior commitments and the two previous scrubs of the flight moving the schedule into the middle of another long-planned trip. Disappointing, but things happen. I was, however, able to capture a lot of the prelaunch activities:
Beneath a full moon this evening, SpaceX launched another twenty-three Starlink Mini V2 satellites to orbit after successfully launching the Starlink 6-62 mission from Space Launch Complex 40 from Cape Canaveral Space Force Station this evening.
Liftoff was at 10:35 PM EDT. Around 8.3 minutes after liftoff, the first-stage booster used for the mission, tail number B1080, touched down safely on ASDS ‘A Shortfall of Gravitas’, stationed downrange in the Atlantic Ocean. After landing, B1080 has now flown eight times.
One does not have to work in the space industry to know that the Eastern Range is a very busy place these days. Less than ten years ago, the gaps between rocket launches were often measured in weeks or months. For example, in 2016, there were 23 launches from the Space Coast, and only 16 in 2017.
Today, in 2024, there are often two or more orbital launches per week and sometimes as many as two in one day from the combined facilities of Kennedy Space Center and Cape Canaveral Space Force Station. There were 73 launches from here in 2023, and as many as 111 could happen this year. As such, bottlenecks and competing priorities for launch times and resources are rising, leading Congress to possibly instruct the US Space Force to consider offloading some national security launches to other sites.
The House Armed Services Committee’s draft fiscal 2025 defense policy bill has an interesting requirement: to study the possibility of launching NSSL (national security) payloads from other ranges than Vandenberg SFB and Cape Canaveral SFS as soon as 2025. Remember that this is a draft of the bill in committee and that it has a long way to go before it becomes law if, indeed, Congress and the current Administration can agree on a budget in the first place.
There are some twenty spaceport-designated facilities in the US today. Only five of them are capable of supporting vertical rocket launches: the Eastern (Cape Canaveral / KSC) and Western (Vandenberg SFB) Ranges, Alaska’s Pacific Spaceport Complex, Spaceport America near southeast of Truth or Consequences, New Mexico, and the combined areas of Wallops Island — Mid-Atlantic Regional Spaceport and Wallops Flight Facility in Virginia. That in mind, the House committee’s draft bill says those sites must be considered for additional NSSL launches.
SpaceX and United Launch Alliance already use this facility for many launches, with the frequency of those launches expected to rise drastically over the next few years. SpaceX plans to launch 90 rockets into space from the Western Range by 2026, while ULA is working towards certification of the once-launched Vulcan for national security payloads that would include the Western Range as a launch point.
According to many reports, those plans—especially the SpaceX plans—are running into local opposition. The California Coastal Commission, a powerful agency in the State of California, and other environmental groups have questioned whether the planned increase should be allowed. This is an ongoing issue with no resolution in the foreseeable future.
Wallops Island is an active spaceport where Rocket Lab and Northrup Grumman have conducted orbital launches in recent years. Rocket Lab is building a new launch pad for its future Neutron reusable rocket. NG is working with Firefly Aerospace to create a new variant of the Antares rocket it inherited from its acquisition of Orbital Sciences in 2018. That rocket is set to fly as soon as 2025.
Wallops makes logical sense for additional NSSL work, especially when Neutron and Antares enter service. They also have the land to develop new launch pads for new customers, giving that site great growth potential.
Despite PSCA having the largest launch azimuth range of any spaceport in the US that can access high-inclination, polar, and sun-synchronous orbits between 59° and 110° inclination, the Pacific Spaceport Complex has been mainly a development site for startups — ABL and Astra have been its main users the past few years, to mixed results. Previous users have included Northrup Grumman, but the aerospace giant has not launched from the facility since 2011.
The site opened in 1998 and has hosted 31 launches. It has hosted Athena I, Minotaur IV, Astra Rocket, and the RS1 rockets, with one successfully orbiting: on 19 November 2021, Astra’s LV0007 rocket achieved orbit.
That may be partly due to the facility being in Alaska and the cool local climate: located near the Bering Sea, Kodiak summers are short and mostly cloudy, and winters are long, very cold, wet, windy, and partly cloudy. Rocket launches depend on calm weather with no rain or high winds at launch time, and there, PCSA may struggle even compared to the infamously capricious weather on the Eastern Range.
Adding to PCSA’s difficulties is its remote nature with little infrastructure in the region. No rail service connected to the mainland or interstate highways leaves air shipment and the seaport at Kodiak as the major shipping options available to PCSA.
Nevertheless, Kodiak could easily become an area that supports NSSL launches during seasons when the weather allows for them. The Alaska Aerospace Corporation, a corporation owned by the state Government of Alaska, has been working diligently to attract new clients to its facilities, and in many ways, PCSA ticks many boxes for becoming a larger player in the launch business.
Spaceport America is interesting because it has not been the launch site for any orbital attempts since its inception in 2011. The site in southern New Mexico is landlocked, meaning that early flight would be over land and possibly people and populated areas, leaving persons and property potentially exposed to the aftermath of a launch failure—namely, components from the rocket crashing down on them or potentially unburned toxic propellants descending from a failed rocket.
“I’m disappointed in is that the Space Force and others are very focused on the Cape and Vandenberg and Wallops,” said Scott McLaughlin, executive director of Spaceport America, in an interview published in February 24th by spacenews.com. “There’s no emphasis on making launches safe enough to fly over humans. I think that’s a natural progression and it just doesn’t seem to be on anybody’s radar right now.”
Currently, SpaceX’s Falcon 9 has 99.4% success rate, with 343 full successes out of 345 launches over 14 years of service. One failure was during static fire testing, and probably should not be counted, given the rocket never left the launch pad. The one in-flight failure Falcon 9 did have was explosive, meaning that shrapnel and uncombusted fuel from the second stage and payload were not contained and fell into the sea after the launch failure.
That would naturally be a major concern for everyone downrange, and while the chances of another failure happening are quite remote, clearing Falcon 9 for overland flight would be a major political sticking point with an uncertain path to approval — especially when safer areas like the Eastern Range, Western Range, Kodiak and Wallops do not have those worries.
Other rockets, like the soon-to-be-retired Atlas V and the once-flown Vulcan (both United Launch Alliance products), also do not have any contingencies for launch failures over populated areas other than to self-destruct before such an event occurs. The same is true for Firefly Aerospace’s Alpha rocket. Nor does New Glenn, Blue Origin’s long-awaited orbital rocket.
In short, no modern rocket in the West is designed to have the capability to fly over populated areas safely, meaning that barring a political sea change or technological advances not yet on the drawing boards, Spaceport America is likely to be many years, if not a decade or more, away from supporting orbital flight.
Camden, Georgia, was an area considered by NASA in the late 1950s and early 1960s when it sought to build the facility that eventually became the Kennedy Space Center, and civic boosters and entrepreneurs have worked to make Camden a working launch site since that time.
After it accepted an Environmental Impact Statement, the Federal Aviation Administration issued a launch site operator license for Spaceport Camden with a flight trajectory limited to a 100-degree azimuth. It was planned to be a vertical launch facility, but voters scuttled the idea in 2022 in a spending referendum, effectively ending the current efforts to bring the area only as a potential orbital rocket spaceport. For now, Spaceport Camden as an option is dead.
Interestingly, the House committee did not mention another active spaceport as a potential site for NSSL launches: SpaceX’s facility at Boca Chica, Texas, where it is currently building and testing its huge Starship Heavy rocket.
SpaceX has conducted suborbital test launches from Boca Chica, and will continue to do so for the foreseeable future. Once Starship becomes operational, it could easily support NSSL launches from Boca Chica, so long as the supported azimuths from the facility match the mission profile of the payload. SpaceX could even add a Falcon 9 / Falcon Heavy launch pad to the site if it had the mind to and enough land to work with. This does not appear to be the case at this time, and perhaps that is the reason the House committee did not mention Boca Chica.
Challenges For A South Texas Spaceport.pdf – Embry Riddle Aeronautical University
There is a period of time when the sun has just set where conditions are perfect to illuminate a rocket high in Earth’s atmosphere as it ascends while it is nearly dark down on the ground where people are watching.
Conditions have to be perfect for this to happen: skies need to be relatively clear between you and the rocket, the Sun can’t be blocked by clouds between it and the rocket and it has to happen at just the right time of day. All that came together tonight here on the Space Coast, giving spectators a spectacular “jellyfish” that was the best in about two years. Rare indeed.
SpaceX placed another twenty-three Starlink Mini V2 satellites in orbit after successfully launching the Starlink 6-58 mission from Space Launch Complex 40 at Cape Canaveral Space Force Station this evening.
Liftoff was at 08:53 PM EDT. Around 8.5 minutes after liftoff, the first-stage booster used for the mission, tail number B1073, touched down safely on ASDS ‘A Shortfall of Gravitas’, stationed downrange in the Atlantic Ocean. About roughly an hour after liftoff, the satellites were deployed in their intended orbits and the mission deemed a success.
After about a decade of setbacks and challenges, Boeing’s CST-100 Starliner is set to head to orbit with crew aboard for the first time tomorrow evening. To say that it has been a roller coaster for engineers and managers of the legacy-rich company would be a massive understatement. Still, the mood among the Space Coast workers at Boeing is best described as quietly confident.
A couple of previously unreleased photos of Boeing Starliner OFT-2 that I took in 2022:
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