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SpaceX preparing for an inaugural Falcon Heavy launch in November
All three Falcon Heavy cores are believed to be at Cape Canaveral
As we inch closer to SpaceX returning to a regular launch schedule, evidence is adding up that Falcon Heavy is fast approaching launch readiness.
Over at SpaceX’s Cape Canaveral facilities, workers are busily modifying LC-39A and are deep into the reconstruction and reactivation of LC-40, which was severely damaged just over 11 months ago. Members of the SpaceX fan community have taken regular tours of the Kennedy Space Center and offered glimpses into part of the process as workers relentlessly dismantle previous LC-39A pad structures.
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- During a month without launches, SpaceX has made considerable progress dismantling parts of LC-39A. The main focus right now is the RSS, which is the skeletal structure on the left. (Brian Bundridge/Facebook)
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- One of Falcon Heavy’s side boosters seen arriving at LC-39A about a month ago. (Reddit /u/MajorRocketScience)
Before SpaceX, the pad hosted the first manned launches of the vast Saturn V rocket and hosted the launch of Apollo 11, which landed the first humans on the Moon in 1969. Decades later, that same pad was recycled for the Space Shuttle and supported dozens of Shuttle launches. SpaceX is deep into the process of dismantling the old pad structures used for the Shuttle, and Elon Musk has recently reported that the Rolling Service Structure (RSS) is expected to be entirely removed before the first launch of Falcon Heavy. While bittersweet for many observers, LC-39A will eventually host both the return of massive rockets to the U.S., as well as the first American-supported launch of crew to the ISS in more than six years.
With this progress, we find ourselves in the pleasantly foreign situation of SpaceX beating one of Musk’s aggressive schedules. In early June, he tweeted about Falcon Heavy cores arriving at the Cape within two or three months. Surprisingly, it has been confirmed that three of three Falcon Heavy cores are already at LC-39A and have been for at least a week or two. At the moment, pad readiness is the main constraint for its inaugural launch. SpaceX is preparing for a period of pad gymnastics as they ready LC-40 to take over for LC-39A. Once this happens, all Falcon 9 launches will be transferred over to LC-40, and this will allow SpaceX workers to conduct necessary modifications to LC-39A’s launch hardware in preparation for Falcon Heavy. These modifications are expected to take about two months.
All Falcon Heavy cores should be at the Cape in two to three months, so launch should happen a month after that
— Elon Musk (@elonmusk) June 8, 2017
Current best guesses peg the first launch from LC-40 in late August or sometime in September, fitting nicely with Musk’s Falcon Heavy launch estimate of November. Falcon Heavy will nevertheless likely require several weeks of fit checks, wet dress rehearsals (like a static fire but without the ignition), and one or several static fires before its first official launch attempt. While Musk has recently been on a warpath of expectation management for Falcon Heavy, going so far as to imply that a failure was a likely outcome, let there be no doubt that SpaceX and Musk will privately do everything realistically possible to ensure a safe launch. If major issues are discovered during pre-launch testing, SpaceX will almost certainly scrub the launch indefinitely.
However, if Falcon Heavy does indeed lift off above a more controlled fireball later this year, fans can look forward to what will be a stunning show of force. Musk once again confirmed that both side cores will land at LZ-1, SpaceX’s land-based landing facilities, and the center core will land on Of Course I Still Live You somewhere in the Pacific. While not guaranteed, Musk’s myriad comments on the spectacular nature of the launch mean that SpaceX’s live coverage will offer some truly incredibly views. Fans have long eagerly anticipated the synchronized landings of the side cores, as well as possible live shots of booster separation during the launch.
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- NASASpaceflight’s famed graphic designer okan170 has produced multiple gorgeous renders of Falcon Heavy over the years. (NASASpaceflight)
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- NASASpaceflight’s famed graphic designer okan170 has produced multiple gorgeous renders of Falcon Heavy over the years. (NASASpaceflight)
At the ISSR&D Conference, Musk reiterated the fact that SpaceX’s primary focus is preparation for Commercial Crew. LC-39A is needed for SpaceX’s crewed launches, so it is highly unlikely that the company will risk a Falcon Heavy launch if there is anything more than the slimmest of chances of the pad being lost in a launch failure. Regardless of the outcome, as Musk himself has often said, Falcon Heavy’s inaugural launch is guaranteed to be a spectacle.
News
Tesla seeks approval to test FSD Supervised in new Swedish city
Tesla has applied to conduct local Full Self-Driving (Supervised) testing in the city of Jönköping, Sweden.
Tesla has applied to conduct local Full Self-Driving (Supervised) testing in the city of Jönköping, Sweden.
As per local outlet Jönköpings-Posten, Tesla has contacted the municipality with a request to begin FSD (Supervised) tests in the city. The company has already received approval to test its Full Self-Driving (Supervised) software in several Swedish municipalities, as well as on the national road network.
Sofia Bennerstål, Tesla’s Head of Public Policy for Northern Europe, confirmed that an application has been submitted for FSD’s potential tests in Jönköping.
“I can confirm that we have submitted an application, but I cannot say much more about it,” Bennerstål told the news outlet. She also stated that Tesla is “satisfied with the tests” in the region so far.
The planned tests in Jönköping would involve a limited number of Tesla-owned vehicles. Trained Tesla safety drivers would remain behind the wheel and be prepared to intervene if necessary.
Tesla previously began testing in Nacka municipality after receiving local approval. At the time, the company stated that cooperation between authorities, municipalities, and industry enables technological progress and helps integrate future transport systems into real-world traffic conditions, as noted in an Allt Om Elbil report.
If approved, Jönköping would become the latest Swedish municipality to allow local Full Self-Driving (Supervised) testing.
Tesla’s Swedish testing program is part of the company’s efforts to validate its supervised autonomous driving software in everyday traffic environments. Municipal approvals allow Tesla to gather data in urban settings that include roundabouts, complex intersections, and mixed traffic conditions.
Sweden has become an increasingly active testing ground for Tesla’s driver-assistance software in Europe, with regulatory coordination between local authorities and national agencies enabling structured pilot programs.
Elon Musk
Microsoft partners with Starlink to expand rural internet access worldwide
The update was shared ahead of Mobile World Congress.
Microsoft has announced a new collaboration with Starlink as part of its expanding digital access strategy, following the company’s claim that it has extended internet connectivity coverage to more than 299 million people worldwide.
The update was shared ahead of Mobile World Congress, where Microsoft detailed how it surpassed its original goal of bringing internet access to 250 million people by the end of 2025.
In a blog post, Microsoft confirmed that it is now working with Starlink to expand connectivity in rural and hard-to-reach regions.
“Through our collaboration with Starlink, Microsoft is combining low-Earth orbit satellite connectivity with community-based deployment models and local ecosystem partnerships,” the company wrote.
The partnership is designed to complement Microsoft’s existing work with local internet providers and infrastructure companies across Africa, Latin America, and India, among other areas. Microsoft noted that traditional infrastructure alone cannot meet demand in some regions, making low-Earth orbit satellite connectivity an important addition.
Kenya was cited as an early example. Working with Starlink and local provider Mawingu Networks, Microsoft is supporting connectivity for 450 community hubs in rural and underserved areas. These hubs include farmer cooperatives, aggregation centers, and digital access facilities intended to support agricultural productivity and AI-enabled services.
Microsoft stated that 2.2 billion people globally remain offline, and that connectivity gaps risk widening as AI adoption accelerates.
Starlink’s expanding constellation, now numbering more than 9,700 satellites in orbit, provides near-global coverage, making it one of the few systems capable of delivering broadband to remote regions without relying on terrestrial infrastructure.
Starlink is expected to grow even more in the coming years as well, especially as SpaceX transitions its fleet to Starship, which is capable of carrying significantly larger payloads compared to its current workhorse, the Falcon 9.
Elon Musk
Tesla expands US LFP battery supply with LG Energy Solution deal: report
The report was initially published by TheElec, citing industry sources.
LG Energy Solution (LGES) will manufacture lithium iron phosphate (LFP) energy storage system (ESS) batteries for Tesla at its Lansing, Michigan facility.
The report was initially published by TheElec, citing industry sources.
LG Energy Solution’s Lansing plant, formerly known as Ultium Cells 3, was previously operated as a joint venture with General Motors. LGES acquired GM’s stake in May 2025 and now fully owns the site. With a production capacity of 50 GWh per year, it is one of the company’s largest facilities in North America.
LG Energy Solution is converting part of the Lansing factory to produce LFP batteries for energy storage systems. Equipment orders for the new lines have already been placed, and mass production is reportedly expected to begin in the second half of next year.
Last July, LG Energy Solution disclosed a 5.94 trillion won battery supply agreement running from August 2027 to July 2030. While the company did not name the customer, industry sources pointed to Tesla as the buyer.
Tesla has primarily used CATL’s prismatic batteries for its Megapack systems. The move to source prismatic LFP cells from LG Energy Solution’s U.S. plant could then be seen as part of Tesla’s efforts to bolster its North American supply base for its energy storage business.
For the Lansing conversion, LG Energy Solution reportedly plans to use electrode equipment originally ordered under its Ultium Cells venture with General Motors. Suppliers reportedly include CIS and Hirano Tecseed for electrode systems, TSI for mixing equipment, CK Solution for heat exhaust systems, A-Pro for formation equipment, and Shinjin Mtech for assembly kits.
Tesla currently manufactures energy storage products at facilities in California and Shanghai, though another Megafactory that produces the Megapack is also expected to be built in Texas. As per recent reports, the Texas Megafactory recently advanced with a major property sale.
Tesla seeks approval to test FSD Supervised in new Swedish city
Microsoft partners with Starlink to expand rural internet access worldwide
