Monday p.m. Update: At the top of its launch window, SpaceX’s Falcon 9 rocket soared into space on Monday from a launch site in California, sending 64 smallsats on their intended path toward a Sun synchronous orbit. Shortly thereafter the first stage descended to a drone ship in the Pacific Ocean and landed safely. This is the third time this particular first stage has flown into space and returned safely to Earth.
Meanwhile, SpaceX also attempted a payload fairing recovery once again. Although the Mr. Steven Vessel did not “catch” one of the fairing, SpaceX founder Elon Musk said the company would nonetheless try to use these two fairing halves once again.
Falcon fairing halves missed the net, but touched down softly in the water. Mr Steven is picking them up. Plan is to dry them out & launch again. Nothing wrong with a little swim.
— Elon Musk (@elonmusk) December 3, 2018
It was not immediately clear why these fairings might be usable when, in the past, salt water appears to have caused damage that rendered the fairings unusable.
Monday a.m. Update: Originally scheduled to launch on November 19, the Spaceflight SSO-A mission has been delayed three times due to the need for additional rocket checks as well as some weather concerns. Now the historic mission—SpaceX will attempt to launch the same Falcon 9 first stage for the third time, set an annual record for total launches, and fly the most smallsats into space on a US booster—is scheduled for Monday at 1:32pm ET (18:32 UTC).
Despite the delays, we’re still pretty excited for this one.
Sunday a.m. Update: SpaceX said early Sunday that it is standing down from Sunday’s launch attempt “to conduct additional inspections of the second stage.” The company is working toward its backup launch attempt on December 3, when the launch window opens at 1:32pm ET.
Original post: Sunday’s launch attempt of a Falcon 9 rocket from Vandenberg Air Force Base in California, with a primary launch window from 1:32pm ET (18:32 UTC) to 2pm ET (19:00 UTC), is significant for a number of reasons.
For one, this will be the company’s 19th launch of 2018, and if successful, it will break SpaceX’s record for most missions flown in a calendar year. With a handful of launches remaining on its manifest in December, SpaceX is on pace to fly as many as 22 rockets this year. This signifies that SpaceX has solved production and processing issues that prevented it from launching more than eight rockets a year prior to 2017 and that last year was not a fluke.
Perhaps more importantly, a successful flight Sunday would mark the third flight of this particular first stage of a Falcon 9 rocket. This core first flew on May 11, for the Bangabandhu-1 mission, and then again on August 7 for the Merah Putih mission. Now, for the first time ever, SpaceX will attempt to fly the same first stage (and its nine Merlin engines) for a third time.
Such a feat—flying the same rocket three times in less than seven months—would bring the company closer to its cost-cutting goal of flying each Falcon 9 rocket 10 times between significant refurbishment. This has become possible after the company introduced a final variant of its Falcon 9 booster, dubbed Block 5, which engineers designed for optimal reusability. (The May flight of this rocket core marked the first time a Block 5 variant of the Falcon 9 launched). As but one (very) minor example of time and cost-reduction efforts, SpaceX no longer washes the first stage of the rocket between uses, which explains why the lower two-thirds of the assembled rocket appears singed, but the top third is a pristine white. This is because the upper stage and payload fairing are new for each flight.
Finally, Sunday’s mission is notable for its payload—there are many of them as part of the Spaceflight SSO-A mission. SpaceX will seek to set a US launch record for most satellites put into space at a single time, with 15 microsats and 49 cubesats from commercial and government entities around the world. (Two of these, interestingly, originate from Kazakhstan, a country that hosts many of the launches by the Russian space agency).
A company called Spaceflight organized the four-ton manifest for Sunday’s flight. It designed the payload stack and coordinated a variety of satellite dispensers for when the mission has reached a Sun-synchronous polar orbit at an altitude of 575km. Deployment of the satellites will begin about 13 minutes after liftoff and conclude about 30 minutes after that point.
SpaceX will again seek to recover this booster with the droneship Just Read the Instructions stationed downrange in the Pacific Ocean. If successful, we likely can expect to see this first stage make an unprecedented fourth flight sometime in 2019.
The webcast below should begin about 15 minutes before the launch window opens.
Listing image by SpaceX