A SpaceX Falcon 9 rocket launched NROL-113 mission with a batch of next-gen spy satellites for the U.S. National Reconnaissance Office (NRO). The rocket lifted off from California's Vandenberg Space Force Base.
Credit: SpaceX
Credit: SpaceX
Category
🤖
TechTranscript
00:007, 6, 5, 4, 3, 2, 1, ignition, and liftoff of Falcon 9, go NROL, 113.
00:21Vehicle is pitching downrange.
00:25Stage 1 propulsion is nominal.
00:30If you're just joining us, Falcon 9 has successfully lifted off from Space Launch Complex 4 East,
00:50as you can hear on your screen, and we are getting some awesome shots of ascent.
00:54We've also heard a few callouts so far from Mission Control.
00:58Nominal power and telemetry.
01:00Including that everything is looking nominal from both a power and telemetry standpoint.
01:06Now in just a few moments, we're going to throttle down the engine.
01:09Vehicle is supersonic.
01:10In preparation for max Q, and with that callout, we hear that Falcon 9 is moving faster than the speed of sound.
01:22Max Q.
01:23There's that max Q callout.
01:25As you may have heard us mention before, max Q is a critical flight milestone,
01:29because this is the moment in flight with the highest amount of aerodynamic pressure.
01:36So with that, we have three events coming up in quick succession here,
01:39starting with MECO, stage SEP, and SES-1.
01:42Main engine cutoff, or MECO for short, is where all nine M1D engines will shut off
01:48to slow the vehicle down in preparation for stage separation.
01:51MVAC chill.
01:52There's confirmation that we're chilling the MVAC engine for SES-1.
01:57Stage 2, of course, will continue to second engine start one after stage SEP,
02:02and that's when the single MVAC engine will ignite to propel the second stage to orbit.
02:07Less than a minute after all of these flight events,
02:10the fairing halves will also separate and jettison away from the rocket.
02:14We'll hear that one called out from Mission Control,
02:17but as a reminder, we won't have any payload views tonight at the request of our customer.
02:22Standing by for main engine cutoff in just about 15 seconds.
02:53Main engine cutoff. Stage separation confirmed.
03:07MVAC ignition.
03:09We have had great confirmation and views there of main engine cutoff, stage separation,
03:15and, of course, second engine start one.
03:18We are standing by now for the callout for fairing separation,
03:22and we will be attempting to retrieve these fairing halves once they fall back down to Earth
03:27using our recovery shift GO BEYOND.
03:30Fairing separation confirmed.
03:32There's confirmation of fairing SEP.
03:37Now, coming up about three minutes from now,
03:39the booster, which you've got great views of the grid fins on your screen right now,
03:43will initiate its entry burn to begin its journey to the, of course, I still love you,
03:48drone ship, which is currently stationed in the Pacific Ocean.
03:52Those grid fins on board Stage 1 are the primary mechanical structure
03:57that we use to guide the rocket on its way back to Earth.
04:01Those grid fins on board Stage 1 are the primary mechanical structure
04:05that we use to guide the rocket on its way back to Earth.
04:10Of course, what we are leading up to is the entry burn,
04:13expected again at just about T-plus-6 minutes after liftoff.
04:19And, of course, as you can see,
04:21we're going to have to wait a little bit longer for the rocket to return to Earth.
04:24Entry burn expected again at just about T-plus-6 minutes after liftoff.
04:30If you are just joining us today,
04:32you're coming into our live webcast of the NRO payload launch.
04:36We had an on-time 8.20 p.m. Pacific liftoff from Vandenberg Space Force Base in California,
04:42followed by successful main engine cutoff, stage separation,
04:45second engine start one, and fairing separation.
04:55To start the entry burn, we'll relight three of the M1D engines on board the first stage,
05:00which is essentially the same as pumping the brakes.
05:03We need to slow the vehicle down as it passes back into the Earth's atmosphere
05:07to reduce reentry forces, which helps us to recover and reuse the booster on future flights.
05:18During the entry burn, Falcon 9 will be decelerating by firing
05:23those Merlin engines, but we're still moving really fast.
05:27This causes the vehicle to fly through Merlin's exhaust gases,
05:30which is also known as the rocket's plume,
05:33and deposits a layer of soot on the vehicle's surface.
05:36That soot comes from the carbon-based fuel that Falcon 9 uses,
05:40and with each repeated flight, the soot builds up a little more on the outside of the vehicle.
05:45You can of course continue to track the first stage telemetry in the bottom left corner of your screen
05:50as the booster continues to make its way back to our drone ship,
05:54Of Course I Still Love You, which is currently stationed in the Pacific Ocean.
06:06Reusability is key to lowering the cost of spaceflight,
06:10which enables more investments in critical space infrastructure,
06:14in today's case, supporting national security.
06:18The Falcon 9 first stage that is supporting today's mission
06:22is about to perform this entry burn for the 20th time.
06:40Stage 1 entry burn startup.
06:52There we have great views that entry burn has begun onboard our first stage booster,
06:56and we are expecting this burn to last about 20 seconds.
07:00Stage 1 entry burn shutdown.
07:04And confirmation of shutdown.
07:08The Merlin engines on board the first stage are optimized for sea level,
07:12which is primarily because they operate in the Earth's atmosphere.
07:16They achieve 190,000 pounds of thrust each during both ascent and descent.
07:20At liftoff, Falcon 9's first stage will perform the entry burn
07:24for the first time.
07:28At liftoff, Falcon 9's first stage has thrust greater than
07:32five 747 airplanes at full power.
07:36Stage 1 FTS is safe.
07:40By contrast, the M-VAC engine on board the second stage has a much wider nozzle
07:44and is optimized to 220,500 pounds of thrust in vacuum.
07:52Now coming up in just over 30 seconds, we'll have our landing burn on board the first stage.
07:58Stage 1 transonic.
08:10Confirmation that stage 1 is transonic on its way back to its rendezvous point
08:14with our drone ship.
08:22Just like the entry burn, we're expecting our landing burn
08:26to be relatively quick. The difference here, though, is that what we're using
08:30this burn for is to touch down softly on the surface of our drone ship.
08:38Stage 1 landing burn.
08:42Confirmation of landing burn startup.
08:46You can see those grid fins working as we target the drone ship here.
09:02Stage 1 landing confirmed.
09:06And confirmation of touchdown.
09:10This, again, was the 20th launch and landing for this first stage.
09:14This landing also marks SpaceX's 345th recovery of an orbital-class rocket,
09:18including first stage landings for Falcon 9 and Falcon Heavy.