“Go!” – NASA’s Artemis I launch is set to make history

SLS rocket and Orion spacecraft

Illustrations of the Space Launch System rocket and the Orion spacecraft on the launch pad. Credit: NASA

NASA officials give “Go” to head for Artemis I launch, countdown progresses

Artemis I officials met on Monday afternoon to provide an update on the status of countdown operations as well as two open technical articlesand gave the green light to proceed with the launch on Wednesday, November 16. The two-hour launch window opens at 1:04 a.m. EST.

Engineers performed a detailed caulking analysis on a seam between an Orion launch abort system warhead and the crew module adapter and analyzed the potential risks if it were to come loose during launch. The mission management team has determined that there is a low probability that this will pose a critical risk to the flight if additional equipment tears.


A quick recap of[{” attribute=””>NASA’s history in space exploration segueing to Artemis serves as the opening video for the launch broadcast for the agency’s Artemis I mission. The broadcast originates from Kennedy Space Center in Florida, where NASA’s Space Launch System rocket and Orion spacecraft will lift off from Launch Complex 39B no earlier than November 16 on a mission beyond the Moon and back to Earth. Credit: NASA

Technicians also completed replacing a component of an electrical connector on the hydrogen tail service mast umbilical. While swapping the component did not fully fix the issue, engineers have redundant sources of information supplied through the connector.

Listen to a replay of the Artemis I Prelaunch Mission Update media teleconference that took place on November 14.

Caulk Detached Orion Launch Abort System

The area where caulk on a seam between the Orion launch abort system’s ogive and crew module adapter detached during Hurricane Nicole. Credit: NASA

The countdown, which began Monday at 1:54 a.m., is progressing smoothly. All elements of the rocket and spacecraft are powered up. Overnight, teams will charge flight batteries, conduct final walkdowns at the launch pad, and check out communications with Orion.

Weather conditions remain 90% favorable for the Artemis I launch based on the Monday, November 14 forecast from meteorologists with the U.S. Space Force Space Launch Delta 45.

Caulk Detached Orion Launch Abort System Close Up

A close-up view of the area.where caulk on a seam between the Orion launch abort system’s ogive and crew module adapter detached during Hurricane Nicole. Credit: NASA

The following milestones remaining in the countdown are below. Live coverage of tanking operations with commentary on NASA TV will begin on Tuesday, November 15 at 3:30 p.m. Full launch coverage in English will begin at 10:30 p.m. Click here for the latest information on launch briefings and events.

L-32 hours and counting

  • Core stage composite overwrapped pressure vessel (COPV) Pressurization to Flight Pressure (L-32M – L-23H)
  • The ICPS is powered down (L-31H – L-30H30M)
  • Charge Orion flight batteries to 100% (L-31H – L-27H)
  • Charge core stage flight batteries (L-28H – L-22H)
  • The ICPS is powered-up for launch (L-19H30M – L-16H30M)

L-15 hours and counting

  • All non-essential personnel leave Launch Complex 39B (L-13H – L-11H)
  • Ground Launch Sequencer (GLS) activation (L-11H15M – 10H15M)
  • Air-to-gaseous nitrogen (GN2) changeover and vehicle cavity inerting (L-11H45M – launch)

L-10 hours, 40 minutes and counting

  • 3.5-hour built in countdown hold begins (L-10H40M – L-7H10M)
  • Launch team conducts a weather and tanking briefing (L-10H40M – L-9H50M)
  • Launch team decides if they are “go” or “no-go” to begin tanking the rocket (L-9H40M)
  • Core stage LOX transfer line chilldown (L-9H15M – L-9H)
  • Core stage LH2 transfer line chilldown (L-9H15M – L-8H45M)

L-8 hours and counting

  • Core stage LOX main propulsion system chilldown (L-9H – L-8H20M)
  • Core stage LH2 slow fill start (L-8H45M – L-7H50M)
  • Core stage LOX slow fill (L-8H20M – L-8H5M)
  • Core stage LOX fast fill (L-8H5M – L-5H15M)
  • Core stage LH2 fast fill (L-7H50M – L-6H10M)
  • Engine bleed kick start (L-7H40M – L-7H20M)
  • Core stage LH2 topping (L-6H10M – L6H5M)
  • Core stage LH2 replenish (L-6H5M – launch)
  • Core stage LOX topping (L-5H15M– L-5H5M)
  • ICPS LH2 ground support equipment and tank chilldown (L-5H20M – L-5H)

L-5 hours and counting

  • Core stage LOX replenish (L-5H5M – launch)
  • ICPS LOX main propulsion system chilldown (L-5H5M– L-4H45M)
  • ICPS LH2 fast fill start (L-5H5M – L4H5M)
  • Orion communications system activated (RF to mission control) (L-4H20M – L-3H45M)
  • ICPS LOX fast fill (L-4H55M– L-4H10M)
  • ICPS LOX validation and leak test (L-4H10M – L-3H40M)
  • ICPS LH2 validation and leak test (L-4H – L-3H40M)
  • ICPS LH2 tank topping start (L-3H40M – L-3H25M)
  • ICPS LH2 replenish (L-3H25M – launch)
  • ICPS LOX topping (L-3H40M – L-3H20M)
  • ICPS LOX replenish (L-3H20M – launch)
  • ICPS/Space Launch System telemetry data verified with Mission Control Center and SLS Engineering Support Center (L-2H55M – L-2H45M)
  • ICPS LOX validation and leak test (L-2H55M – L-2H30M)
  • ICPS LH2 replenish (L-2H50M – launch)
  • ICPS LOX topping (L-2H30M – L-2H10M)
  • ICPS LOX replenish (L-2H10M – launch)
  • ICPS/Space Launch System (SLS) telemetry data verified with Mission Control Center and SLS Engineering Support Center (L-3H – L-2H50M)

L-50 minutes and counting

  • Final NASA Test Director briefing is held (L-50M)

L-40 minutes and holding

  • Built in 30-minute countdown hold begins (L-40M)

L-15 minutes and holding

  • The launch director polls the team to ensure they are “go” for launch

T-10 minutes and counting

  • Ground Launch Sequencer (GLS) initiates terminal count (T-10M)
  • GLS go for core stage tank pressurization (T-6M)
  • Orion ascent pyros are armed (T-6M)
  • Orion set to internal power (T-6M)
  • Core stage LH2 terminate replenish (T-5M57S)
  • GLS is go for flight termination system (FTS) arm (T-5M)
  • GLS is go for LH2 high flow bleed check (T-4M40S)
  • GLS is go for core stage auxiliary power unit (APU) start (T-4M)
  • Core Stage APU starts (T-4M)
  • Core stage LOX terminate replenish (T-4M)
  • ICPS LOX terminate replenish (T-3M30S)
  • GLS is go for purge sequence 4 (T-3M10S)
  • ICPS switches to internal battery power (T-1M56S)
  • Core stage switches to internal power (T-1M30S)
  • ICPS enters terminal countdown mode (T-1M20S)
  • ICPS LH2 terminate replenish (T-50S)
  • GLS sends “go for automated launch sequencer” command (T-33S)
  • Core stage flight computer to automated launching sequencer (T-30S)
  • Hydrogen burn off igniters initiated (T-12S)
  • GLS sends the command for core stage engine start (T-10S)
  • RS-25 engines startup (T-6.36S)

T-0

  • Booster ignition, umbilical separation, and liftoff
Artemis I Map

Artemis I will be the first integrated flight test of NASA’s deep space exploration system: the Orion spacecraft, Space Launch System (SLS) rocket and the ground systems at Kennedy Space Center in Cape Canaveral, Florida. The first in a series of increasingly complex missions, Artemis I will be an uncrewed flight that will provide a foundation for human deep space exploration, and demonstrate our commitment and capability to extend human existence to the Moon and beyond. Credit: NASA


During this flight, the Orion spacecraft will be launched on the most powerful rocket in the world and will fly farther than any spacecraft built for humans has ever flown. It will travel 280,000 miles from Earth, thousands of miles beyond the Moon during an approximately three-week mission. Orion will stay in space longer than any astronaut ship without docking with a space station and will return home faster and warmer than ever. Credit: NASA

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