Space Launch System

The launch of Artemis II is coming soon at Kennedy Space Center, and it is going to be unlike anything most people have seen in their lifetimes. The last time a crewed moon rocket launched from this pad at Kennedy was Apollo 17 in December 1972, and the Space Launch System is even more powerful than the Saturn V that carried those astronauts to the Moon. The plumes will be blinding, the sound will rattle your chest and your car windows, and the moment will be etched in your memory forever. If you are a photographer, you have a once-in-a-generation opportunity to document history.

NASA’s Space Launch System rocket carrying the Orion spacecraft launches on the Artemis I flight test, Wednesday, Nov. 16, 2022, from Launch Complex 39B at NASA’s Kennedy Space Center in Florida. NASA’s Artemis I mission is the first integrated flight test of the agency’s deep space exploration systems: the Orion spacecraft, Space Launch System (SLS) rocket, and ground systems. SLS and Orion launched at 1:47am ET from Launch Pad 39B at the Kennedy Space Center.
NASA/Bill Ingalls
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Artemis II, earlier this month at Kennedy Space Center
Photo: Charles Boyer

NASA is moving ahead with a second wet dress rehearsal, or WDR-2, for the Artemis II mission. Launch controllers will take their positions in the Launch Control Center at 6:40 PM ET tonight (Feb. 17), kicking off a nearly 50-hour countdown sequence. The simulated launch window opens at 8:30 PM on February 19th and extends four hours.

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artemis II Photo by Charles Boyer

When NASA wrapped up the first Artemis II wet dress rehearsal on February 3 at Kennedy Space Center, they had successfully filled the SLS rocket’s tanks with cryogenic propellant. That was the good news, but the less welcome bad news was that the test revealed higher-than-allowable hydrogen gas leaks at the Tail Service Mast Unit on the launch pad. Obviously, those leaks must be repaired before a launch attempt.

NASA Stream from the first Wet Dress Rehearsal indicated full LH2 and LOX tanks on SLS. Credit: NASA

The Work For WDR-2 Started As Soon As WDR-1 Was Completed

Not long after propellant draining was complete after WDR-1, technicians began working to access the TSMU umbilical. They detached both the rocket-side and ground-side interface plates to inspect the area where elevated hydrogen levels were detected, and replaced seals around two fueling lines.

The two tail service masts — each about three stories tall — provide the cryogenic propellant lines and electrical cable connections to the SLS core stage. They tilt back before launch and include “quick disconnects” — mechanisms that instantaneously detach at liftoff to ensure safe retraction.

Reconnecting the interfaces is expected to be complete by Monday, Feb. 9. Engineers are still evaluating the root cause of the leak, and the removed seals are being analyzed. NASA also plans additional testing at Stennis Space Center in Bay St. Louis, Mississippi, to evaluate the dynamics of the interface plates. Engineers are reviewing options to verify the repair before committing to the next full wet dress rehearsal.

Repairs For WDR-2

Here’s a breakdown of the repairs underway and the operational changes NASA is making for WDR-2:

Five Key Changes for the Next Rehearsal
Five Key Changes for the Next Rehearsal
Artemis II Wet Dress Rehearsal  |  Kennedy Space Center
Type Change Details
Hardware Fix Two seals replaced Seals replaced around fueling lines at the tail service mast umbilical where hydrogen concentrations exceeded allowable levels. Removed seals are being analyzed and additional plate dynamics testing is planned at Stennis.
Operations Orion hatch closed before test The crew module hatch will be sealed prior to the rehearsal. The closeout crew — who on launch day help astronauts into their seats and close both Orion hatches — will not be deployed to the pad.
Operations Crew access arm stays extended The arm will not be retracted during the next rehearsal. Engineers successfully demonstrated during the Feb. 3 test that the ground launch sequencer can retract it during the final countdown phase, so that objective is already complete.
Timeline One extra hour in countdown NASA has added 30 minutes of extra hold time at each of two planned holds — one before and one after tanking operations — to allow more time for troubleshooting. The total countdown is now one hour longer. This does not affect the crew’s launch-day timeline.
Focus Shift Rehearsal focused on fueling With the crew access arm retraction and other pad objectives already demonstrated, the next WDR will concentrate on tanking operations and verifying the hydrogen leak repair.

Source: NASA, “NASA Conducts Repairs, Analysis Ahead of Next Artemis II Fueling Test,” Feb. 8, 2026

NASA continues to eye March as the next potential launch opportunity but will not set a targeted launch date until after completing a successful wet dress rehearsal and reviewing the data. The critical second WDR is set to start as soon as this Friday, February 13th.

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Teams at Kennedy Space Center conducted and mostly completed a critical Wet Dress Rehearsal for the launch of the Artemis II rocket and ground support teams yesterday. The test was not without problems: Hydrogen leaks at the tail mast area of the pad and an issue closing Orion’s hatches bedeviled the tests, resulting in NASA announcing that the launch of the Artemis II mission is now no earlier than March 6, 2026.

“The Artemis II wet dress rehearsal countdown was terminated at the T-5:15 minute mark due to a liquid hydrogen leak at the interface of the tail service mast umbilical, which had experienced high concentrations of liquid hydrogen earlier in the countdown, as well,” NASA said.

A view of the Tail Mast and the retractable Liquid Hydrogen feed lines for SLS. Photo: NASA

In a press conference today, Artemis II Launch Director Charlie Blackwell-Thompson said, “When we got into the LH2 fast fill—which was around 12:29—is when we picked up our first leak in the SMU, in the cavity, which is where the flight and the ground plate come together. It’s that cavity in between. It’s in our eight-inch fill and drain line there. We have a QD that connects those two together.”

Charlie Blackwell-Thompson in today’s NASA press conference. Via NASA livestream

“It was similar to some of the signatures we saw during Artemis I. Our leak rate was a little bit higher—somewhere around 12 to 14%,” Blackwell-Thompson continued. “We tried a contingency procedure that we used during Artemis I: you let that QD warm up, you let the seal warm up, and you try it again. We did that a couple of times, worked our way through it, and were able to load the core stage all the way to replenish.”

When asked what items were missed in the Wet Dress Rehearsal, Blackwell-Thompson said, “What we didn’t get to do: we wanted to get through terminal count. We wanted to get inside terminal count, hold, and verify our three-minute hold capability—tanks in launch-ready state and you can hold them for up to three minutes.”

“We also wanted to demonstrate a recycle: come down, have a planned cutoff, come back and retarget a new T-0 within the launch window. Didn’t get a chance to do that.”

What’s Next

Before the March window, NASA’s engineers and mission managers will review data, equipment and procedures from the WDR yesterday and they will conduct a second Wet Dress Rehearsal before committing to a launch date. Of key interest are the Tail Mast interfaces that deliver LH2 to the rocket’s propellant tanks.

“With the conclusion of the wet dress rehearsal today, we are moving off the February launch window and targeting March for the earliest possible launch of Artemis II,” NASA Administrator Jared Isaacman said today. “With more than three years between SLS launches, we fully anticipated encountering challenges. That is precisely why we conduct a wet dress rehearsal. These tests are designed to surface issues before flight and set up launch day with the highest probability of success.”

Remaining Launch Windows

ARTEMIS II MISSION AVAILABILITY – SPRING 2026

(Subject to Adjustments)

March 2026

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April 2026

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Launch Window Available
Launch Window Opening Window
Date Local Time UTC Lighting Mins
Mar 6 8:29 PM EST Mar 7, 01:29 2.05 hrs after sunset 120
Mar 7 8:57 PM EST Mar 8, 01:57 2.51 hrs after sunset 120
Mar 8 10:56 PM EDT Mar 9, 02:56 3.48 hrs after sunset 120
Mar 9 11:52 PM EDT Mar 10, 03:52 4.40 hrs after sunset 120
Mar 10 12:48 AM EDT Mar 10, 04:48 5.36 hrs after sunset 115
Apr 1 6:24 PM EDT Apr 1, 22:24 1.28 hrs before sunset 120
Apr 3 8:00 PM EDT Apr 4, 00:00 0.30 hrs after sunset 120
Apr 4 8:53 PM EDT Apr 5, 00:53 1.17 hrs after sunset 120
Apr 5 9:40 PM EDT Apr 6, 01:40 1.95 hrs after sunset 120
Apr 6 10:36 PM EDT Apr 7, 02:36 2.87 hrs after sunset 120
Apr 30 6:06 PM EDT Apr 30, 22:06 1.86 hrs before sunset 120

↔ Scroll table on mobile

As of: February 3, 2026 at 8:32 AM EST

The Good and The Bad

A liquid hydrogen leak at the LC-39B’s Tail Mast umbilical connection to SLS’s core stage forced engineers into a troubleshooting effort that pushed the countdown about two hours behind schedule. The team cycled through several repair attempts, first halting LH2 flow, then letting the interface warm so seals could seat themselves properly, and finally by tweaking propellant flow rates before pressing ahead. Ultimately, they were successful in their efforts and got the 322-foot tall rocket fully fueled, but a great deal of time was lost during the effort.

NASA graphic from their livestream indicated that SLS was fully loaded with propellant by 5:45 PM ET

Secondly, a recently replaced valve tied to Orion’s crew hatch pressurization system needed to be retorqued, and closeout work ran longer than expected. NASA stated around 10 PM last night that, “The closeout crew remains in the White Room and has closed the Orion spacecraft’s crew module hatch. While performing seal pressurization checks on the counterbalance assembly, which could be used to help open the hatch, a valve associated with Orion’s hatch pressurization was inadvertently vented. The counterbalance assembly then needed to be repressurized to allow work to continue.”

Finally, communications issues from SLS to ground caused some issues and will need to be remediated prior to the next Wet Dress Rehearsal, much less any launch attempt in March.

Clearly, there’s some work to do before Artemis II will be ready to fly.

The Artemis II crew has been released from quarantine for the time being. Once a new potential launch date becomes clearer, they will return to quarantine and fly to Kennedy Space Center for final preparations prior to launch.

NASA has scheduled a 1 PM ET press conference to offer more details.

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The countdown for the Artemis II Wet Dress Rehearsal is underway at Kennedy Space Center. Yesterday at 8:13 PM ET, or L-48:40 hours, the simulated countdown began in preparation for a test launch window opening at 9 PM tomorrow, February 2nd.

Artemis II will not launch during this countdown, of course, as it is just a test countdown. The Artemis II crew will not be aboard during Orion the WDR.

Sometime around 1 AM ET Tuesday, or February 3rd, the WDR will conclude.

What Comes After The WDR

After the test cycle concludes, engineers and mission managers will review data gathered during the Wet Dress Rehearsal. This process may take a few days as each major system is reviewed. Since Artemis I, NASA has implemented changes to the liquid Hydrogen systems at LC-39B. That will be a particular area of concern, as H2 leaks bedeviled the Artemis I countdowns both in WDR and later on the night it launched.

After the Data Review, a Flight Readiness Review can be held, during which all aspects of the mission are reviewed: the SLS rocket, the Orion spacecraft, ground systems at the Cape, and the status of the recovery teams that would be first responders to a major anomaly, should one occur, and many others.

The FRR is last major review for the flight, and in it, the Artemis II management team will need to give the mission permission to proceed towards a launch. Only after that milestone is achieved will a launch date and time be announced by NASA.

The Wet Dress Rehearsal In Detail

L-49 Hours, 15 Minutes and Counting
TimeActivity
L-49H 15M Launch team arrives on stations; countdown begins
L-48H 40M Countdown clock begins
L-48H 45M – L-39H 45M LOX/LH2 system preparations for vehicle loading
L-47H 30M – L-38H 30M Fill water tank for sound suppression system
L-40H 30M – L-39H Interim Cryogenic Propulsion Stage (ICPS) powered up
L-39H 30M – L-38H 45M Core stage powered up
L-38H 45M – L-34H 30M Final preparations of four RS-25 engines
L-34 Hours, 30 Minutes and Counting
TimeActivity
L-33H 45M – L-33H 10M ICPS powered down
L-32H 30M – L-28H 30M Charge Orion flight batteries to 100%
L-30H 30M – L-23H 30M Charge core stage flight batteries
L-19H 30M – L-16H Orion crew suit regulator leak checks
L-19H 15M – L-17H 45M ICPS powered up for launch
L-15 Hours and Counting
TimeActivity
L-14H 30M – L-13H All non-essential personnel leave Launch Complex 39B
L-13H 15M – L-11H 05M Air-to-GN2 changeover and vehicle cavity inerting
L-12H 45M – L-11H 15M Ground Launch Sequencer (GLS) activation
L-11 Hours, 40 Minutes and Counting
TimeActivity
L-11H 35M – L-9H 20M Built-in hold: 2 hours, 15 minutes
L-11H 40M – L-10H 30M Weather and tanking briefing
L-10H 20M Go/No-Go decision to begin tanking
L-10H 20M – L-9H Orion cold soak
L-10H 10M – L-9H 50M Core stage LOX transfer line chilldown
L-10H 10M – L-9H 25M Core stage LH2 chilldown
L-10 Hours and Counting
TimeActivity
L-9H 50M – L-9H 10M Core stage LOX main propulsion system chilldown
L-9H 25M – L-9H Core stage LH2 slow fill start
L-9H 20M Resume T-Clock from T-8H 10M
L-9H 10M – L-8H 55M Core stage LOX slow fill
L-9H – L-7H 40M Core stage LH2 fast fill
L-8H 55M – L-6H 10M Core stage LOX fast fill
L-8H 45M – L-8H 10M ICPS LH2 chilldown
L-8H 10M – L-7H 25M ICPS LH2 fast fill start
L-7H 45M – L-6H ICPS LOX main propulsion system chilldown
L-7H 40M – L-7H 30M Core stage LH2 topping
L-7H 30M – terminal Core stage LH2 replenish
L-7H 25M – L-7H 05M ICPS LH2 vent and relief test
L-7H 05M – L-6H 55M ICPS LH2 tank topping start
L-6H 50M – terminal ICPS LH2 replenish
L-6H 10M – L-5H 40M Orion communications system activated (RF to Mission Control)
L-6H 10M – L-5H 40M Core stage LOX topping
L-6 Hours and Counting
TimeActivity
L-6H – L-5H 15M ICPS LOX fast fill
L-5H 40M – terminal Core stage LOX replenish
L-5H 40M Stage pad rescue; closeout crew assemble
L-5H 15M – L-5H ICPS LOX vent and relief test
L-5H – L-4H 40M ICPS LOX topping
L-4H 40M – terminal ICPS LOX replenish; all stages replenish
L-4H 40M Built-in hold: 40 minutes
L-4H 40M – L-4H 25M Closeout crew to white room
L-4H 30M – L-4H 20M Crew Module hatch preps and closure
L-4H 20M – L-3H 20M Counterbalance mechanism hatch seal/press decay checks
L-3H 20M – L-2H 40M Crew Module hatch service panel install/closeouts
L-2H 40M – L-2H 20M Launch Abort System (LAS) hatch closure for flight
L-1H 45M – L-1H 40M Closeout crew departs Launch Complex 39B
L-1H 10M Launch Director brief – Flight vehicle/TPS scan results with CICE
L-40 Minutes and Holding
TimeActivity
L-40M Built-in hold: 30 minutes
L-25 Minutes and Holding
TimeActivity
L-25M Transition team to Orion-to-Earth comm loop following final NTD briefing
L-16M Launch Director polls team for “Go” for launch
T-10 Minutes – Terminal Count
TimeActivity
T-10M Ground Launch Sequencer (GLS) initiates terminal count
T-8M Crew Access Arm retract
T-6M GLS go for core stage tank pressurization; Orion set to internal power
T-5M 57S Core stage LH2 terminate replenish
T-4M GLS go for core stage APU start; APU starts; Core stage LOX terminate replenish
T-3M 30S ICPS LOX terminate replenish
T-3M 10S GLS go for purge sequence 4
T-2M 02S ICPS switches to internal battery power
T-2M Booster switches to internal battery power
T-1M 30S Core stage switches to internal power; hold for 3-minute certification hold time verification
T-1M 20S ICPS enters terminal countdown mode
T-50S ICPS LH2 terminate replenish
T-33S GLS sends “Go for Automated Launch Sequencer” command; GLS Cutoff/Recycle
Terminal Count Hold Rules:
  • Teams can hold at T-6M for the duration of the launch window (minus 6 minutes) without recycling.
  • Between T-6M and T-1M 30S: holds up to 3 minutes can resume; longer holds recycle to T-10M.
  • After T-1M 30S but before automated sequencer: recycle to T-10M if window permits.
  • After automated sequencer handover: any stop concludes the launch attempt for that day.

Source: Countdown Begins for Artemis II Wet Dress Rehearsal, NASA, January 31, 2026.

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The four astronauts assigned to NASA’s first lunar voyage in more than half a century entered medical isolation on Friday as Kennedy Space Center teams push toward a potential early February launch window.

NASA’s Reid Wiseman, Victor Glover, and Christina Koch, joined by Canadian Space Agency astronaut Jeremy Hansen, have begun what the agency calls a “health stabilization program”—a precautionary period designed to shield the crew from illness that could scrub their mission. The protocol typically spans 14 days before liftoff, though NASA has yet to announce an official launch date while rocket and spacecraft testing continues.

Preparations Continue At KSC

At Kennedy Space Center, preparations are accelerating around the Space Launch System rocket and Orion spacecraft at Launch Pad 39B. Ground crews have wrapped up checkouts of mechanical power systems, cryogenic propellant lines, and the rocket’s RS-25 engines.

Beginning Saturday, January 24th, the perimeter around LC-39B will be cleared of non-essential personnel as technicians begin servicing the twin solid rocket boosters as part of the final preparations for SLS and its first crewed flight.

Astros To Come To KSC Late Next Week If All Continues Going Well.

The astronauts are currently quarantining in Houston but will relocate to Kennedy Space Center approximately six days before launch if testing milestones continue on schedule. Upon arrival, they’ll take up residence in the astronaut crew quarters housed within the Neil A. Armstrong Operations and Checkout Building—the same facility that has hosted crews since the Space Shuttle era.

During isolation, the crew will complete mission simulations and medical evaluations while maintaining limited contact with pre-screened family members and colleagues in order to prevent exposure to any illnesses that might prevent them from launching.

Artemis II Milestones – Talk of Titusville

Artemis II Pre-Launch Milestones

Launch window opens Feb. 6, 2026

Milestone Target Date Status Details
Launch Pad Integration Late Jan. 2026 In Progress Connect GSE, electrical lines, fuel ducts, and cryo feeds; power up integrated systems
Crew Final Walkdown Late Jan. 2026 Upcoming Wiseman, Glover, Koch, and Hansen conduct final pad inspection
Wet Dress Rehearsal NET Feb. 2, 2026 Upcoming Load 700,000+ gallons of cryogenic propellants; full countdown practice; detanking ops
Flight Readiness Review Early Feb. 2026 Upcoming Mission management assesses all systems and commits to official launch date
Launch NET Feb. 6, 2026 Launch Window 16 launch opportunities through April 30, 2026; first window 9:41 PM EST (02:41 UTC)

As of Jan. 24, 2026, 12:00 PM EST

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Artemis I liftoff. Photo: NASA

The Artemis II mission will mark humanity’s return to lunar exploration with a crewed spacecraft for the first time since Apollo 17 in December 1972. NASA’s Space Launch System rocket and Orion spacecraft will carry astronauts Reid Wiseman, Victor Glover, Christina Koch, and Canadian Space Agency astronaut Jeremy Hansen on an approximately 10-day journey around the Moon and back to Earth.

The launch is currently slated for April 1st and 6:47pm EDT, with a two hour window on that day. If weather or technical reasons necessitate postponement on April 1, April 2 is available.

Launch will occur from Launch Complex 39B at Kennedy Space Center—the same historic pad complex that sent Apollo astronauts to the Moon aboard Apollo 10. After that, LC-39B was reconfigured for the Space Shuttle program, serving as the launch site for 53 missions. At the end of the Shuttle era, the pad was designated for Project Artemis.

Last update: March 27, 10am

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Artemis I liftoff. Photo: NASA

The Artemis II mission will mark humanity’s return to lunar exploration with a crewed spacecraft for the first time since Apollo 17 in December 1972. NASA’s Space Launch System rocket and Orion spacecraft will carry astronauts Reid Wiseman, Victor Glover, Christina Koch, and Canadian Space Agency astronaut Jeremy Hansen on an approximately 10-day journey around the Moon and back to Earth.

The launch window opens on February 6, 2026, with additional opportunities on February 7th, 8th, 10th, and 11th. Launch will occur from Launch Complex 39B at Kennedy Space Center—the same historic pad complex that sent Apollo astronauts to the Moon aboard Apollo 10. After that, LC-39B was reconfigured for the Space Shuttle program, serving as the launch site for 53 missions.

Last update: February 2, 2026

See also:
Traveler’s Guide To The Artemis II Launch
Artemis II Viewing Map (Desktop Version)
How To Take A Launch Streak Shot

Possible Launch Dates:

The rocket is at the pad, and the launch windows are as follows:

To date (January 20th) no official launch date or time has been released by NASA. Pad integration is continuing, followed by a Wet Dress Rehearsal (currently no later than February 2) and, finally, a Flight Readiness Review to evaluate the status of all aspects of the mission. If successful, permission to proceed will be granted, and a launch date and time will be officially set.

Keep that word in mind — official — because it trumps all other information.

So, while you still have some time, here’s some information about coming to town and viewing the launch:

Understanding the Launch Location

Most visitors to the Space Coast do not realize that there are actually two space launch centers in Florida: Kennedy Space Center (KSC), operated by NASA, and Cape Canaveral Space Force Station (CCSFS), a US Space Force base. They adjoin one another and form a contiguous area, but each has its own management and security.

Launch Complex 39B is located at Kennedy Space Center, on the northern end of the Cape. This is important for selecting your viewing location—LC-39B is significantly farther north than SpaceX’s SLC-40 at Cape Canaveral Space Force Station, which means the optimal viewing spots are different.

For Artemis II, the Titusville area offers some of the best public viewing, as it sits almost directly across the Indian River from LC-39B. Port Canaveral and Cocoa Beach, while still offering views, are considerably farther away.

Proximity to the launch pad is important for seeing ignition and liftoff, but it matters less and less as the rocket climbs into the sky. That’s because it will be rising rapidly, affording everyone an opportunity to see it well. That being said, if you can’t get viewing tickets at the Saturn V Center, don’t fret too much — you’re going to get a great look anywhere in the Space Coast region so long as the skies are clear at launch time.

Best Public Viewing Spots for Artemis II

In a nutshell, here are some good spots to consider:

Artemis II Viewing Locations
📍 Viewing Locations
Ticketed Free Paid

Best Public Viewing Spots for Artemis II

Area Spot Distance Notes
KSC (Ticketed) Banana Creek / Apollo-Saturn V Center ~3.9 mi 💵 Premier viewing for LC-39 launches. Ticketed via KSCVC. Info
Titusville Max Brewer Bridge & Parrish Park ~11.1 mi Elevated bridge vantage. Excellent for LC-39 launches. Fills very quickly.
Titusville Space View Park ~11.6 mi Iconic riverfront viewing. Live audio feeds. Very popular—arrive early.
Titusville Rotary Riverfront Park ~11.8 mi Open river views; good parking. Less crowded alternative.
Titusville Kennedy Point Park ~12.0 mi Long riverfront; good tripod space. Near marina.
Titusville Space Bar (Rooftop) ~11.5 mi Rooftop view with food/drinks. Check hours.
Port Canaveral SR-528 Bennett Causeway pull-offs ~14.5 mi Open causeway views. Farther but still viable.
Port Canaveral Jetty Park ~14.6 mi 💵 Beach and pier access. Good for families. Fees
Cape Canaveral Cherie Down Park ~15.2 mi ⚠️ Beach access. Dunes may block first seconds.
Cocoa Beach Alan Shepard Park ~17.4 mi 💵 Beachfront. Named for America’s first astronaut.
Cocoa Beach Cocoa Beach Pier ~16.8 mi 💵 Horizon view over ocean. Tourist crowds.

⚠️ Potential obstruction    💵 Fee, paid parking, or ticket required

Note: Distances are approximate straight-line measures to LC-39B. Access, hours, fees, and closures may change—verify before launch day.

Looking Closer at the Options

Banana Creek Viewing Area (Apollo-Saturn V Center) – ~3.75 miles

UPDATE: Tickets went on sale for KSCVC options on January 23, and sold out in 30 minutes. Check their site, but it may be too late for this option.

This is the viewing location for Artemis II. Kennedy Space Center Visitor Complex offers ticketed viewing at the Apollo-Saturn V Center, which sits almost directly across the Banana Creek from LC-39B. This is as close as the general public can get to a launch from LC-39B.

The experience includes bleacher seating, live commentary from NASA, and the unparalleled backdrop of the actual Saturn V rocket displayed inside the center. For a once-in-a-generation mission like Artemis II, this is worth the investment. If you have kids or grandkids who want to go, there are few events that are more exciting than this.

Pricing: Expect premium pricing for Artemis II—this is a historic mission. Tickets are in addition to standard KSCVC admission and parking. Prices for other premium launches have been as high as $250 per person, and it is reasonable to expect KSCVC to have similar price tags on Artemis II ducats.

Important: Read the KSCVC Scrub Policy carefully before purchasing. If the launch scrubs after you’ve used transportation to the viewing site, your ticket may be considered “used.” Contact the Visitor Complex directly with questions, they are the only ones that can give official information about their policies.

Max Brewer Bridge & Parrish Park (Titusville) – ~10.75 miles

For free public viewing, the Max Brewer Bridge area is arguably the best spot for an LC-39B launch. The elevated bridge provides clear sightlines across the Indian River directly toward the launch pad. Parrish Park at the base of the bridge offers parking and waterfront access.

Arrive extremely early. For a mission of this magnitude, expect the bridge and surrounding areas to fill up many hours—potentially the night before for a daytime launch. The February launch windows are evening opportunities and that may attract even larger crowds. Parking will be in high demand, and the early birds get the best spots.

Stay tuned for news about closures and plans that the city may have for Max Brewer.

Space View Park (Titusville) – ~11.1 miles

Space View Park is one of the most famous public viewing locations on the Space Coast, featuring the Space Walk of Fame and often hosting live NASA audio feeds during launches.

The park sits on the Indian River, with direct views of Kennedy Space Center. It’s across the Max Brewer Bridge from the Merritt Island National Wildlife Refuge entrance to Kennedy Space Center and is one of the closest off-base sites you can view the launch from.

For Artemis II, expect this park to be packed. Arrive as early as possible. The park has restrooms and is walking distance from downtown Titusville restaurants and shops.

Rotary Riverfront Park (Titusville) – ~11.5 miles

A popular local alternative to the more crowded Space View Park, Rotary Riverfront Park offers similar views with typically easier parking. It’s a good choice for families or those who want a slightly less hectic experience, but it too will be crowded for Artemis II.

Kennedy Point Park (Titusville) – ~ 11.75 miles

Located next to a marina, Kennedy Point Park offers a long stretch of riverfront with ample space for tripods and photography equipment. It’s less well-known than Space View Park, making it a good option for those seeking a bit more elbow room.

William J. Manzo Memorial Park – ~12 miles

A hidden gem, this small riverfront park offers unexpectedly great views across the Indian River. Small is the operative word, so it will be a good idea to settle in early here if that’s your plan.

Space Bar (Titusville) – ~12.1 miles

If you want to combine launch viewing with food and drinks, Space Bar’s rooftop offers excellent views toward LC-39B. Check their website for more information as the launch approaches , and expect it to be crowded for Artemis II.

Reservations, if available, would be very wise.

KARS Park – ~14.5 miles

UPDATE: KARS Park announced on February 2nd that they will not be open to the general public for launch viewing of Artemis II.

KARS Park is located on Kennedy Space Center property and offers good views across the water toward LC-39B, even if you are looking along the shoreline a long way. KARS is a great place to see the rocket after it lifts off as it is on the banks of the Banana River with a clear view over Cape Canaveral Space Force Station.

Entry requires a fee, and you must verify the park’s status before launch day—access to KSC property can be restricted for major launches. Unauthorized entry is trespassing on federal property.

KARS will be crowded, but it will be out ahead of the crowd after the launch.

Check KARS Park on Facebook for the latest access information.

Port Canaveral Area – ~14-16 miles

The Port Canaveral viewing spots—including SR-528 pull-offs and Jetty Park—are farther from LC-39B than from the Cape Canaveral launch pads. You’ll still see the launch clearly, but the experience will be much less dramatic than viewing from Titusville.

Jetty Park remains a good family-friendly option with beach access, a pier, and amenities. Just be aware that cruise ships or port infrastructure can occasionally obstruct views. That’s not as likely for a night launch in February as it might be for day launches in later windows.

Cocoa Beach – ~20+ miles

Alan Shepard Park and Cocoa Beach Pier offer views of the launch, but at 20 miles distance, the rocket will appear smaller. These locations are better suited for casual viewing than for diehard space fans who want to be in the middle of the action.

Tips for Artemis II Viewing

Arrive early—very early. This is the first crewed Moon mission in over 50 years. Public interest will be enormous. For popular locations like Space View Park and Max Brewer Bridge, consider arriving the night before for a morning launch, or at least 4-6 hours early.

Check the launch time. The February 2026 window includes several potential dates. NASA will confirm the actual launch date after the wet dress rehearsal (scheduled for no later than February 2). Monitor NASA’s Artemis blog for updates.

Sound travels slowly, about 5 miles per second. At 7 miles, expect the sound to reach you about 35 seconds after liftoff. At 15 umiles, it’s over a minute. Be patient—the rumble is worth the wait.

Have a well-charged smartphone to keep up with the status of the launch. Social media sites from official sources can be invaluable, as are livestreams on Youtube. NASA, Spaceflight Now and NASA Spaceflight are three of the best. NASA’s stream is, of course, the official one.

Bring essentials: Chairs, sunscreen (even in February), water, snacks, and binoculars. A camera with a telephoto lens will help capture the rocket as it climbs*. You won’t need the chairs if you have tickets to view at Kennedy Space Center, nor will you need water and snacks because they will be nearby.

SLS is loud. The Space Launch System generates 8.8 million pounds of thrust at liftoff—more than the venerable Saturn V. Even from Titusville, you’re going to feel its low frequency rumbles deep in your chest. Some say it is ground-shaking, but that’s apocryphal except for viewers at the Saturn V Center.

Car Alarms Get Set Off By Launches. Don’t be surprised if it’s yours.

Plan for a lot of traffic leaving: build in time to get out of the viewing areas after the launch. Traffic will be bad everywhere. It’s simply a part of the viewing experience.

* I recommend NOT trying to photograph the launch, as watching it is a visceral experience not to be missed. Buy one of the prints that will be for sale later.

What You’ll Witness

Artemis II will send four astronauts farther from Earth than any humans have ever traveled. Commander Reid Wiseman, Pilot Victor Glover, and Mission Specialists Christina Koch and Jeremy Hansen will loop around the Moon before returning to Earth at approximately 25,000 mph—the fastest any humans have ever reentered Earth’s atmosphere.

Victor Glover will become the first person of color to travel to the Moon. Christina Koch will become the first woman. Jeremy Hansen will become the first non-American. All of them might end up as the farthest-traveling crew to date.

Artemis II crew. Photo: NASA

Standing on the shores of the Indian River or the sands of Cocoa Beach, you’ll watch the 322-foot-tall rocket rise on twin pillars of flame from the launch pad. LC-39B has been used in the past for Saturn V Apollo missions as well as Space Shuttle missions.

The ground won’t shake from 7 miles away—that’s a myth—but the deep rumble of those solid rocket boosters rolling across the water is something you’ll remember for the rest of your life.

Artemis II on January 17, 2026 as it exits the VAB at KSC. Photo: Charles Boyer
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