For the unfamiliar, Top Gun: Maverick is set 30 years after the original film. Maverick is still a naval aviator, highly decorated, but with an uncanny ability to get into just enough trouble to keep from getting promoted out of the cockpit. He is the test pilot for the hypersonic Darkstar scramjet. We’re never told explicitly what Darkstar’s mission is, but it is noted that the government wants to pull the funding for the project in part because it hasn’t yet reached the contract spec of Mach 10 (7672.691 mph).

Maverick suits up for a test flight. He is cautioned to obey the parameters of it and not to exceed Mach 9 (6,905.42 mph). But this is Maverick we’re talking about. He pushes the aircraft to Mach 10, destroying it in the process. Tom “Iceman” Kazansky, Maverick’s contemporary who has advanced in rank, saves his friend’s career by sending him to the Top Gun school at NAS North Island, where he is charged with training the next generation of naval fighter pilots while battling his inner demons—one of the nuggets is the son of his backseater, Nick “Goose” Bradshaw, who was killed in the first movie.

There is a lot of fancy flying in the movie, and it has generated hours of debate in FBOs and online from pilots and aviation enthusiasts who wonder if Darkstar is real and not the Queen Mother of a scale model movie prop.

(Reality check: The closest a piloted aircraft has come to Mach 10 is the SR-71 Blackbird designed by Lockheed’s Kelly Johnson during the Cold War that reached Mach 3.3 or 2,531.988 mph.)

According to Fred Bell, vice chairman of the Palm Spring Air Museum, Darkstar represents the sixth generation of aviation stealth technology. The conceptual design for it—not to be confused with a drone project of the same name—was created by Lockheed Martin Advanced Development Programs.

• READ MORE: Taking a Transcontinental Flight in the Hypersonic Darkstar, Virtually

Lockheed Martin Meets Hollywood

In 2017 Hollywood producers who wanted a hypersonic design for the movie approached Lockheed Martin asking for a conceptual design—could anything go that fast? They knew aviators and other “rivet counters” (the polite term for the people who pick apart aviation movies as though their parentage has been insulted) would be unmerciful in their criticism unless some effort was made to at least embrace the laws of physics and reality.

The Lockheed Martin designers came up with an aircraft that looks very much like a cross between two other of its models: the SR-71 Blackbird—SR stands for Strategic Reconnaissance—the now retired, super-fast design; and the Lockheed Martin F-35, also known as “the world’s most advanced fighter jet.”

In the movie, Darkstar has some dramatic and moving scenes. For example, on the morning of the test flight the camera pans the aircraft in sort of a walk-around and shows a skunk image on the tail. The skunk is a trademarked by Lockheed Martin ADP, which is also known as Skunk Works, because in the 1930s the company was located in Southern California next to a plastics plant that gave off a horrible stench. Super-secret aircraft were developed there, and the term “skunk works” remains synonymous with a place where such technology is developed.

Secrecy is still a big deal, even with movie airplanes. The Darkstar designers are identified only by their first names: Jim, Jason, Lucio, and Becky. According to information provided by Lockheed Martin, when the movie premiered, Jim is credited with the conceptual design. Jason and Lucio handled the task of turning the conceptual designs into a realistic aircraft model with a working cockpit. Becky, a mechanical engineer, worked with the movie team to build the Darkstar vehicle, including the functional cockpit, and kept the model structurally sound during the filming process.

This is no scale model, noted Bell.

“It measures 40-feet wide by 70-feet long,” Bell said. “It is a dagger shaped aircraft with a tremendous amount of detail. On the landing gear the serial number of the tires are stamped on the wheels. The cockpit has an articulating canopy that opens and inside you will see a Lockheed Martin Skunk Works control stick.”

The aircraft even has panel covers that read, “REMOVE BEFORE FLIGHT,” and on the tail there is the famous skunk standing confidently on its hind legs with his front paws folded on its chest. 

Darkstar belongs to Lockheed Martin. According to Bell, the company arranged to have the aircraft trucked to the museum and then its technicians and those of the museum reassembled it. When the aircraft was fully together, it was celebrated with a dual water cannon salute. It will be on display near other Lockheed Martin aircraft.

According to a spokesperson for Lockheed Martin, there are no plans to take Darkstar on the road for a tour as the size and complexity of moving it makes that untenable. If you want to see the aircraft up close, make the trip to Palm Springs to see the Darkstar Rising Experience. This includes a comprehensive design-to-cockpit tour, and talks from guest speakers as the museum explores the developments in stealth technology.

“We will have people talking about how the aircraft was created and how it was used in the movie, and will talk about stealth technology in general—where it came from and where it is going,” Bell said. “It’s no longer enough to be fast.”

Details, including ticket prices, can be found here.

The schedule is as follows:

February 24: The making of Darkstar

March 1: Behind the scenes: Darkstar comes to life, making movie magic

March 20: The next generation of stealth

March 27: The next generation of hypersonic aircraft

All viewings will take place from 5:30 p.m. to 7 p.m. PST.

The post Movie Star Airplane Appears in Palm Springs Aviation Museum appeared first on FLYING Magazine.

Vicky Benzing hails from Northern California, growing up in San Jose. After graduating from high school, she pursued a career in physical chemistry, eventually obtaining a Ph.D in the discipline from the University of California-Berkeley. But a lucrative position in the Silicon Valley tech industry failed to hold onto her heart. Recognizing we have only so much time on the planet, she switched gears about 20 years ago, turned toward aviation, and practiced full time the aerosports she loves. Today she is based at Monterey Airport (KMRY).

She’s a skydiver, holds an airline transport pilot certificate, and flies her 450 hp 1940 Stearman in air shows around the country. In 2008, she placed in the top 10 in the Advanced category at the U.S. National Aerobatic Championships in an Extra 300S. But it’s her past 13 years at the National Championship Air Races in Reno that spark her forward the most. Benzing first raced at the Reno-Stead Airport (KRTS) in 2010, winning her first heat flying a Glasair SH-3R. She went on to become the “fastest woman at Reno” in 2015 in an L-139. And recently she’s topped the Sport Class Silver division with her custom Lancair Legacy, Lucky Girl.

• READ MORE: 6 Cities Competing to Host Next National Championship Air Races

FLYING caught up with Benzing as she was preparing for Reno 2023—hopeful to mark one more milestone at the storied event in the Unlimited Class at the controls of a P-51 Mustang.

FLYING Magazine (FM): How did you transition from aerobatics and get your start at Reno? What was the first airplane you brought to the races?

Vicky Benzing (VB): At the behest of Lee Behel, I went to PRS [Pylon Racing Seminar] in my Extra and, of course, the Extra is too slow to race. The Sport Class was not yet oversubscribed…we hadn’t opened the class up to [Van’s] RVs yet…so he asked me if I would race if he could find an airplane for me. Vicki Cruse [an aerobatic champion who died flying her Edge 540 at an airshow in England in 2009] was a close friend. Lee purchased her Glasair from her estate, and I raced it in her honor. She had previously raced at Reno—it was Race 13— the Cruse Missile. That airplane…had gremlins, and we always attributed that to Vicki’s sense of humor. I won that first race against Scott Nelson—I had to pass him to win the race. I got the fire truck ride, and the second race, I was on the pole, and when you’re a rookie, trying to find the pylons is tough. In the chute, when I put the throttle forward, I had a prop overspeed and very nearly lost the prop. I managed to get the airplane on the runway. We rebuilt the engine on that airplane, and I raced it the following year, the race that the Galloping Ghost went in, so we didn’t get to finish the race. So it wasn’t till the third year that I actually got to race all the heat races.

FM: From there, you went on to progress into the Jet Class, as well as getting the right airplane to advance in the Sport Class. Tell us about those experiences.

VB: In 2013, I raced the jet, Kermit, the L-39, and the Cruse Missile. We tried to make the Cruse Missile go faster with modifications—and I had a number of Lancair “kills.” But it wasn’t as fast as all the Lancairs. I put a rearview mirror in my cockpit, and I put a label on it that said, “Lancairs belong here.” But I wanted to have an airplane that I could modify and work on my own, and so in 2014, I went out and bought Lucky Girl [a Lancair Legacy]. I think the Cruse Missile was jealous, because Lee took me to go look at Lucky Girl in Fresno, California, and on the way, the Cruse Missile threw a fit and had a prop overspeed, and we ended up landing at the former Castle Air Force Base—Merced Airport [KMCE] now. Lucky Girl’s a fast stock Lancair, and through the years I’ve just modified her bit by bit, with bigger pistons, and last year, nitrous [oxide, a performance booster], and we’ll probably run nitrous this year.

FM: In 2015, you became the fastest woman at Reno. How did you come by that milestone?

VB: I raced the jet again in 2014, and then Dianna Stanger called me up to race her jet, Darkstar, an L-139, in 2015, and that’s when I became the fastest woman ever at Reno, ’cause I was clocked on the course at 469.831 mph, which was the same speed as one of the other guys did. And he clocked it first before me, so I ended up behind him in the order. Last year I raced Robin, the yellow jet [L-39]. Jets [are] a different deal—it’s really high G loading, especially for the really fast ones. You kind of say, “400 mph, 4 Gs; 500 mph, 5 Gs,” but that’s continuous, so if you hit wake, or fly unevenly, you’re hitting even higher Gs.

FM: You moved up to the top of the Sport Class Silver rankings regularly over the past few years in Lucky Girl. But you’ve had other dramatic moments in the race that stand out.

VB: From 2014 to present, I’ve raced Lucky Girl. My engine quit in the cooldown [lap]. I came out on downwind in the cooldown and went to land, and the engine quit. I was like, “What? You’re kidding me.” And those airplanes come down so quickly. I was basically over [Runway] 8, and I made the left turn to land on 32, and I barely got on the runway, barely got out of the turn before I made the runway. They are not gliders.

FM: For this year, you plan to campaign a special airplane. How did you come to buy a classic warbird?

VB: So I bought Clay Lacy’s P-51 [Miss Van Nuys] in 2019, and Steve Hinton Jr. has been restoring it, and it became a much bigger project than it started out as. The idea of purchasing the aircraft was to put it on the racecourse at Reno because it’s an historic aircraft [see “In Depth,” Issue 938] but also to fly it at airshows, because I think airplanes like that deserve to be seen. I think, as a woman, there are not that many opportunities to fly warbirds. I would love to be the person who is at the [Commemorative Air Force] museum wrenching on airplanes, but I just don’t have time to do that with doing the shows. I had to make an opportunity for myself to fly a warbird. I went to Stallion 51 to get training—and I swore up and down to my husband I was not going to buy a P-51. He bought me a little model for my desk. But Clay is my neighbor at Pine Mountain Lake, and I heard that his Mustang was for sale. It took a little talking to my husband and asking Clay if he would sell it to me.

FM: But the care and feeding of a warbird takes time and investment. Share with us the story of bringing an historic P-51 to the Unlimited Class.

VB: [Miss Van Nuys] had never been restored since it was built in 1944—never been overhauled. The last time an engine had been put in it was 1976 [after Lacy’s last time racing it at Reno in 1972]. I would be surprised if there were 100 hours on that engine. We were just going to bring it back up to snuff, but then one thing led to another. And that led to paint, and can you paint the cockpit, can you change the instrument panel? And then going through the airplane, we found a crack in the tail, so it had to come off. Steve is in the process of painting it—we got delayed by paint because we had a custom color mix, [a purple that is an exact match to the original shade]. We ordered it in September [2022], and we got it in April. We put in a water bar system for racing; the wing was profiled to make it smooth for racing. We put all the antennas inside the airplane. One of the things that I really like about racing is the modifications that you do to your airplane are there forever. If you’re using it for commuting or flying here to there, you’re going a lot faster because of the investment you’ve made in the airplane. My Lancair Legacy Lucky Girl cruises all day long at 2,500 rpm and full throttle, 5,500 feet, at 250 knots.

This column first appeared in the September 2023/Issue 941 of FLYING’s print edition.

The post Expanding the Campaign at Reno appeared first on FLYING Magazine.

The flight I’ll be taking will be from Miramar (KNKX), the former location of the Top Gun academy outside San Diego, to Joint Base Andrews (KADW) outside of Washington, D.C. If I do everything right, the 2,000-mile trip should take just 25 minutes.

The airplane in the movie was roughly based on the Lockheed SR-72, which is supposedly in development, though all the details about it—including whether it truly exists or not—are top secret. According to reports, at least, the SR-72 is meant to be the replacement for the SR-71 Blackbird, which was retired in 1998 and was the fastest operational airplane in the world.

• READ MORE: Crossing the English Channel in a Blériot XI

Lockheed’s famous “Skunk Works” actually worked with the filmmakers of Top Gun: Maverick to ensure the full-scale mock-up they constructed looked like a realistic hypersonic airplane, similar but not identical to the SR-72. There is a story—perhaps true, perhaps not— that when the filmmakers produced their version of the Darkstar, China repositioned a satellite to fly over and take a closer look, believing it was real.

Because of the wind, I’m taking off to the west and will need to turn around to head east. That will add some time to my flight. Rotating from Miramar’s runway at 180 knots, with afterburners on, I pitch up 10 degrees and raise my landing gear, accelerating toward Mach 0.9.

Once I reach Mach 0.9, I stay below the speed of sound by raising pitch to 20 degrees, while turning to the east. That’s San Diego Harbor below me.

To break the sound barrier and accelerate quickly, I invert the airplane to go into a dive. The reason I invert is to avoid excessive negative G-forces by pulling back instead of pushing forward on the stick to nose down. I’ve just broken Mach 1.0.

Now that I’m supersonic, I quickly roll back upright and resume my 10-degree climb, gradually accelerating to Mach 3.0. I’m already over the California desert, nearing the Salton Sea ahead. Until I reach Mach 3.0, I’m still using my conventional jets with afterburners.

A normal jet engine works by compressing air through a series of spinning blades then adding fuel to burn it and make it expand rapidly out the back. Before it exits, the hot air turns a turbine that powers the compressor in front. At extremely high speeds, a compressor isn’t needed because the ramming force of the oncoming air itself is sufficient to compress it. A ramjet dispenses with both the compressor and the turbine to drive it.

• READ MORE: Canada’s Rugged, All-Metal National Airplane

In a ramjet, however, the air is slowed inside the engine to below the speed of sound. In a scramjet—or supersonic ramjet—the air flowing through it remains at supersonic speed and can produce much higher speeds as a result. A scramjet, however, needs to be already moving at a very high speed to work. So once I reach Mach 3.0 (I’m at 2.81 and rising), I can flip the switch and ignite the scramjets.

The exhaust ports for my red-colored afterburners close, replaced by the white-hot heat of my scramjets. The airplane accelerates very rapidly now.

I’ve also climbed very rapidly. I level off at 135,000 feet, a little higher than I planned, but no matter. I’m nearing Mach 6.5 now, over 4,800 mph.  I think I’m over Arizona, but to tell you the truth, I’m not 100 percent sure. I’m just following the magenta navigation line on my screen. You can see the nose and edges of the airplane heating up from the friction of moving so fast.

I’ve leveled off again at 127,000 feet and reached Mach 9.1, my cruising altitude. It’s possible to reach Mach 10 by going higher, but I’ve got enough on my hands already.

The flight is going very quickly. I’m already over the Great Plains. You can easily see the curvature of the Earth.

The mission of the SR-72, like the SR-71 and the U-2 before it, would be to conduct reconnaissance at an altitude too high and speed too fast for anyone to catch or shoot down. While these missions are now mostly performed by satellites orbiting the Earth—or, more experimentally, by high-altitude balloons—some argue that a high-altitude, high-speed “spy plane” is still needed to fill gaps in coverage at a moment’s notice.

• READ MORE: A Fanciful Flight in the ‘Spruce Goose’

I haven’t been able to recognize very much along the way, but I’m pretty sure St. Louis is about 24 miles below me.

How hot does the airplane get? That’s classified. But the skin of the SR-71, traveling at a mere Mach 3.0, reached an average of 600 degrees Fahrenheit. The cockpit window of the SR-71 was made of quartz and 1.25 inches thick to survive these temperatures.

About 200 miles from my destination, I turn off the scramjet, pull the throttle back to idle, and begin my slowdown and descent. I’m dropping through 75,000 feet here and slowing to Mach 4.4, basically just gliding down with minimal power.

The first time I flew the Darkstar, I waited too long to begin decelerating. As I descended into the thicker atmosphere, I was going too fast and the airplane broke up from the stress (oops, sorry taxpayers). This time I overcompensated in the other direction and began my deceleration a bit too early. So I ended up skimming over the Appalachians at a slower speed, adding about 15 minutes to my flight time. Better than disintegrating, I suppose.

My approach speed should be between 150 and 200 knots. To fly level at these low speeds, the Darkstar has to keep its nose pitched up about 10 degrees. As I cross the Potomac River with Washington, D.C,. in the background, just to my north, I’ve lowered my wheels for landing at Andrews Air Force Base.

This is a little tricky. I have no forward view and can barely see out my side windows. I have to rely entirely on the digital image on my screen to land on the runway. The little airplane marker on the screen shows my current trajectory. I need to keep it pointed near the start of the runway, while keeping my speed around a steady 150 knots.

It wasn’t the softest landing, but I ended up safe and sound. My total time across the country by scramjet was about 50 minutes. Taking off to the west added about 10 minutes, and beginning my slowdown and descent too early cost me another 15. Still not bad from coast to coast.

Some hope that scramjets can someday be used for passenger transport, putting any destination in the world within a 90-minute flight. But for now the applications remain purely military. Hope you enjoyed the flight.

If you’d like to see a version of this story with more historical photos and screenshots, you can check out my original post here.

This story was told utilizing the official Top Gun Maverick Expansion Pack for MSFS2020, along with airports and sceneries produced by fellow users and shared on flightsim.to for free.

The post Taking a Transcontinental Flight in the Hypersonic Darkstar, Virtually appeared first on FLYING Magazine.

My weather was live and real-time as usual, and I was greeted by ceiling and visibility unlimited (CAVU) the day I started this trip. Once there, I marveled at the incredible scenery and beauty of it all, with lots of snowy landscapes to view. It was early spring but winter in Alaska using the live weather features of MSFS, showed the heavy snows they have been having this year are still in place. 

But once flying a variety of heavy aircraft west along the Aleutian Islands, far western Alaska isn’t far from Russia. My curiosity got the best of me, so I continued the short two-hour trip westward to land in Petropavlovsk-Kamchatsky Airport (UHPP), a fairly remote outpost but real-world fuel stop for Asia-bound ferry flights. 

From UHPP, it was only another two hours or so to northern Japan, where the flowers were in full bloom and the weather warmer and more inviting. From there, I decided to explore North Korea, but my stay was brief. I entered illegally and had to get out fast, prohibited from taking any photos.

A day trip was reduced to 20 minutes at hypersonic speeds. After some great difficulty hand flying this beast, I was able to get it back into the normal atmosphere, approach the new Hong Kong International Airport (VHHH) with wide open runways, and land at some 200 kts. I was exhausted, but the real reason to come to the new Hong Kong airport is to see the old one, Kai Tak International Airport (VHHX), which operated until 1998. 

For any aviation fan, the destination rekindles some great memories of when airline pilots had to practice the famous “checkerboard” approach to Kai Tak’s Runway 13. It was perhaps the most famous airport in the world back then, and lives today in fame. 

We can explore what landing at Kai Tak was like via MSFS, which still has the airport open and fully operational. Here, I selected the Boeing 747-8i, an aircraft popular among passenger airlines until recently. 

This was one of those special flight sim moments where I remember this event as if it were real. To be able to experience a famous, challenging airport, one that thousands of aviators worldwide got to experience first hand, hand flying in their wide bodies and heavy jets of their time into this exciting airport. 

I had hoped in my lifetime that I would have been able to experience flying into Kai Tak International but sadly missed that opportunity. My feelings are similar to having never been able to fly or even be a passenger on the Concorde. Yet we have all of this in MSFS and other simulators as well, keeping this dream alive. 

The post Simulated Flight in Real, Uninterrupted Time appeared first on FLYING Magazine.

This line is uttered in Top Gun Maverick when Capt. Pete “Maverick” Mitchell achieves Mach 10 in the Darkstar—a  reusable hypersonic, piloted aircraft that is ostensibly a creation of Lockheed Martin Skunk Works—note the Lockheed Martin logo of the Skunk on the tail of the aircraft in the movie.  

I felt a surge of pride when I saw the familiar logo—my father worked at Lockheed Martin Advanced Development Projects—known as Skunk Works—for more than 30 years. Dad never told us what he did. He couldn’t. He would go on work trips to “someplace in the desert.” Us kids were taught to say, “Daddy builds rockets,” when someone asked what our father did for work. 

Skunk Works Goes Hollywood

Skunk Works—which got its name because the plant produced a strong unpleasant odor, especially on warm days—by definition is a place of secrecy. 

The skunk is the mascot of “Skunk Works,” a term for Lockheed Martin Advanced Development that goes back to 1943, when engineer Clarence L. “Kelly” Johnson led a team in Southern California tasked with designing a jet for the military. Because manufacturing space was impossible to find because of the war, the team worked out of a rented circus tent set up next to a plastics manufacturing plant.

• READ MORE: Pilots Will Love Top Gun: Maverick—It’s a Lot More Real

According to a spokesperson from Lockheed Martin,  Paramount Pictures approached the aerospace company in 2017 with a request for technical expertise in the production of Top Gun: Maverick.  

“Lockheed Martin Skunk Works designed and produced a conceptual reusable, piloted hypersonic aircraft, referred to as Darkstar in the film.” she said. 

The fictional Darkstar’s lines evoke two other Lockheed Martin aircraft: the SR-71 Blackbird—SR stands for Strategic Reconnaissance—the now retired, super fast design; and the Lockheed Martin F-35, also known as “the world’s most advanced fighter jet.” 

• LISTEN: FLYING’s Top Gun: Maverick Music Playlist

FLYING was told not to confuse Darkstar with the SR-72, a concept referred to as the “Son of Blackbird,”which is a construct ostensibly suggested by the media in 2013, but never confirmed as a concept by Skunk Works.  

Darkstar is movie fiction, the spokesperson explained, saying, “Darkstar is a hyper-realistic aircraft concept designed specifically for Top Gun: Maverick. Hypersonic technology is progressing and the work being done across Lockheed Martin today is laying the foundation for a Reusable Hypersonic Vehicle, such as Darkstar, to one day be possible.”

• REVIEW: How Does Top Gun: Maverick Stack Up?

The fictional aircraft was five years in the making. The development team took it seriously, keeping in mind “the shaping, materials, and components that must withstand heat and environmental stressors caused by high-speed flight.” 

In addition, Lockheed Martin “helped design realistic flight gear, shared artifacts for the set, and arranged site tours and demonstrations to support the effort. The team provided insights to drive realism into the storyline, serving as consultants throughout filming,” the company’s spokesperson said.

Proud of Their Part in the Movie

Lockheed Martin has a webpage dedicated to information about Top Gun Maverick. There you will find more information about the project and a few of the Lockheed Martin designers who worked on it, identified only by their first names: Jim, Jason, Lucio, and Becky.

Jim is credited with the conceptual design. Jason and Lucio handled the task of turning the conceptual designs into a realistic aircraft model with a working cockpit. Becky, a mechanical engineer, worked with the movie team to build the Darkstar vehicle, including the functional cockpit. Throughout the filming process, her job was to keep the model structurally sound.

Jeremy Hindle, the movie’s production designer from Paramount, described Darkstar’s design as “angry, mean, and insanely fast.” 

In the movie, the Darkstar mission is never openly discussed. However, we are told that the government wants to pull the funding on the project because it hasn’t yet reached Mach 10. It is intimated that the test flight protocols—which set specific targets to reach and to go no farther than Mach 10—are short of Mach 9.

Capt. Pete “Maverick” Mitchell bends the rules a bit to get “one last test flight.” Test flights involve a protocol where a target is set and achieved, but do not involve pushing the envelope. Maverick is cautioned not to make the flight—Mach 9 is 6,905.42 mph.

The closest a piloted aircraft has come to that speed in reality is the SR-71 Blackbird, which reached Mach 3.3 or 2,193 mph.

There is a dramatic sequence as Maverick dons his high-altitude flight suit and helmet as he prepares for the before-sunrise launch. The tension mounts as the aircraft climbs into the dawn sky, and the cockpit’s Mach number readout heads toward the targeted value. 

Is it possible to fly an aircraft as fast as Mach 9?

“Operating in the hypersonic flight realm is difficult,” the Lockheed Martin spokesperson said. “The film depicts both a notional aircraft and a notional flight test scenario. The pathfinding work being done today is vitally important. The notional scenario in the film does not represent today’s work.”

• READ MORE: U.S. Navy, Air Force Banking On Top Gun: Maverick Recruitment Boost

This wasn’t the first time Locheed Martin created a Darkstar. In the 1990s Lockheed Martin created the RQ-3 Darkstar, a high altitude, unmanned aerial vehicle designed for endurance, not for speed. The UAV did its first flight in March 1996. The project was terminated in 1999 because the aircraft did not meet expectations. 

Three remaining Darkstar UAVs are in museums—one is at the Air Force Museum in Dayton, Ohio, one is at the Smithsonian Air and Space Museum in Washington, D.C., and the third is at the Museum of Flight in Seattle, Washington.

Perhaps…someday. Just as the flying scenes in the original Top Gun inspired generations to become military aviators, this movie will also inspire future generations of engineers.

The post That Darkstar in <i>Top Gun: Maverick</i>—Was it Real? appeared first on FLYING Magazine.