F-35: What The Pilots Say
Firsthand accounts of flying the world’s most advanced fighter.
In my interviews with F-35 pilots, one word repeatedly came up: “survivability.” Surviving the Lockheed Martin F-35’s primary mission—to penetrate sophisticated enemy air defenses and find and disable threats—requires what the fifth-generation jet offers: stealth and a stunning array of passive and active sensors bringing information to the pilot. The F-35 can see trouble coming—ahead, behind, or below the aircraft—far enough in advance to avoid a threat or kill it. Faced with multiple threats, the sensor suite recommends the order in which they should be dispatched.
U.S. forces first took these capabilities into combat last September, when Marine F-35Bs struck the Taliban in Afghanistan (five months after its combat debut with the Israeli air force). More than 360 of the multi-service aircraft—Air Force F-35As, Marine short-takeoff-and-vertical-landing Bs, and carrier-capable Cs—have been delivered to 16 U.S. airbases and to seven other countries. Reaching these milestones has not been easy. The program’s difficulties and its cost—$406 billion for development and acquisition—have been widely reported. But now the F-35 is in the hands of the best judges of its performance, its pilots. I asked eight of them—test pilots who contributed to the jet’s development as well as active-duty pilots—about their experiences. Here, in their own words, are their answers.
Billie Flynn | Experimental test pilot, Lockheed Martin
A test pilot with the company for more than 15 years, Flynn flew the first F-35 airshow demonstration, at the Paris Air Show in 2017.
(Michael D. Jackson / Lockheed Martin)
For four years, all people could talk about was how we’d lost a dogfight against a 40-year-old F-16. Paris was the first time we showed what the airplane could do. The F-35 engine is the most powerful fighter engine in the world, so on takeoff, I pulled straight up. The F-22 Raptor is an airshow favorite because it is super maneuverable. It has thrust vectoring; it controls the engine exhaust with paddles that move. The F-22 can do a downward spiral, and I did the same thing in the F-35—without thrust vectoring. I pull up to vertical, skid the airplane over the top, and spiral down like a helicopter hovers. That pedal turn [executed with rudder inputs] ended the discussion of how an F-35 would perform in a dogfight.
Lieutenant Colonel David “Chip” Berke | USMC (ret.)
The first non-test pilot to fly the F-35, Berke commanded Marine Fighter Attack Training Squadron 502 at Marine Corps Air Station Beaufort, South Carolina. He is the only Marine ever to have qualified to fly the F-22 Raptor and served as the F-22 division commander at the Air Force’s 422nd Test and Evaluation Squadron.
David Berke flew the Lockheed Martin F-22 before the F-35. Fifth-generation aircraft, says the pilot, offer a different set of capabilities from fourth-generation aircraft, and pilots must fly them differently as well. (Sgt Christine Polvorosa / USMC)
Fighter aircraft all have to have a level of performance and maneuverability: speed, Gs, turn rate, turn radius, acceleration, climb—all of those things. In the F-35, there’s not a massive change in those performance metrics. The F-35 is better [than legacy aircraft], but not a lot better. But those ways to measure an airplane are not nearly as relevant now as they used to be. They’re not irrelevant, but they are not as important as all the other qualities that you should be measuring an airplane by.
If you were to write down all the ways in which you could measure an airplane—payload, fuel, ordnance, handling—and ask 100 pilots to rank which is the most important, I guarantee you that 100 out of 100 pilots would say “situational awareness.” By far. Not a single pilot in the world would say “turn radius.” Not one. Because the more you know, the more accurately you know it, the better able you are to make a decision.
In situational awareness, the F-35 is superior to all platforms, including the Raptor. I’d never been in an airplane that so effectively and seamlessly integrates information to tell me what’s going on around me—and not just from the radio frequency spectrum, but laser, infrared, electro-optical. That’s usually the first thing people notice when they get in the airplane. They know so much more than they ever knew before.
After situational awareness, you want to be able to dictate access regardless of the capability of the threat. A highly robust air-defense network can deny access. The biggest problem that legacy aircraft have right now is that the threat gets to dictate when and where we fly.
Air-defense networks can also be limiting for stealth aircraft. The first thing you have to think about in the F-35 is managing your signature. In an F-18, you don’t even think about it because everybody sees you the minute you take off, so you don’t spend a lot of time trying to hide. Managing all the components of low observability is very challenging, and pilots have to think about it all the time. And they don’t do it well the first time. We all struggle with that initially. But you de-brief and analyze and start to build a database of the methods being used to detect you. You start to build a strategy that will keep others from finding you. Where do you want to put other people in the formation so you can maximize information sharing and sensor coverage and sensor footprints? It’s really no different, from a philosophical viewpoint, from what we’ve always done. We spend a lot of time trying to figure out what our weaknesses are: What do I need to fix as a pilot?
In an F-22 and F-35, one of the most enjoyable things is being virtually undetectable until it’s way, way, way too late for the threat. If you manage the signature really well, and you do it in a way that is integrated with the other platforms, most of the time the threat doesn’t know you’re there. And that’s why I have extreme faith that the machine is going to be the most dominant aircraft ever built.
The F-35C Navy variant has a larger wing than the Air Force and Marine models, folding wingtips, and more robust landing gear—all required for carrier operations. These two C models fly with Strike Fighter Squadron 147 at Naval Air Station Lemoore in California. (MCC(NAC) Shannon E. Renfroe / US Navy)
Lieutenant JG Thorys Stensrud | U.S. Navy Strike Fighter Squadron 125
Stensrud graduated from the U.S. Naval Academy in 2015, and trained in T-6s and T-45s. Last year he joined VF-125, NAS Lemoore, California.
My first flight was July 2018. It was surreal. I don’t think it really hit me until after we landed—just how impressive the jet is and how big a step it is from a T-45 to the first gray, Navy jet.
It definitely was a challenge to learn, and I don’t think anyone’s going to be crushing it right off the bat. The basic skills come pretty quickly, in two or three flights. The most challenging part is how much information the jet presents to you and focusing on the right things at the right time. Over time, you kind of find the best way to process the information. I can’t think of another experience I’ve had that’s quite like that.
Colonel Arthur “Turbo” Tomassetti | USMC (ret.)
The only government test pilot to fly all three variants of the X-35 aircraft, Tomassetti is the F-35 Marine Corps program manager at Lockheed Martin. He was the first pilot to fly the X-35 in three regimes on a single sortie: short takeoff, supersonic dash, and vertical landing.
Former test pilot Art Tomassetti estimates that he spent as many as 200 hours in the simulator to prepare for some of his one-hour test flights. (GySgt Stacey-Ann Viner / USMC)
All three variants have the same specified top speed—Mach 1.6. Because they’re slightly different airplanes, some may get to it a little faster than others. Obviously, with the big wing on the F-35C, you’ve got to drive that a little bit harder to get to 1.6.
[When you cross the Mach threshold], you can notice it only if you’re paying attention to it. There is a little bit of a shudder, or vibration. If you were distracted or busy with something else, you might miss it. [On the mission that first combined short takeoff, supersonic dash, and vertical landing in a single flight], I think I noticed the transition just because of the magnitude of the event. You know, “Here’s young Major Tomassetti, first job out of test pilot school, flying over the dry lakebed in Edwards getting ready to take this X-airplane supersonic” and you start to think, “Hey, Chuck Yeager did this. What did I do right in my life to deserve being in this particular position?”
One of the marvels of this airplane is the digital flight control technology. You are telling the airplane to go up or down, speed up or slow down, go left or right. And the computers figure out what’s the best way to do that, and they’re going to move the flight controls to do it. And the interesting thing is, they may not do it the same way twice. So let’s say the airplane gets damaged, and one of the flight controls is no longer available. A legacy airplane would still try to use that surface because it doesn’t know any better. The F-35 digital flight control systems will say, “That surface isn’t doing much for me anymore, so I’m going to have to compensate by using some other things. Maybe I’ll have to move them a little bit more to get the same effect because the pilot still wants to turn left.”
And every time I took somebody out for a first flight, when we came back—I was usually at plane side when they were coming down the ladder—I was waiting for the minute when they lifted their visor to see the expression on their face. And in every case, that expression was a smile. And when you ask people, “Do you feel like you need to practice landings?” they say, “No, not really.” And that’s something that you did in all of your legacy airplanes. It’s not great empirical data, but it was enough to convince me that we had gotten to where I had hoped we would get to.
In the Harrier, I needed to practice hover because hovering was hard, especially if it was windy out. In this airplane, hovering is so easy that there have been pictures of pilots with their hands above the canopy rails showing, “Look, no hands” because once you put it where you want, it’s going to stay there until you tell it to move or it runs out of gas.
An F-35C kicks into afterburner over Eglin Air Force Base, Fort Walton Beach, Florida. To maintain a small radar signature, the jet carries weapons in internal bays and has antennas embedded in its skin. (Shannon E. Renfroe / US Navy)
Major Valerie “Twitch” Wetzbarger | F-35 instructor pilot, USAF 56th Fighter Wing, Luke Air Force Base
Wetzbarger flew the F-15E Strike Eagle for six years before transitioning to the F-35A. Before joining the 56th Fighter Wing, Wetzbarger flew F-15Es with the 492nd Fighter Squadron, RAF Lakenheath, U.K., and the 391st Fighter Squadron, Mountain Home Air Force Base, Idaho. She deployed twice to the Middle East from 2014 to 2015.
Jon Beesley | Lockheed F-35 Chief Test Pilot, 2002–2011
With more than 23 years as a Lockheed Martin test pilot, Beesley worked on the development of the F-117 Nighthawk and F-22 Raptor, as well as the F-35 Joint Strike Fighter. On December 15, 2006, Beesley took the first F-35 prototype, designated AA-1, on its first flight.
Squadron Leader Andy Edgell | Royal Air Force, F-35 Patuxent River Integrated Test Force
Last year, Edgell flew as lead test pilot for the first F-35 flight trials on the aircraft carrier HMS Queen Elizabeth, including executing an unprecedented aft-facing landing. Previously a Harrier pilot, Edgell embarked in HMS Ark Royal and HMS Illustrious and led over 70 combat operations in support of British operations in Afghanistan.
During flight trials last fall on the HMS Queen Elizabeth, Royal Air Force pilot Andy Edgell is greeted by a sailor on the 65,000-ton vessel. (Dane Wiedmann / Lockheed Martin)
Lots of people want me to make the comparison between the Harrier and the F-35, but it is chalk and cheese. Whereas I don’t want fleet pilots to be thinking about how the F-35 is flying or responding, I’ll tell you that was pretty much all I was doing in the Harrier. I equate it to a unicycle. You have to continuously pedal; keep moving something, whether it’s your left hand, your right hand, your feet. F-35, you just sit there and go hands free and it will stay exactly where you’ve put it. Flying an F-35 to an aircraft carrier is an absolute pleasure, as opposed to a Harrier, which frankly can be borderline terrifying.For tests in departure resistance, we truly had to trick the system. We would disengage all the self-protect mechanisms to put it into an out-of-control regime. And then we would allow the controller to wake up. It would recognize the situation it was in, and then it would get itself out of the situation. Absolutely fascinating. It will null all of the pitch rates, yaw rates, and roll rates to the extent that you can get it out the attitude that you’ve got it into.When it comes to true departure resistance, we allowed the system to be 100 percent engaged, and we would [fly like] a very badly trained pilot. So everything that I have been taught not to do as a pilot since the age of—crikey, when did I first start flying? Maybe 13—I was being asked to do.At Mach 1.2, I was asked to put in full left rudder, yank the stick into the back left corner, a couple of seconds later, reverse it over to the right-hand side, switch rudder pedals, and then push the stick all the way forward into the front left. No pilot in his right mind should ever be doing this. But it is the way we needed to get the data to ensure that this is a 100 percent robust aircraft. I distinctly remember one occurrence. I was full backstick [very nose high], and probably with a full left rudder-pedal input. And I was at about 5 1/2 or 6 G, at which point I needed to switch rudder pedals, but due to the G, I couldn’t lift my right leg up to reverse the rudder pedal! So I aborted the maneuver. The control room said, “Yeah, Test, you didn’t put the right rudder in.” I said, “Yeah, I know. I couldn’t lift my leg up.”
I can understand why people think that because it is so heavily computerized, flying the F-35 can’t be fun. The F-35 absolutely is fun to fly! It’s exhilarating because there is so much power. I vividly remember a pull-out of a dive. It was about a 70-degree dive to get to the actual test point, at 5,000 feet. I recovered full backstick, a pull-out to 50-degree angle of attack, and I could not believe how quickly the aircraft turned the corner. I had probably been flying the aircraft for about three years at that point, but at that moment, it absolutely took my breath away. Legalized hooliganism! All in the pursuit of data and good test points, of course.
An aft-facing landing on an aircraft carrier is an example [of a situation] where things are not going to plan. The ship may be dead in the water and the wind down the deck exceeds the limits for a tailwind landing, and you need to reverse the direction of your approach. It seems like a stunt—some might say a little unnecessary. But if that is what you need to do to recover your multi-million-dollar aircraft, then that is what you need to do. So we were really evaluating the handling of the aircraft—the propulsion, performance—when the wind is coming off the stern of the aircraft carrier. And it is disappointingly very, very benign. You just modify your pattern. There is nothing cosmic about it. The aircraft doesn’t really care what direction the ship is pointing in. It just seems a little bit bizarre. I did, for a moment, stare through the windows of the bridge. And you think to yourself, “This is a view that no one really gets.” You are flying nearly 200 miles an hour at about 105 feet, just pointing directly at the bridge. It certainly got some attention.
What’s wrong with this picture? The aircraft is facing aft, as Edgell executes the first aft-facing landing on a carrier. (Dane Wiedmann / Lockheed Martin)
Lieutenant Colonel Yosef Morris | USAF 4th Squadron Commander, 388th Fighter Wing, Hill Air Force Base
In 2012, Morris transitioned to the F-35 from the F-16. He was part of the initial cadre that stood up the first F-35 squadron at Edwards Air Force Base, and he led the 4th Fighter Squadron in 2017 and 2019 Red Flag exercises.
In the two years since [the 388th’s] last Red Flag exercise, the airplane itself has had some pretty significant advancements. A couple of months before the 2017 Red Flag, the Air Force declared that the squadron was what we call “initial operational capable.” So the jet still had some operating limitations—altitude, airspeed, Gs, things like that. The software on the aircraft, though very capable, still had some limitations in terms of some of the systems and some of the weapons it could control. Fast forward two years, and we’re operating with what’s referred to as full warfighting capability software. It’s a more advanced F-35 than it was two years ago.
[In the mission to suppress enemy air defenses,] we’re trying to prevent surface-to-air missiles from targeting other aircraft that are trying to get to different objectives. The F-35 has some really good sensors that can help us locate those threats. That’s a very satisfying mission to be able to target something that’s trying to shoot at you, especially when [you’re] helping out some other assets to get to a target and keeping them safe.
The jet is sort of like a big antenna. It is receiving emissions from things that are radiating. And sometimes the [F-35’s] radar is actively trying to get information on, for example, an adversary aircraft. We can mission-plan the sensors, depending on the type of mission.
And in a large-force environment like Red Flag, where there might be as many as 60 or 70 aircraft on the Blue side and 10 or 20 adversary aircraft, lots of things on the ground—that’s a lot of information to interpret. Reading the first sortie on the first day, I certainly felt overwhelmed with the amount of information. And the next sortie I flew, I could manage some of my sensors differently to give me just the information I needed for that particular mission. Figuring out how to declutter your display to match the scenario is one of the main skills we learn here that we can’t simulate in day-to-day training, because you don’t get to train with the rest of the Department of Defense on a daily basis.