What’s Wrong With This Picture: F-35 vs. F-15 20mm Capacity

Pretty sure the USAF and CIA are two customers. They had, largely, overlapping requirements, but they are still different customers. The problem with the F-35 is too many conflicting requirements.

Scott, out of all of that great reply, you chose to nitpick that? Ridiculous and unnecessary. Also pretty, untrue. The CIA and Airforce were partnered in useage of the craft. Find a hobby

“We’ve been down this road before. The result was the F-111. An over-schedule, over-budget, a jack of all trades that didn’t do anything well.”

Well it did empower politicans and bureaucrats and enrich the military-industrial complex. That has to count for something, right?

“The result was the F-111. An over-schedule, over-budget, a jack of all trades that didn’t do anything well.”

Hell, DP, the F-111 didn’t do anything *much*! Trying to remember anything at all, I come up with 6 went to Vietnam, and about a week later 3 went back, with no idea what happened to the other 3. After that, I don’t recall them ever being actually used for anything.

I agree, we will be regretting the F-35 for decades.

Stewart, the point is, the number of customers doesn’t matter, it is that their requirements are compatible. The biggest issue with the F-35 is for the Navy where they are getting a shitty aircraft. The Airforce and Marines are actually getting ok aircraft. Someone will always be shafted when you have competing requirements.

I have it on good authority that one of the requirements from an unnamed Pacific nation was, “Mustu defeat Gojira!”

You are half correct about the F-111. Believe it or not, it was intended to fly off carriers as well but the Navy head said, “we’re not going to be launching 60,000 lbs. planes off our decks!” (or something close to that). But it wasn’t junk. It bombed Libya from the UK after flying the long way around France because those pussies wouldn’t allow us to fly over them. It was also used in Desert Storm. And don’t forget the EF-111, an excellent electronics jamming aircraft that was heavily used during the first Gulf War. And that bird was also the fastest plane at sea level we had due to it’s swing wing. But you are correct in that it was a disaster as a joint service project.

Maybe the A-10 didn’t come in on time or under budget, but it seems pretty badass per dollar from my perspective. But I’m just a former grunt who enjoys planes that a great at killing tanks and supporting ground pounders.

“Engineers looooove those sorts of projects”

Yes. Yes we do.

There was a quote by a USAF General about the F35 to the effect that the main role of the F35 was to provide money to Lockheed Martin executives.

It was not a plane designed by engineers, it was a plane designed by bureaucrats and lobbyists.

That was in 1958. Modern missiles are far more reliable. Effective laser platforms will make this trend even worse. Right now, the Air Force is experimenting with a laser system the size of the 155mm howitzer mounted on the AC130. In another decade, I expect them to easily shrink the platform down to something that can fit into the same space as a fighter’s main gun.

Meaning the last time a pilot died due to a lack of gun ammo was Korea. And that may be a little off by some years, old memories of the facts, but the point stands: guns haven’t been a primary or even secondary (Radar then IR) weapon since at least Vietnam.

pwr – I assume you thus will be the 1st in line to trade in your current sidearms for a “smartgun”. Naive would be the polite term.

Lazers my ass. Missles only snort/guffaw.

“That was in 1958. Modern missiles are far more reliable. ” – but so are chaffs, flares and other jammers.

Apples and oranges. A smart gun doesn’t have twenty times the engagement range of a “dumb” gun and infinitely more accuracy.

Is anyone here actually a fighter pilot to give an actual educated opinion?

I’m not a fighter pilot, but I am an Air Force Intelligence Analyst, and an instructor at the Joint Firepower Course and Joint Terminal Attack Controller Qualification Course. I might be able to provide some insight on this issue.

Firstly, the F-35 is fitted with a 25mm cannon, not a 20mm. Bigger bullets=smaller ammo capacity, generally. The A-10 is an exception based on the massive size of its gun and ammo handling system. The F-15 was designed originally to be the ultimate air superiority fighter. Its big, fast, unbelievably powerful, it carries a large missile load and a large amount of 20mm optimized for engaging aircraft. while the 20mm guns on the F-15, 16, and 18 are capable of engaging ground target, their effectiveness is questionable. I’ve seen anecdotal evidence of an F-16 strafing an SUV on a training range and not injuring any of the vehicles occupants.

As far as the capabilities of the F-35 as close air support platform, its not a direct replacement for the A-10. The two systems are completely different. The Hawg was build from the ground up to be a ground pounding, tank shredding ass kicker like nothing before. The F-35 is more like an F-16 for the 21st century, a multi role fighter that can do a little bit of everything in a high threat environment that the A-10 wouldn’t survive in.

“That was in 1958.”

The *design* was in 1958, the screw-up was discovered in the late ’60s, and I recall hearing one fighter pilot in DaNang in 1971 reporting shooting down a MiG over Hanoi while supersonic at 50 feet. With. a. gun. His airplane was totally destroyed as well, somewhere in there he maxed out the G-meter at 10.5, airplane never flew again, was bulldozed. Both crewmembers were walking funny, too, may have hurt themselves. Wonder why they didn’t just shoot one of those megabucks Sparrow radar missiles at the bad guys, the bird had 4 built-in, wouldn’t that be easy? Except it has never worked..

Yeah… Of you can use relatively cheap and effectively disposable drone missile and laser platforms. With a gun, you need to be able to REACH your target to kill it. Given that directed energy weapons have orders of magnitude longer engagement ranges than guns… good luck.

What I see is an airborne or seaborne command and control installation commanding entire wings of such drones. The total cost will be far lower than an equivalent number of manned aircraft and you can rotate active piloting between platforms as necessary.

Realistically, once they get a directed energy weapon shrunk down to a size that can fit on an air superiority platforms, manned aircraft in the primary combat zone become little more than expensive death traps. It becomes a battle of who can burn the other side’s drones out of the air first.

I can sure live with that, so long as we don’t put all those eggs in that basket. But that is asking a lot, given the expense of the aux systems, The C2 aircraft, the drone drivers, maintenance and refueling, etc, I suspect the only way that will happen is if the drone systems *replace* another system. Then, when the drone system fails somehow, we’re left with nothing. I would like to see it *work* before going there. As for directed energy weapons, (I’ll believe it when I see it) I’m thinking the first overcast day will see payback time arrive with a vengeance.

That’s what the missiles are for. Missiles are better able to track evading targets and don’t need direct line of sight to engage.

They want to retire the A-10 because the airplanes are getting old, very old. Even with dumping vast sums of money into the aircraft they still only have maybe 10-15 years of life left. And it is going to be a good 10 years for any A-10 replacement is fielded (assuming Congress actually give the USAF the money, instead of the usual budget cut that Congress likes to give the DOD).

What we need is something to bridge the gap for low intensity conflicts, and it can be done cheaply (in DOD dollars). The AT-6 uses the same air frame as the USAF/USN T-6 trainers. And they are cheap to buy, and cheap to operate. And I am willing to bet some hot shots in AFSOC wouldn’t mind flying them around. Also buy a few more AC-130s, which IMO is simply the best CAS platform ever built. The A-10 doesn’t hold a candle with the ability of the AC-130 to pound a single area for an extended period of time, along with the ability to stay on moving targets.

The chinese have developed a counter m1 abrams system on their tanks that reacts without input from the operators. It detects the targeting laser and automatically sends a round on a reverse azimuth to whoever is sending the laser. The technology to counter direct energy weapons without human input already exists.

It comes down to reaction time for that system. The reason it works with a tank is because the laser is not what causes the damage. With a directed energy weapon, by the time you’re detecting the laser, it’s already causing damage.

To put thing in perspective, let’s assume that the laser system in question takes 0.1 seconds to adjust the targeting axis by a milliradian. That means that your aircraft would need to move more than 10 meters in 100 milliseconds in an axis the system is not already compensating for. So let’s do a best case assumption and say that the second your aircraft is lazed, it immediately starts evasive action. (Not realistic, but it helps remove the response time from the equation.)

To move 10 meters in 100 milliseconds you need a relative acceleration of over 200g. That’s not something that’s readily survivable by any airframe.

pwrserge,

How large is the laser spot beam and how long does it take that laser spot to melt/punch through the skin of an aircraft and then damage critical components? Is the laser spot beam 2 cm in diameter? Does it need to be in position for at least 2 seconds to melt through the skin of an aircraft? If so, the aircraft only needs to move about 4 cm for the illuminated spot to be in a new location and the clock to start over.

Also, to what extent does the atmosphere column distort the light path? That column of air between the laser and the target is anything but uniform in density. That will bend and scatter the light beam. How does that affect the ability of a laser to melt/punch through a target?

The math I did assumes that the laser stays in the exact same place. The angular adjustments would be the same. Across a few kilometers of range, the air column properties aren’t as critical as you would think. A moving aircraft does not make that issue any harder or easier.

As for lasers… Modern lasers are pulsed. It’s not a continuous cutting beam the way science fiction would make us think. What it is, is a series of microsecond long bursts transferring the energy. Basically, the primary damage mechanism would be thermal shock to the underlying material. You don’t actually need to do serious damage to an aircraft moving at air to air combat speeds to destroy it. Disrupt the continuity of the surface, and the air flow around the aircraft does the rest.

And even then they’re not going for really high power.

An onboard laser to blind or otherwise disable a small drone, anti-aircraft or air-to-air missile is one thing. A laser with enough power to engage serious ground targets or heavy aircraft is another order of magnitude or two.

Not really. Ground targets, yes, but it does not take a lot of power to cause enough surface damage to get an airframe to shred itself. This is especially true if your engagement ranges are measured in a tens of thousands of meters rather than hundreds of kilometers. The inverse square law can work in your favor as well as against you.

Which was done in 1980s (see NKC-135). Little has changed in the last 30years as the earth’s atmosphere is pretty much the same (unless you believe in man cause global warming/cooling/etc).

@neiowa

Laser systems have come a long way in the last 30 years. The only challenge now is shrinking the emitters and targeting systems. To give you an idea, a 300W industrial laser system was the size of a small shed a decade ago. Today, I can fit the same system on a desktop.

With directed energy weapons, your biggest limitations are size, weight, and heat dissipation. The last one is a non-issue for burst style weapons that won’t be operating for continuous periods of over a second. Power is not much of an issue. The average wall outlet can provide well over 12kW.

Yeah, they said we’d have flying cars by the year 2000 too, and the only emails the ‘Beast deleted were about yoga.

Sorry Billy, but those lasers already exist. The Navy has already successfully field tested a laser based drone intercept system. Right now, getting a laser small enough to fit into the space designated for a fighter’s gun is just an engineering challenge, not a science one.

Kree mothersuckers kree!!!

The YF-16 was simply a better aircraft than the YF-17 (what later was adapted into the F-18).

Also the entire LWF program (the competition that spawned the F-16) was Boyd’s baby, but the Air Force and the prevalence of PGMs turned the F-16 into the aircraft that it is today, if they built the F-16 the way Boyd wanted it (a day fighter just using guns and IR missiles) they would’ve been sent to the bone yard man years ago. And it is unlikely that they would’ve been as prolific as they are today, as in addition to being an excellent fighter the added ability to do strike missions made it attractive to Air Forces that couldn’t afford to have single purpose aircraft.

The Colorado Air National Guard, flying A-7s, routinely spanked active duty Air Force F-15 and 16 squadrons in air to ground competitions such as Gunsmoke. And they still do pretty well with Block 30 F-16s.

Using PGMs the F-16, F-18, and now the F-35 can almost decide what window they want to put a bomb through. I don’t know how much more accuracy you want?

Have you heard about the secret weapon known as “hacking”? What do you suppose will be the future of all those thousands of autonomous drones the day after someone hacks one near Chicago O’Hare and it shoots down 6 or 8 fully loaded airliners? With a pilot on board that won’t happen.

Yeah… Good luck with that. How many Predator drones have been hacked? Ever?

This generation is unlikely to hand over fire decisions to an AI. Personally I hope that never happens, the idea that you take a man out of the loop in taking a life is scary. At least when you turn defensive systems like the CWIS to autonomous mode you know that you can easily turn them off, and they are relatively short range.

It didn’t take much for Iran to get our Reaper by spoofing the GPS. And al Qaeda was hacking the video feed of Predators all the time.

No fighter planes carries enough weapons to win a 10×1 dogfight. The internal bay of the 35 is limited. Once you hang some external missiles on it, it isn’t stealthy. A wave of drones would, like the Soviet air forces planned during the Cold War, take heavy losses, but they would obliterate our forces.

Spoofing GPS or disrupting avionics is hardly the same thing as taking control of the aircraft and getting it to do what you want.

Larry, the cyberwar has to be won either way and hack proof weapons are no good if they are destroyed because they react to slowly. I also wouldn’t be surprised if you could compromise an F-35 through hacking as it is.

True, that comment assumes current RPA ops. An airborne C2 platform that sends line-of-sight control signals to a front-wave RPA will cut that down to fractions of a second.

That infrastructure is at least a few years out, as is the sensors suits incorporated/miniaturized in the RPA that’s required to bring the same level of battlespace awareness to that operator in a C2 platform.

The idea is that the airborne C2 platforms is hundreds of miles away from the engagement area. Well outside the engagement range of enemy air assets. It could be something as simple as a AWACS just over the radar horizon bouncing the comm signal off of the stratosphere. Your lag time is still cut down to milliseconds rather than seconds.

Assume 400 kilometer flight path for the signal. C ~ 300,000 km/s means a round trip signal time of 2.7 ms. Far below the margin of error in human response times.

Which prez gave up that drone? It landed on it’s gear, not damaged in flight by a chinese kamikaze.!

Which prez gave Iran two fast boats? Which prez put more terrorists and criminals back on the streets?

Which prez gave more gov’t contracts to people who produced nothing, and to “Sovereign Indian Tribal companies” through the SBA, when the Tribes profess to be foreign countries. What percentage of those people register/vote (D)? 5th column, Brown is the new blue.

That said, gov’t procurement is the graft suck-zone of the universe, and the items procured under need to also make back the companies’ R&D, and grab ankles for the EPA/DOT/garbage carting/WHATEVER, gov’t contracts are expensive and intrusive to comply with.

A while back, people complained about a $600 toilet seat or $300 hammer, to comply with those contracts, that price-per probably netted $12.

Any of the plane’s mfr’s or bidders could’ve built or concept to mock-up, nearly 1 per every two years. The rest of the slippage and shrinkage was Harry Reid’s boys.

And A-10s won’t survive long is contested air space either. They were meant to allow the pilot to survive long enough against MANPAD and AAA. But often a hit still takes the aircraft out of the battle. Thus it isn’t a good idea to get shot up. That is why the A-10s were pulled back from hitting Iraqi Republican Guard units during Operation Desert Storm. We had already had a dozen A-10s shot up, and we could ill afford more when due to air space dominance a strike aircraft with LGBs can do the same job.

Heck even for the designed mission of defending the Fulda Gap from a Soviet Invasion the planners fully expected the lose the entire A-10 force in the opening day of such invasion.

You are forgetting that the USAF also believed that they would lose almost the entire deployed force (either damaged or destroyed) in the process. And that would be acceptable.

Not only can they both do Super Cruise, but they can go super sonic with a descent amount of weapons. F-18 and F-16s configured for strike missions can’t. The weapons and fuel tanks create too much drag.

While the F-35 can carry 2 bombs (possibly more with SDBs or JAGMs), two AAMs, and enough fuel to have nearly twice the combat radius as a F-16 with the same weapon load, all while going super cruise, and not having to drop the ground attack weapons plus drop tanks if they encounter enemy fighter aircraft.

I seem to have said my latest info was very old. So, now that the problems I addressed have been fixed, how much *did* the POS cost per unit, to go 200 mph faster than a B-52? And which one costs more to maintain? I really don’t know, the B-52 is 40 years older, seems like it would cost more to keep it going, other than fuel.

Are you saying the A model is the only one with a gun? What would Ahnold do without a gun in his Harrier?

The Air Force was the only one that had room internally for a gun. Both the B&C models (for the USMC and USN respectively), lack the room. So they have a dedicated station center line for a stealth gun pod. For the Marines this will be nothing new, the AV-8B also has a tacked on gun pod.

The USAF was also the only one to put an internal gun on the F-4, the E models included a gun.

But as a mentioned previously based on past history we haven’t made an air to air kill with a gun since Vietnam, so it isn’t a huge deal.

I had heard that the biggest limitation VSTOL imposed was that the fuselage had to be broader which had a negative affect on maneuverability?

Maybe but I doubt it. looking at the cut away I can’t imagine making the airframe slimmer without repositioning the intakes to the bottom.

Yeah… I’m wondering what amount of duct tape and bailing wire it took to make THAT work.

Being able to use them on the F-22 was one of the design criteria for the SDBs.

Yeah, I was sent a flight of “fighters” to drop bombs once, the drivers told me not to count on accuracy, they had no bombsight. Nixon administration was demanding increased “bombing sorties”, so they hung bombs on an airplane not designed for that, we tossed the bombs in the weeds and struck the target with their guns, with which they were superb. Seems like they were F-8s, don’t hold me to it.

Sit down Jimmy, you don’t know what the fuck you’re talking about. Deterrence is a thing.