USAF Launch Supersonic Bomb Firing Technology

coondoggie writes "Boeing and the US Air Force today said they have tested new technology that for the first time will let military aircraft launch bombs from aircraft moving at supersonic speeds. Researchers from Boeing Phantom Works and the Air Force Research Laboratory used a rocket sled in combination with what researchers called "active flow control" to successfully release a smart bomb known as MK-82 Joint Direct Attack Munition Standard Test Vehicle (JDAM) at a speed of about Mach 2 from a weapons bay with a size approximating that of the U.S. Air Force B-1 bomber, Boeing said. Active flow control is a tandem array of microjets upstream of the weapons bay that, when fired reduces the unsteady pressures inside the bay and modifies the flow outside to ensure the JDAM munition travels out of the bay correctly."

Release bombs at supersonic speeds?

[Finallyjoined!!!]

We miss often enough at sub-sonic speeds. Great.

Re:

[Un pobre guey]

We miss often enough at sub-sonic speeds

...and with this exact same test weapon. For a few dollars more, they'll develop an even better JDAM!

Re:Release bombs at supersonic speeds?

[Anonymous Coward]

> We miss often enough at sub-sonic speeds. Great.

Dude, check your history. In WW2, we used to send hundreds of bombers (sometimes over a thousand), each of which dropped dozens of dumb bombs, all just to hit one ball-bearing factory or bridge. We'd lose 10-20% of the attacking aircraft, and we'd send the survivors (and their replacements) out again later that week because we still didn't hit the target.

Towards the end of WW2, we realized that the most efficient way of destroying target X was to drop enough incendiaries around target X that the resulting firestorm would sweep over target X, destroying it in the process. We killed as many people in the firebombing of Tokyo as we did a few months later using goddamn nukes.

I'm not saying we're perfect. I'm just saying we're a hell of a lot closer to perfection than WW2-era pilots (or even Vietnam-era pilots) could have dreamed of. We spend a hell of a lot of money every year making sure we miss as infrequently as possible. If we were willing to accept the levels of collateral damage our parents were, never mind our grandparents, this war would have been over in a week, and there would have been tens of millions of civilians incinerated.

Be angry that we miss as often as we do -- it not only keeps weapons designers employed, sometimes it's their motivation for their career choice. But be damn grateful that we don't miss anywhere near as often as we used to.

Re:

[timeOday]

WWII was really a low point, though, rather than a long-lived status quo. It was the only modern total war (with both sides freely slaughtering civilians, up to tens of thousands per day, using every weapon up to and including WMD). My point being, let's not only compare ourselves to the greatest catastrophe in human history. Bombing a wedding or shooting down an airliner are still awfully bad things, even if we do it with super-cool weaponry.

Re:

[jotok]

Dude, check your history. During Iraq 1/2 & Afghanistan we STILL had pilots dropping on the wrong building, missing the target, etc. This is with laser and GPS guidance.

The comparison should not be with WW2, it should be with the last bombing exercise. That's what we're improving over.

Re:

[khallow]

That's not a particularly useful observation to make. Bombs will never work perfectly and even if they did, they would still hit the wrong target on occasion simply because the wrong target was targeted, say due to faulty intelligence or because the enemy had moved out earlier. My take is that US bombs work well enough that the real hurdle is getting good, timely intelligence on a potential war target. I don't know how much you can improve a bomb dropped out of a plane. Maybe some sort of "nonlethal" ordina

Re: bomb accuracy in WWII

[CodeShark]

Not 100% true in terms of WWII history, at least in some places. High altitude bombing was never very effective, but the naval bombers in the Pacific theater got very very good at hitting their targets with less civilian casualties. How do I know? Because I lived in Japan for two years about thirty years ago, and once had friends nearby who took me to the site of an old, bombed out munitions factory that was completely surrounded by really really old Japanese houses and a nearby religious temple. I was t

Re:

[Duhavid]

It's win/win/win. Your two wins, plus the additional win
for the defense contractor selling the items, in that they
can miss at a higher sortie rate.

Re:

[Nutria]

You're really buying that whole "intelligence screwed up" explanation for Iraq?

Or could grandparent be referring to the 1999 bombing of the Chinese Embassy in Belgrade?

Re:

[modecx]

Actually, no. That's not at all what I was referring to. I'm referring to fact that the Air Force likes to drop 500lb bombs where they think the top ranking baddies are, and yet with all of the sophisticated air borne weapons, they've managed to get pretty much nobody of any importance with an air strike--ever. They do a pretty good job of disintegrating women and children, though.

I'm saying that all of the precision guided munitions in the world are only as good as the intelligence that directs them. I

Re:

[jmv]

Actually, no. That's not at all what I was referring to. I'm referring to fact that the Air Force likes to drop 500lb bombs where they think the top ranking baddies are, and yet with all of the sophisticated air borne weapons, they've managed to get pretty much nobody of any importance with an air strike--ever.

Sorry about the confusion. I definitely agree here.

In other words, it doesn't matter if you can fly a 2000lb laser guided bomb into a window, if the people you really want to get are a mile away.

Then

Re:

[dave1791]

Oh that hit the media years ago. It just takes people a while to change their religion.

Huh?

[DerekLyons]

Huh? The USAF was launching bombs (and missles) out of bomb bays (and off of pylons) at supersonic speeds back in the 1950's.
 
This new system is probably needed because the rotary launcher used by the B-1 doesn't allow enough clearance for, or won't take the stresses associated with, the kicker systems used back then.

Re:

[solitas]

I can't figure out the article: they're talking about "launching" bombs. I normally take it that 'bombs' are dropped and 'missles' are launched; bombs use gravity and missles are powered.

Are they trying to say that they're firing the bombs backward to the direction of flight so that they end up with significantly lower forward-velocity and, thus, fall with a shorter ground track?

I can figure it must be merry hell trying to sight a target SO far ahead (at your given speed and altitude) that you have to drop

Re:

[c_forq]

Modern bombs are launched (at least precision guided ones). The type of bomb you are thinking of is actually called a Gravity bomb [wikipedia.org].

Re:

[6th time lucky]

I can figure it must be merry hell trying to sight a target SO far ahead...

Apparently from the F22 at mach 1.5 and 50,000 ft, these "falling" bombs can travel 24 nautical miles (45Km!) and hit a target (under test conditions). Thats at least 1.5 minutes travel time ignoring any real world physical constraints...

Pylons maybe, but not bomb bays

[quanticle]

Maybe we were launching bombs off pylons as supersonic speeds, but probably not bomb bays. As the article indicates, supersonic airstream around the plane would have blown the bomb back into the bomb bay, with obviously disastrous results. What this technology does is use small jets to locally slow down the airstream around the bomb bay so that the bomb can fall out of the bay without getting pushed back inside.

As another poster indicated, this technology would be useful for the F-22, which has to carry i

Re:

[DerekLyons]

Maybe we were launching bombs off pylons as supersonic speeds, but probably not bomb bays.

Wrong. The A-12 launched its missles from bomb bays. The B-70 dropped its bombs from bomb bays. Then there is the F-102 and -106.

As the article indicates, supersonic airstream around the plane would have blown the bomb back into the bomb bay, with obviously disastrous results.

That's true for bombs/missiles dropped under gravity alone. That's not true for bombs/missiles ejected rather than dropped.

Re:

[TooMuchToDo]

I would be interested in seeing how much of the stealth capability is lost when the doors are opened (radar/heat profile).

How much did this cost

[Un pobre guey]

How much did we pay for this?

Great news everyone!

[Bragador]

There is no such thing as investing TOO MUCH in the military. People that are saying we should focus more money on social problems and the economy don't understand that military technology can be applied to fix social problems eventually.

Rejoice for now we can drop food and medical supplies at supersonic speed! I can't wait to see the look on those African kids!

Re:Great news everyone!

[Cassius Corodes]

Why drop food, which fixes the problem for a few days at most, when dropping a bomb will permanently fix the problem.

Re:Great news everyone!

[josteos]

Build a Man a Fire, and he is Warm for a Day
Set a Man on Fire, and he is Warm for the Rest of His Life

Re:

[xSauronx]

No no no youve got it all wrong. Its like this:

Give a man a fish and you feed him for a day. Teach a man to fish and he'll sit in a boat and drink beer all day.

this is *not* mine.

Re:

[brusk]

That's what franchising is for.

Re:

[Dr. Eggman]

Totally off-topic, but you just gave me an odd idea. I wonder if perhaps bunker-buster bombs could be fired into a patch of land at such an angle and to such a depth that the blast propelled the soil up and as low to the ground as possible (to prevent it from blowing aside and forming a hole,) essentially tilling a patch of land all at once for us! Back on topic, now what I just said done in Africa at supersonic speeds!

Well

[Sycraft-fu]

Please remember that military spending isn't without benefit. Often technologies are developed there that then later become useful for civilians that are just the kind of thing you aren't likely to see developed on the commercial market.

Best example is GPS. No way a company was going to build something like that. Even a government wouldn't do that for civilian reasons. However the military felt it was worth it. Out of that we now have an awesome navigation system used the world over, and finally because of

Re:

[san]

If we'd have spent the amounts of money we're spending on the military on just research, we'd be flying in fusion powered cars right now, controlled by THz CPUs that have 1nm transistors.

Your argument is ridiculous given the $5e11 dollars per year the US alone is spending on its military (without Iraq war funding!); compare that to the $3e10 that goes to NSF+NIH (the primary funding sources for research in the US). And this is just the US.

Re:

[TooMuchToDo]

I agree that a lot of technological advances come from places like the DoD and NASA. I also agree that a lot of these advances would never come from private enterprise. But then it becomes gray on a tech-by-tech basis. GPS? Of course navigation was going to be big. People didn't see it then, but now it's apparent. This tech is a little different though. I believe it'll be more difficult to find non-military uses for shoving something big from a bomb bay at supersonic speeds. Perhaps it'll come in hander for

Not to be outdone...

[YU5333021]

... upon hearing the news, the Russians have taken the concept to the next, logical extreme. Code named "Mamushka" the first supersonic plane will fire a smaller plane traveling twice as fast, which will fire yet another smaller plane traveling 4 times faster than the first one, and so on until the very last, smallest plane (traveling an nearly the speed of light) will fire a potato that will hit the original big plane in the back, thus demonstrating that like many other US expenditures, they are at least good for HUMOR.

Next up, basketballs that bounce 10 times as high. Is gonna change the game!

Re:

[Harmonious Botch]

They can't do that. That idea is the intelectual property of Dr. Suess.

Re:

[temojen]

Next up, basketballs that bounce 10 times as high. Is gonna change the game!

Try this one on for size.... stack up a small playground ball on top of a medium one anmd stack those on top of a large one... drop the 3 of them from about six feet and watch the little one hit the ceiling...

matroishka ;)

[StandardDeviant]

I think the dolls you're referring to would be rendered in english phonetics as "matroishka". Mamushka sounds like "babushka", which would be a plane-load of supersonic grandmothers. Holy Christ, that is a disturbing thought. They'd descend on our troops with an unstoppable rain of warm soups and freshly-knitted sweaters would be everywhere!

(I took russian many years ago in college, so please pardon any errors.)

This is a REAL sled.

[Detritus]

The sled train accelerated to more than 13 g's to get to peak velocity, then decelerated at 7.5 g's for more than a mile to stop," the company said.

I want a ride on that.

Re:

[stox]

If I am not mistaken, at 7.5 negative G's, your eyeballs would pop out of your head. The human body can take significantly more positive G's than negative. Oh, and at 13 positive G's, sustained, you would pass out. Doesn't sound like much fun to me.

You're quite mistaken..

[caveat]

Capt. John Stapp withstood a 46.2G decceleration [ejectionsite.com] when his rocket sled going 632 mph plowed into a water brake. His eyeballs were completely filled with blood, but cleared overnight.

They don't do it like they used to

The B-58 could do this

[stox]

almost 50 years ago. The B-58C, if it had been built, would have been able to do it at Mach 3.

Re:

[Waffle Iron]

The B-58 carried its bomb externally.

Re:

[Nimey]

No, it carried three in that big permanently-attached pod under its belly, in addition to a couple on pylons under the wings.

Re:

[Waffle Iron]

According to its wikipedia article:

The B-58 typically carried a single nuclear weapon in a streamlined MB-1C pod under the fuselage. From 1961 to 1963 it was retrofitted with two tandem stub pylons under each wing, inboard of the engine pod, for B43 or B61 nuclear weapons for a total of five nuclear weapons per airplane

No mention of an internal bomb bay. I don't think that the pod was permanently attached either. IIRC, I've seen pictures of the plane without any external attachments.

Re:

[phayes]

The MB-1C pod was also the B-58's primary fuel tank.

The mission scenario would have been for the B-58 to use the fuel in the pylon on it's way to the target, drop the pod & it's integrated nuclear weapon onsite, then use internal tanks to return to base.

As the B-58's range was severely impacted without the MB-1C's fuel tank & stocks of these expensive pods were limited, they were not expended unnecessarily.

In case anyone was wondering...

[palegray.net]

The tagging beta includes the word sopwith [die.net], a reference to "Sopwith Camel", a game I used to place on an 8086 box as a kid :). Your goal was to drop bombs on ground targets in a simplistic side-scroller sort of map. You can install a modern-day Linux version (pretty close to the original) by doing "sudo apt-get install sopwith" on Debian-based distros.

Maybe not as much fun as dropping real bombs out of a supersonic jet, but pretty darn close :).

Re:

[Runefox]

Which, while being an awesome game, was also (for the clueless) a WWI fighter plane [wikipedia.org].

low priority

[SoyChemist]

That seems like a very low priority in comparison to developing better armor and medical supplies for the guys on the ground.

Re:

[gerf]

Well, perhaps this is more reliable. It doesn't sound like it, as there seem to be way too many moving parts in a chaotic environment to be 100% reliable. In this case, any misfire or malfunction, and the plane blows up, not the target, so it's imperative to be rock solid.

Re:

[encoderer]

"In this case, any misfire or malfunction, and the plane blows up, not the target"

Why would you assume that? These are smart-bombs. They are programmed with a target. While I'm not certain, I'd wager that they don't arm themselves until they're in-transit.

I do think that a collision with the bomb would cause some damage, but it wouldn't "blow up."

Very very incorrect.

[Rank_Tyro]

The YF-12was a high altitude and high speed interceptor. It fired Air Intercept Missiles (AIM-7's)which are already aircraft in their own right. It did not drop free fall munitions at high speed.

This current little trick is probably a proof of concept for a change to the F-22, which carries free fall bombs such as the JADM in a recessed bomb bay. The B-1b can only do about Mach 1.25 at altitude where the air is thinner. The B-1b was designed as low level penetrator to sneak under Soviet radars. With the end of the cold war, the B-1b started taking over as a high altitude bomber with GPS guided weapons, and not risk itself to ground fire to drop.

The F-22 can cruise at Mach 2 without using afterburners, and I believe it can only carry two Mk-82 JADM weapons. The ability to fly in at Mach 2 while being practically invisible to radar, AND not having to slow down to deploy weapons would be a huge advantage.

Re:

[Brett Buck]

One of the weapons devised for the YF-12/proposed B-12 was the original "kinetic energy" weapon - effectively, just a mass that acted much like a meteorite strike. It got to the point of successful testing but the program was cancelled. I will dig up a reference, but it was probably Ben Rich's book.

          Brett

Re:Very very incorrect.

[jafiwam]

Rumor has it some laser guided bombs were filled with cement and used as k-kill devices during the last Iraq war to take out tanks next to civilian targets.

At sub-orbital re-entry speeds, you don't need an explosive to fark up a tank. And if you can hit it reliably you don't need to go boom, it just shatters because a big block of stuff just came through the top, out the bottom and into the dirt below.

Re:Very very incorrect.

[YrWrstNtmr]

Rumor has it some laser guided bombs were filled with cement

Not rumor, fact [nytimes.com].

A 2000lb guided rock hitting a particular vehicle/tank is just as effective as a 2000lb MK-84.

Re:

[tygt]

I'm sure I'll be corrected, but your typical bomb's purpose is to explode, isn't it?

Yes, the kinetic smash is good, and if you had a chunk of something moving at some km/sec velocity, there'd be no point of explosives, but the speed of a free-fall air drop bomb doesn't get you that good of 0.5mv^2 such that you can get rid of the explosives.

Re:

[timeOday]

What would survive 1 ton of concrete landing directly on it at terminal velocity?

Re:

[Chrisq]

An umbrella?

I don't know. You might need an unbreakable umbrella [real-self-defense.com].

Re:

[Brett Buck]

The (very substantial) energy has to go somewhere. At some point the yield from the kinetic energy alone exceeds the yield from any explosive. And to get a high terminal velocity, you need to make the projectile as dense as possible - and high explosive is not nearly as dense as tungsten, tantalum, DU, etc. So putting in explosives is actually a loss.

That meteorite that killed the dinosaurs didn't explode in the sense you mean, either, yet it managed to vaporize a fair bit of th

Re:

[tygt]

Said meteorite was also doing in excess of 25,000mph when it hit.

Terminal velocity, even for a small compact object, falling from 60,000 feet isn't huge still.

Re:

[YrWrstNtmr]

I'm sure I'll be corrected, but your typical bomb's purpose is to explode, isn't it?

The purpose of the weapon is to destroy something else, or render it unseable. A tank, for instance. If it can be done without the big boom, so much the better.
Previously, you needed the explosion and shrapnel, because 'close' was a good as it got. If you can actually hit the object, you may not need the boom.

WWII, you needed an entire squadron of aircraft to take out one bridge. They'd drop a couple hundred bombs, in th

Re:

[6th time lucky]

A 2000lb guided rock...

That's a seriously funny thought. Looks like Einstein wasn't too far off the mark saying "World War IV will be fought with... stones". *Guided* stones!

Re:

[Calinous]

Also, tanks are built to fight tanks. Their top armour is shamefully thin (this goes for russian AND american tanks). This is the reason recent anti-tank rockets are fired upward, and will attack the tank in a descending trajectory (hitting the top armour, not the front or side armour).

Re:

[GIL_Dude]

That's what I was thinking; the drop would be at high speed, but since the bomb is leaving the bay at much higher than its terminal velocity the fact that it is going mach 2 at drop really isn't going to add to the impact the device has (for example if you read Heinlein's The Moon is a Harsh Mistress they dropped "rocks" from the moon onto Earth. If big enough to not disintegrate in the atmosphere you didn't need an explosive payload for an impressive destructive force). With this though, the bomb would be

Re:

[TooMuchToDo]

I believe the metal of choice to build "Rods from God" is tungsten.

I wanted to say you could wrap the tungsten with something else (metal, composite, carbon nanotubes), but there's no need. There goes my "Killer Corn Dogs from Space" idea.

Re:Very very incorrect.

[TopSpin]

The F-22 can cruise at Mach 2 without using afterburners

The F-22 can not 'cruise' at Mach 2. That would be even more buck rogers than the aircraft is already. Exceeding Mach 2 in an F-22 requires afterburners and this, in the parlance of military aircraft, is not 'cruise.' What an F-22 can do is supercruise (exceed Mach 1 without afterburners, thus high fuel efficiencies which means good range and therefore viable in bombing missions) at about Mach 1.7.

The F-22 can dogfight (maneuver at high-G and operate weapons) above Mach 1 which is a major advantage as most of it's contemporaries must be below Mach 1 to do much more than cover ground. Dropping JDAMS at high speed and altitude is another huge advantage which is, as you speculate, what this is probably intended to validate.

Re:Very very incorrect.

[tjstork]

The F-22 can not 'cruise' at Mach 2. That would be even more buck rogers than the aircraft is already.

Actually, the big poop is that, in fact, it probably can. I've read that the engines on that thing are so powerful that with afterburner the aircraft would be capable of Mach 3 but the airframe simply isn't strong enough to take it, so the flight control software intentionally limits the speed so the plane doesn't break up. It's a very aerodynamic design coupled to a fantastically powerful engine, and the result is that the F-22 is quite a burner. One has to wonder if there might be a covert block with a stronger airframe for reconaissance.

Re:Very very incorrect.

[twiddlingbits]

I seriously doubt that. F22 airframe is mostly titanium and it's got to take 9G turns which are much more stressful then Mach3 level flight. The PW119 engines are very powerful but only about 25% more than what is on the F16 and the plane is much bigger. The benefit of these engines in their high efficency which allows supercruise w/o afterburners which saves 40% on fuel consumption. Go look at http://www.f22fighter.com/ [f22fighter.com]

Re:Very very incorrect.

[tjstork]

I've been to the F-22 web site, its really nice. But you should check out this:

http://www.airplanes.com/forums/military-aircraft/1411-mach-2-0-supercruise-60-000ft-altitude.html [airplanes.com]

There, you have a claim by a Major Robert Garland to have flown the F-22 at Mach 2 in level flight.

If you google around, you'll find Air Force guys saying that this plane will do Mach 2.5, and, more than a few people have pointed out that the F-22 has a better thrust to weight ratio than the SR-71... thus, all things being equal, this ought to be one fast bird.

Re:

[Runefox]

Actually, it's not structural, it's more the fact that the air inlets are fixed rather than variable, so the engines can't get the optimal amount of air intake at different flight envelopes. Because of this, pushing the aircraft beyond mach 2.0 for any extended period of time will cause structural failures in the air intake. Presumably, this is a feature designed either to increase stealthiness or decrease overall weight and/or surface area, or perhaps to optimize air intake for supercruise. I'm not a fligh

Fixed geometry inlets

[calidoscope]

Actually, it's not structural, it's more the fact that the air inlets are fixed rather than variable, so the engines can't get the optimal amount of air intake at different flight envelopes. Because of this, pushing the aircraft beyond mach 2.0 for any extended period of time will cause structural failures in the air intake.

The first sentence is correct, the second is not.

The problem with a fixed geometry inlet is that it is inefficient. At Mach 2.0 and above, a significant portion of the thrust from a properly designed inlet is coming from the inlet itself. The A-12/F-12/SR-71 cruising at Mach 3.0 gets between 55 and 60% of the total thrust from the inlet - this is accomplished by the positioning the shock wave just inside the inlet (the cons on the front of the engine can be moved in and out specifically for this purpose). One of the early issues with the Blackbirds was figuring out how to handle "unstarts" where the shock wave pops out of the inlet - and gives the crew a wild ride in the process - this was also a problem with the B-58.

The F-16 was also limited to Mach 2.0 because of the fixed geometry wing. OTOH, the F-104 was rated top speed was Mach 2.2, but it could easily achieve Mach 2.4, but at the cost of weakening the aluminum alloy in the airframe.

Re:

[hcdejong]

F22 airframe is mostly titanium and it's got to take 9G turns which are much more stressful then Mach3 level flight.

9G turns require the aircraft to withstand kinetic loading, with Mach 3 flight, heat is the problem. Mach 3 generates so much heat that it starts to dictate the entire design: you'll need fuel that won't boil off inside the wing, you need to cool the cockpit, electronics, bomb bays, etc. At Mach 2 it's much simpler: you can get away with using simple materials and fuels, and you don't need a

Re:Very very incorrect.

[Cornelius the Great]

The PW119 engines are very powerful but only about 25% more than what is on the F16 and the plane is much bigger.

First off, you're forgetting that the F-22 has two of them. The F-16 only has one, capable of about 29,000 lbs of thrust. Each Pratt&Whitney power plant puts out over 35,000 lbs each (w/ afterburner), so that means 70,000+ lbs total thrust.

Second, they're completely different aircraft with completely different goals. So don't compare the two. The F-22 was designed to be an air-superiority fighter to replace the F-15 (they're about the same size). The F-16 is light multi-role fighter with shorter range and payload. Have you ever seen an F-16 next to an F-15? BIG difference... the F-15 is a mammoth, the F-16 is a lawn dart.

Despite this difference, the F-22 has a much larger thrust-weight ratio due to having 2 powerplants (~1.26) compared to the F-16 (~1.1, with updated engine). Fascinating fact: the YF-23 (the ATF competitor to the F-22) had a thrust/weight ratio of over 1.36, which could theoretically push the bird into Mach 3 at altitude (though its top speed is still classified).

Re:

[TopSpin]

the aircraft would be capable of Mach 3

Highly unlikely. Large, fixed geometry wings and an apparent lack of variable inlets precludes that sort of speed. An example of what is required to attain Mach 3 is the Blackbird; those large cones at the inlet of each engine adjust to control the shock front of incoming air. This is a requirement of extreme velocity jets and the F-22 simply doesn't have this or anything equivalent. This is qualified by the fact that not every aspect of F-22 design is public.

The F-22 is a fast aircraft, but not in the

Re:

[sholden]

The F-22 can not 'cruise' at Mach 2. That would be even more buck rogers than the aircraft is already. Exceeding Mach 2 in an F-22 requires afterburners and this, in the parlance of military aircraft, is not 'cruise.' What an F-22 can do is supercruise (exceed Mach 1 without afterburners, thus high fuel efficiencies which means good range and therefore viable in bombing missions) at about Mach 1.7.

A less than 20% error is fine for government work...

wouldn't bet on that

[r00t]

It's normal to keep these secret: max speed, max range, max altitude, etc.

It's possible that most pilots don't know. They may be prohibited from exceeding the unclassified limits. The plane might even normally be restricted by software.

Laymen's terms?

[Dr. Eggman]

[arm chair general] It'll be just like the Aurora Supersonic Bomber from Command and Conquer:Generals, except you can drop two and your desperate, last minute airstrikes on Iran's superweapon won't have to be suicide missions! How long until we have the Air Fuel bomb version from the Zero Hour's turtler General? That'll show those Al Quaeda tunnel/stinger-missile sites: lets see you rebuild your hole now! [/arm chair general]

Re:

[PhxBlue]

The F-22 can cruise at Mach 2 without using afterburners, and I believe it can only carry two Mk-82 JADM weapons.

Or eight small-diameter bombs [af.mil].

Re:

[Gerhardius]

The B-58 could drop at supersonic speeds, and the A-5 Vigilante may also have had this capability. During the 50's the USAF had a serious hard-on for all things supersonic. Given the generally limited supersonic capabilities of aircraft from that era the ultimate utility of the concept must have been called into question. The supersonic cruise ability of the new generation of aircraft has simply re-awakened a dormant idea. Much like the fashion industry, the institutional memory is so limited that many folk

Re:

[Somegeek]

The B-58 had no internal bomb bay to launch bombs out of, which is the whole point of TFA. It's one thing to detach a weapon on a pylon that is already in a supersonic airstream, it's another to try to force one out of a stagnant weapons bay into a supersonic airstream.

Re:

[6th time lucky]

it's another to try to force one out of a stagnant weapons bay into a supersonic airstream
Interesting, from TFA "wind tunnel testing indicated that without active flow control, the JDAM munition would have returned to the bay."

I think that would classify as having a bad day

Re:Wow, very much incorrect.

[Anonymous Coward]

He's all like, "we've done that already, bitches", and I'm like "[citation needed]", and under my breath, I'm like, "bitches".

Re:This is very handy

[gujo-odori]

It's not a matter of how fast a target on the ground may move. It's a matter of how fast:

A) SAMs move
B) Enemy fighters aircraft move

If a bomber can fly by at Mach 2 at a high altitude and kick out its load of smart bombs, it becomes much harder to hit it with either a SAM or an air-launched missile. Let's say you make your bombing run at 40,000 feet going Mach 2 and a SAM battery a few miles away takes a shot at you. You kick out the bombs and firewall the throttle for any more speed you can get, and punch out chaff. The SAM is going maybe Mach 5 and you're maybe now at Mach 2.5. At a closure rate of only Mach 2.5, the SAM may run out of fuel before it reaches you, even if it doesn't get fooled by the chaff. If you'd had to slow down to sub-sonic speeds to make your bombing run, the SAM would have a much better chance of catching you.

If there is a CAP up, it's going to have a lot more trouble catching and firing on a bomber going Mach 2 than a bomber going Mach .7.

While these have not been particularly great threats recently (I believe the Viet Nam War was the last time an American heavy bomber was brought down by enemy fire), it wouldn't be wise to assume that the situation will always remain this way, so it's good to have that technology in our back pockets.

Even at lower altitudes, that would take a lot of light anti-aircraft systems off the table, and at least make it harder even for large SAM systems. Imagine being a guy with a shoulder-fired AA missile trying to get a bead on something going at Mach 2. Even if you get a successful lock on it and fire, it's unlikely your missile will be able to catch it even if it's on a low-level bombing run (something I wouldn't expect a B-2 to do, anyway).

Re:

[Brett Buck]

To add a bit to the above - as an example, the SR-71, cruising along at a typical mission speed of mach 2.8, was never successfully engaged by SAMs (or anything else, for that matter). I certainly wouldn't want to count on complete invunerability now*, but it gves some additional information about how hard it is to shoot down something going so fast.

Brett

* from speed alone. I think the recent Israeli attack on the Syrian weapons facility indicates another approach to consequence

Re:

[TooMuchToDo]

My favorite feature of the SR-71 was that it burned bright but flew fast. Stealth may have been limited, but being able to simply outrun ordinances in cruise/above-cruise speeds (without afterburner) is definitely cool.

Re:

[stjobe]

the SR-71 [...] was never successfully engaged by SAMs (or anything else, for that matter).

I love the SR-71. Really, I do. It's in my eyes the most beautiful aircraft ever. While the Swedish airforce never engaged the SR-71 for obvious reasons, they managed to intercept (and get missile lock on) it a number of times with the Viggen aircraft and, had the situation been different, could have engaged it. See for instance this post [space.com] corroborated by the Swedish Air Force's own magazine here [www.mil.se] (pdf in swedish).

To th

Re:Anyone know

[Tmack]

Can powered munitions (stuff with a rocket motivating it instead of just gravity) be fired without this new technology? ie. Is the new research just applicable to iron bombs?

I think most supersonic fighters already have that capability, since the missiles they fire tend to travel much faster than the jets they are chasing down (even the old AIM-9 sidewinder hit mach2.5+), and when launched, are already under power and moving forward in the supersonic flow relative to the aircraft and can thus navigate themselves clear. See Here [army.mil], scroll to SRAM, and that was 1969.

The challenge with dropping bombs at supersonic speed is to get them to clear the bomb bay or wing pylon without the shock of the surrounding air flow blasting it back into the aircraft or otherwise tossing it about or ripping it apart. Not to mention designing a bomb bay and aircraft that can withstand the supersonic shock when the doors are opened.

Tm

Re:

[khakipuce]

I think is about stealth, hanging things off pylons gives a lot more surfaces for radar reflections and would mean making the missiles/bombs out of appropriate materials. Put them in a bomb bay and these problems are much reduced.

Re:soon enough...

[J_Darnley]

Sorry, but you fire photon torpedos from warp and proton torpedos from hyperspace.

Re:

[TubeSteak]

Sorry, but you fire photon torpedos from warp and proton torpedos from hyperspace.

Ahh... but can you still jam someone while going at ludicrous speed?

Re:

[nrgy]

Well the one thing you never hear talked about with the whole "Drones are the future" topic is what about jamming technology in the future? Your over sized RC plane with some bombs on it isn't gonna do much if it cant relay its data link back to base or a satellite.

If I remember correctly during the beginning of the war in Iraq, some cruise missiles were thrown off target when they were jammed by GPS jamming devices. What is to say that technology in the future wont advance to also include jamming the dro

Re:

[tsotha]

This is just wrong for a lot of reasons. First, jamming is spectacularly ineffective. Not only is the other responder correct in pointing out antennas can be designed to reject signals coming from the wrong direction, but also spread spectrum communications operate over such wide bands it's impractical to jam them - it takes too much power. Finally, any source of a jamming signal has a big bullseye on it, since the signal can be used for homing. No jammer will last more than a few minutes after the enga

Re:

[evilviper]

What is to say that technology in the future wont advance to also include jamming the drones you plan to fly over a foes city?

The laws of physics.

You can't jam such a highly directional signal, unless you're located directly between the drone and the satellite... in which case, you can probably think of better options.

The only real option is to disable the satellite, which isn't an easy proposition.

Re:

[Magada]

Disabling satellites is very very easy (read: can be done with 1970's tech). No satellites means no talking over the horizon if you want to stay relatively un-jammed. That poses a bit of a logistical challenge.

Re:*sigh*

[Blakey Rat]

Why do you assume that investing in defense technology does *not* help the people of the US?

As I see it, any enemy we'd have to use this against would be throwing ICBMs with nukes at us. Why the fuck are we building bigger and better and more expensive bombs when all of our operations are counter-terrorist ops?

You're right, we should be like France before WWII and just invest all our military spending on a single type of defense because it made sense when we started building it. How stupid of us to diversify!

(When France started building the Maginot Line, it was actually impossible for tanks at that time to cross through the forested regions they decided to leave undefended; by the time war actually broke out, tanks could do it with ease and the entire installation was useless.)

Re:

[Achromatic1978]

Re your sig: remind us again why domain speculating on the back of Wikipedia is somehow acceptable - in the sense of 'I'm not sure if you actually expect sympathy at an appraisal scammer trying to scam a domain spammer?'

Re:

[Blakey Rat]

Uh, huh?

For what it's worth, I do have a plan to develop that domain name into a site, I just don't have the free time to do it. In the meantime, it's on Sedo so someone can make me an offer if they want it. If you looked at my Sedo account, you'd see I own less than 10 domains; I'm not a "domain spammer" by any stretch of the imagination.

(But I also don't see anything wrong with being one; with the current domain registration rules, you can make a lot of cash that way. If you want to get rid of "domain spa

real *sigh*

[toddhisattva]

Why the fuck are we building bigger and better and more expensive bombs

These are better, which means they will use the smaller ones. Small enough for counter-terror ops, maybe even the explosive-free kinetic rock bombs. A Bone can get one where it's needed in a hurry. Okay, it can get quite a few where they are needed, without decelerating for each drop. Saves gas. Saves lives. Good thing.

Standoff airstrikes save infantry lives

[Steve Hamlin]

any enemy we'd have to use this against would be throwing ICBMs with nukes at us

No, they'd just have to have good anti-aircraft capabilities defending what we're attacking - much more common than nuclear-tipped ICBMs. Think: the U.S. attacking Iran, N. Korea, Pakistan-gone-rogue (GULP - trust me, I try not to think about those possibilities. No ICBMs yet, just long-range intra-continental BMs and known early-generation fission weapons. Whew, we're safe!)

It seems to me that this would allow U.S. airs

Re:

[evilviper]

Why the fuck are we building bigger and better and more expensive bombs when all of our operations are counter-terrorist ops?

It's ironic...

It seems like half the country condemns the US military for preparing to fight the last war, while the other half, like yourself, condemns them for preparing for anything different than the last war.

Re:

[bagsc]

How many millions/billions spent on this that could've gone to the people of the US?

How many billions are going to American consumers to buy neon toothbrushes instead of being spent to win a war we happen to be in? Soldiers are "at work" 24/7, and getting paid maybe $2500/mo with all the combat zone bonuses. Many aren't making minimum wage, because they're working >100 hours a week, and the military is exempt from minimum wage laws. The VA is denying claims for injured vets, because they don't have th

Re:

[argStyopa]

Dateline 1913: "How many millions have been spent on these fancy "aeroplanes" that could've gone to the people of the US?

As I see it, any enemy we'd have to use this against would have armies of hundreds of thousands like back in the Civil War - these planes are too feeble and trivial to have any impact on a conflict between nations. Besides, look at the Philippines, the Spanish-American War, and the Boer War - why the fuck are we building bigger and better and more expensive bombs when all of our operation

Re:

[phantomcircuit]

low millions? um surrrrreeeee

Re:

[Dr. Eggman]

Oops, that was supposed to be a comment about the development costs, not deployment or production of the whole setup. What I was saying is that there was very little actually developed here for this.

Re:

[Anonymous Coward]

No, he didn't. He conscripted thousands of your friends and neighbors to do it for him.