In a nod to the Ghost Bat unmanned aircraft developed by Boeing Australia for the Royal Australian Air Force, the new autonomous and unmanned weapon will be known as Ghost Shark.
On top of showing off the prototype, to be used for testing and concept definition, Rear Adm. Peter Quinn made clear the still-to-come larger, schoolbus-sized system may carry warheads.
“Due to their range, stealth and persistence Ghost Shark will be able to operate throughout the Indo-Pacific. Due to its modular and multi-role nature, our adversaries will need to assume that their every move in the maritime domain is subject to our surveillance and that every XL-UV (drone) is capable of deploying a wide range of effects — including lethal ones,” Quinn told a small audience of government officials, officers and journalists. “Once your potential adversaries understand what a Ghost Shark is — not that we’re going to give them any specifics at all — we expect they will generate doubt and uncertainty.”
Then he delivered the best line of the day, greeted with appreciative laughter from the crowd: “Hopefully, they’ll even start hearing the Jaws theme in their head if they suspect one is about.”
Swarms of drones, David Hambling explains (in Swarm Troopers), might follow the model of pack-hunters like wolves:
Wolves are unusual among carnivores in that, in some areas, they prey largely on animals larger than themselves. Not only are moose and bison several times bigger than wolves, they are also faster. But a pack of wolves can bring down a large prey animal by working in a pack and using a set of heuristics — simple hunting tactics from a combination of instinct and experience.
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During the approach, each wolf moved towards the prey until it reached a certain distance; it then moved away from any other wolves that were the same distance. The net effect was that the wolf pack spread out and enveloped the prey. If the prey tries to circle around, the pack keeps homing on it, and in simulations the prey often ended up running towards one of the pursuers and was “ambushed” by it. Even though the prey may be faster than the wolves, it keeps turning to get away from the nearest wolf. This zig-zagging slows it down so that another member of the pack travelling in a straight line can catch it.
Harris hawks are medium-sized hawks native to the Americas, found from the southwestern US to Chile and Argentina, which use a variety of approaches to attack prey. They are among the few birds of prey that work cooperatively, often in family groups of four to six birds. The most common tactic is a simultaneous attack with multiple Harris hawks diving in from different directions; a rabbit or other prey may dodge the first hawk or two before getting picked up by the third or fourth.
When prey goes to ground, the hawks switch tactics. The birds perch around the cover where their target has hidden, surrounding the prey, and then take turns attempting to penetrate the cover. As soon as the prey is flushed out, the surrounding birds swoop in and take it.
Finally, Harris hawks also carry out “relay attacks” in which multiple birds swoop down one after the other, each chasing the prey for a short distance. As it escapes one hawk, the next one in the flock takes over. Researchers have recorded up to twenty swoops in one chase over half a mile before the exhausted prey was finally taken.
Annie Jacobsen paints a not-so-flattering portrait of LBJ in Area 51:
Before he became president of the United States, Lyndon Baines Johnson liked to ride through rural Texas in his convertible Lincoln Continental with the top down. According to his biographer Randall B. Woods, Johnson also liked to keep a loaded shotgun in the seat next to him, which allowed him to pull over and shoot deer easily. On the night of October 4, 1957, the then senator was entertaining a group of fellow hunting enthusiasts at his rural retreat, in the dining room of his forty-foot-tall, glass-enclosed, air-conditioned hunting blind that Johnson called his “deer tower.” All around the edge of the lair were powerful spotlights that could be turned on with the flip of a switch, blinding unsuspecting deer that had come to graze and making it easier to kill them.
It was an important night for Johnson, one that would set the rest of his life on a certain path. October 4, 1957, was the night the Russians launched Sputnik, and the senator began an exuberant anti-Communist crusade. That very night, once the guests had gone home and the staff of black waiters had cleaned up, Johnson retired to his bedroom with newfound conviction. “I’ll be dammed if I sleep by the light of a Red Moon,” he told his wife, Lady Bird.
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“Soon they will be dropping bombs on us from space like kids dropping rocks onto cars from Freeway overpasses.”
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The orb was seen as ominous and foreboding, a visual portent of more bad things to come from the skies, with 4 percent of Americans claiming to have seen Sputnik with their own eyes. In reality, explained historian Matthew Brzezinski, “What most actually saw was the one-hundred-foot-long R-7 rocket casing that [Sputnik’s designer Sergei] Korolev had craftily outfitted with reflective prisms. It trailed some 600 miles behind the twenty-two-inch satellite,” which in reality could only be seen by a person using a high-powered optical device.
When he became President, after JFK’s assassination, Johnson received a briefing on Oxcart:
Johnson loved the idea of the Agency’s secret spy plane, but not for the reasons anyone expected. Johnson seized on one detail in particular: the aircraft’s speed. At the time, the world was under the impression that the Russians held the record for airspeed, which was 1,665 miles per hour. When Johnson learned the men at Area 51 had repeatedly beaten that record, he wanted to make that fact publicly known. What better way to begin a presidency than by one-upping the Russians?
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Through a veil of half-truths, he would out the Air Force’s interceptor version of the Oxcart, the YF-12, as the speed-breaker. The YF-12 would be given a false cover, the fictitious name A-11. Respecting McCone’s national security concerns, the actual A-12 Oxcart program—its true speed, operational ceiling, and near invisibility to radar—would remain classified top secret until the CIA declassified the Oxcart program, in 2007.
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Three months later, on February 29, 1964, Johnson held a press conference in the International Treaty Room at the State Department. “The world record for aircraft speed, currently held by the Soviets, has been repeatedly broken in secrecy by the… A-11,” President Johnson declared from the podium, thrilled to give the Russians a poke in the ribs.
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Two YF-12s belonging to the Air Force but being tested at Area 51 were quickly flown in from Groom Lake and driven into a special hangar at Edwards. The airplanes’ titanium surfaces were so hot they set off the hangar’s sprinkler system, which mistook the high-temperature metal for a fire. When the press junket began, the aircraft were still dripping wet. Never mind; no one noticed.
With so many drones from both sides at the front it is inevitable that encounters will occur; since 2022 there have been occasional ‘dogfights’ with operators using their unarmed machines to knock opponents out of the sky. Now, however, we are seeing a different pattern. Rather than random encounters, there are deliberate intercepts, with small quadcopters attacking bigger bombers.
This is similar to the pattern in WW1, as early biplanes evolved from scouts to light attack craft and then fighters whose main task was bring down attacking bombers and gain aerial supremacy. This was necessary because the only thing that could effectively take on an aircraft was another aircraft. Almost a hundred years later the same sort of action is playing out in miniature in a struggle to gain control of low-level drone airspace.
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Drone operators have little situational awareness. Their view is generally limited to seeing ahead and downwards. Successful attacks usually come from above and behind to achieve surprise.
As well as FPVs, Russians are also taking on Baba Yagas with standard quadcopters. In this case the preferred tactic is for the unarmed attacker is to drop on to the Baba Yaga from above, so the Baba Yaga’s rotors are broken by contact with the attacking drone’s body. The attacking drone may still be lost, but it is a good trade for one of the larger Ukrainian drones.
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In March one Russian group displayed a new drone known as “Ram” a quadcopter fitted with metal spokes to damage enemy rotor blades with impunity. This type of modification may be inspired by the annual DroneClash competition held in the Netherlands, a capture-the-flag game in which teams needed to eliminate each others drones in air-to-air combat and drones were fitted with lances, chains and other such weapons.
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The logic of these intercepts is obvious: air defence missiles are rare and precious assets costing hundreds of thousands of dollars or more, and are reserved for major threats like cruise missiles. FPV drones costing a few hundred dollars are plentiful and it makes sense to use them wherever possible.
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Now the Russians have started to intercept Baba Yagas, the Ukrainians are giving their bombers fighter escorts. This Ukrainian video appears to show a Ukrainian quadcopter covering a Baba Yaga and taking out the Russian drone attempting to intercept it, suggesting that drone tactics are already looking more like WWII than WW1.
The destroyer is protected by a system called Aegis, named after the legendary shield of Athena. Aegis is a sophisticated arrangement that coordinates various radars, guns, and missile launchers into a tightly integrated defense grid. It can detect, identify, track, and intercept incoming aircraft, missiles, and other threats in seconds, with minimal oversight from its human operators.
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After running a computer simulation five hundred times, the researchers concluded that with eight drones approaching simultaneously, four could be expected to get through and hit the destroyer.
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Worse, if the attacking drones targeted vulnerable points like radar or missile launchers, they might leave the destroyer defenseless so that it could be sunk by larger weapons.
The study went on to look at various ways of improving the defenses, by having better radar or greater accuracy or longer range weapons. These improvements reduced the number of hits, but only up to a point. Even with all the improvements in place, the average number of hits was reduced from four to 1.3.
The researchers also found that the number of incoming drones made a bigger difference to the outcome. Even the baseline destroyer with no improvements could beat off an attack by five drones; ten would tend to overwhelm even the best defenses and score at least one hit.
A 2014 RAND study concluded that “two or three smaller RPAs [Remotely Piloted Aircraft, drones] with less-capable sensor packages were often able to equal or exceed the performance of the larger RPAs employed singly.”
The use of drones in warfare has its origins in World War II, Annie Jacobsen reminds us (in Area 51):
Joseph Kennedy Jr., President Kennedy’s older brother, died in a secret U.S. Navy drone operation against the Germans. The covert mission, dubbed Operation Aphrodite, targeted a highly fortified Nazi missile site inside Germany. The plan was for the older Kennedy to pilot a modified B-24 bomber from England and over the English Channel while his crew armed 22,000 pounds of explosives piled high in the cargo hold. Once the explosives were wired, the crew and pilot needed to quickly bail out. Flying not far away, a mother ship would begin remotely controlling the unmanned aircraft as soon as the crew bailed out. Inside the bomber’s nose cone were two cameras that would help guide the drone into its Nazi target.
The explosive being used was called Torpex, a relatively new and extremely volatile chemical compound. Just moments before Joseph Kennedy Jr. and his crew bailed out, the Torpex caught fire, and the aircraft exploded midair, killing everyone on board. The Navy ended its drone program, but the idea of a pilotless aircraft caught the eye of general of the Army Henry “Hap” Arnold. On Victory over Japan Day, General Arnold made a bold assertion. “The next war may be fought by airplanes with no men in them at all,” he said. He was off by four wars, but otherwise he was right.
Well before World War 2, Jacobsen notes, a few visionaries saw the potential of drones:
Nikola Tesla mastered wireless communication in 1893, years before any of his fellow scientists were even considering such a thing. At the Electrical Exhibition in Madison Square Garden in 1898, Tesla gave a demonstration in which he directed a four-foot-long steel boat using radio remote control. Audiences were flabbergasted. Tesla’s pilotless boat seemed to many to be more a magic act than the scientific breakthrough it was. Ever a visionary, Tesla also foresaw a military application for his invention. “I called an official in Washington with a view of offering him the information to the government and he burst out laughing upon telling him what I had accomplished,” Tesla wrote. This made unfortunate sense—the military was still using horses for transport at the time. Tesla’s friend writer Mark Twain also envisioned a military future in remote control and offered to act as Tesla’s agent in peddling the “destructive terror which you have been inventing.” Twain suggested the Germans might be good clients, considering that, at the time, they were the most scientifically advanced country in the world. In the end, no government bought Tesla’s invention or paid for his patents. The great inventor died penniless in a New York hotel room in 1943, and by then, the Germans had developed remote control on their own and were wreaking havoc on ground forces across Europe. The Germans’ first war robot was a remote-controlled minitank called Goliath, and it was about the size of a bobsled. Goliath carried 132 pounds of explosives, which the Nazis drove into enemy bunkers and tanks using remote control. Eight thousand Goliaths were built and used in battle by the Germans, mostly on the Eastern Front, where Russian soldiers outnumbered German soldiers nearly three to one. With no soldiers to spare, the Germans needed to keep the ones they had out of harm’s way.
In America, the Army Air Forces developed its first official drone wing after the war, for use during Operation Crossroads at Bikini Atoll in 1946. There, drones were sent through the mushroom cloud, their operators flying them by remote control from an airborne mother ship called Marmalade flying nearby. To collect radioactive samples, the drones had been equipped with air-collection bags and boxlike filter-paper holders. Controlling the drones in such conditions was difficult. Inside the mushroom cloud, one drone, code-named Fox, was blasted “sixty feet higher than its flight path,” according to declassified memos about the drone wing’s performance there. Fox’s “bomb doors warped, all the cushions inside the aircraft burst and its inspection plates and escape hatch blew off.” Remarkably, the drone pilot maintained control from several miles away. Had he witnessed such a thing, Nikola Tesla might have smiled.
During the second set of atomic tests, called Operation Sandstone, in April of 1948, the drones were again used in a job deemed too dangerous for airmen. During an eighteen-kiloton atomic blast called Zebra, however, a manned aircraft accidentally flew through a mushroom cloud, and after this, the Air Force made the decision that because the pilot and crew inside the aircraft had “suffered no ill effects,” pilots should be flying atomic-sampling missions, not drones.
Most forms of radar are blocked by walls and other solid objects, David Hambling explains (in Swarm Troopers), but there are also through-the-wall “life detection” radars:
These use ultra-wideband radio waves, which can go through solid walls as easily as air. Life detection radar works on the Doppler principle and only detects movement, in particular the movements associated with human life — breathing and heartbeats. First responders use portable units in rescue operations to detect if there are people alive in a building. It is imprecise but will give the number and approximate location of any people inside. The technology is also used by the military and police.
Steel Hornets, “a private manufacturer of weapons systems for unmanned aircraft systems”, is essentially a mail-order drone bomb company sending munitions directly to users.
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Steel Hornets, “a private manufacturer of weapons systems for unmanned aircraft systems”, is essentially a mail-order drone bomb company sending munitions directly to users.
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Steel Hornets provide their munitions without explosive filling or detonator. This makes them safe to handle and easy to distribute via the postal service, allowing Steel Hornets to supply drone operators quickly and efficiently wherever they are.
To arm the munition, the operator fits it with a standard military MD5M or KD8A detonator, devices the size of a thumb drive available by the million. Then also pack the bomb body with plastic explosive.
A spokesman for Steel Hornets said that explosive was typically drawn from supplies for demolition work, or scavenged it from other munitions. For example, the UR-77 Meteorite demining system uses line charges filled with over 1,450 kilos / 3,200 pounds of plastic explosive to blast a path through minefields. One line charge contains enough explosives for several hundred drone bombs.
Steel Hornets are also exploring other ways for users to source explosive filler. With commercial plastic explosive costing just a few dollars a pound (the U.S Army pays $22 a pound for small demolition charges but they do not do things cheaply), it should not add much to the cost of the finished munition.
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Steel Hornets produce three types of drone bomb: armor-piercing shaped charges for use against tanks and other vehicles, fragmentation weapons effective against personnel, and dual-purpose munitions which combine both functions. All three require considerable design, so munitions from Steel Hornets give a real advantage over garage-made or field-improvised alternatives.
The aerodynamics plastic bomb casings are 3D printed with fins to ensure they fall in straight. They are also well balanced so they can be carried without affecting the stable flight of the drone.
“It’s not the cheapest, but it’s a very flexible manufacturing method,” says the Steel Hornets spokesman.
It allows them to make in very small batches, and also to change the design instantly with no need for re-tooling. But the more significant element is inside.
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For example Steel Hornet’s BP 75mm replacement for the standard PG-7 warhead weighs 850 grams/ 30 ounces, somewhat lighter than the original. In tests Steel Hornets’ shaped charge with a copper liner penetrated 180mm / 7 inches of steel plate. This is less than the original which can go through 260mm/ 10 inches of armor, but this is not seen as a problem.
“We are seeking a compromise between weight, size, and cost,” the Steel Hornets spokesman told Forbes. “Additionally, we are making the shaped charge jet thicker, which often results in more confident penetration, albeit slightly reducing the penetration thickness.”
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The miniature tank busters are a bargain at $14 a time. As with other Steel Hornets products the minimum order is a box of five. This gives an idea of how different they are to traditional arms companies dealing in orders of thousands.
A laser illuminator, David Hambling explains (in Swarm Troopers), is not a laser designator:
The Raven’s most conspicuous battlefield shortcoming is the lack of a laser designator to highlight targets for Hellfire missiles and other guided munitions. It has a laser illuminator so it can “sparkle” targets, highlighting them for helicopter gunners or others to aim at, but it cannot “lase” a target to guide a missile to the aim point.
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Laser designators are large because they have to put out a beam powerful enough for the laser seeker on an incoming missile to lock on to.
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Back in the early 2000s, the US Army’s “portable” laser designator weighed almost forty pounds. The latest version is below ten pounds.
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Previously laser guidance was confined to bigger and more expensive weapons like the Hellfire and 500-pound bombs. These days, there are small, cheaper laser seeker heads. Not only are there laser-guided artillery rounds and rockets a quarter the size of Hellfire, but even mortars can fire laser-guided bombs. The mortar might have a range of ten miles, but still needs someone within eyeball range of the target to light it up with the designator. If artillery spotters could do this with a small drone, they would be able to direct precise fire to anywhere.
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Standard, unpowered laser-guided bombs can hit targets fifteen miles away if the plane dropping them has enough speed and height. More advanced gliding bombs, like the recent SDB II, have a range of up to forty miles and almost qualify as drones in their own right.
Air strikes can be carried out by simple “bomb trucks” like transport aircraft which have no need for high speed and maneuverability to avoid anti-aircraft defenses. The enemy would only ever see expendable unmanned drones, loitering overhead permanently and holding everything underneath at risk of instant, laser-guided destruction.
Alexis de Tocqueville would write that states are never more vulnerable than when they attempt to reform themselves, Andrew Roberts notes (in Napoleon: A Life), and that was certainly true of France in the autumn of 1795:
It was in the ‘Sections’, forty-eight districts of Paris established in 1790 which controlled local assemblies and the local National Guard units, that the insurrection was focused. Although only seven Sections actually rose in revolt, National Guardsmen from others joined in.
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The Sections included middle-class National Guardsmen, royalists, some moderates and liberals, and ordinary Parisians who opposed the government for its corruption and domestic and international failures. The very disparate nature of the rebellion’s political make-up made any central co-ordination impossible beyond establishing a date for action, which couldn’t be kept secret from the government.
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On the evening of Sunday, October 4, Napoleon was at the Feydeau Theatre watching Saurin’s play Beverley when he heard that the Sections intended to rise the following day. Very early the next morning — 13 Vendémiaire by the revolutionary calendar — Barras appointed him second-in-command of the Army of the Interior, and ordered him to use all means necessary to crush the revolt. Napoleon had impressed the most important decision-makers in his life — among them Kéralio, the du Teil brothers, Saliceti, Doppet, Dugommier, Augustin Robespierre and now Barras, who had heard of him from Saliceti after the victory at Toulon.
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(He later recalled with amusement that the politician who had had least qualms about the spilling of blood at Vendémiaire had been the priest and political theorist Abbé Emmanuel Sieyès.)
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From Napoleon’s reactions to the two Tuileries attacks he had witnessed in 1792, there was no doubt what he would do.
This was Napoleon’s first introduction to frontline, high-level national politics, and he found it intoxicating. He ordered Captain Joachim Murat of the 21st Chasseurs à Cheval to gallop to the Sablons military camp two miles away with one hundred cavalrymen, secure the cannon there and bring them into central Paris, and to sabre anyone who tried to prevent him. The Sections had missed a great opportunity as the Sablons cannon were at that point guarded by only fifty men.
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He then spent three hours visiting each of his guns in turn. ‘Good and upstanding people must be persuaded by gentle means,’ Napoleon would later write. ‘The rabble must be moved by terror.’
Napoleon prepared to use grapeshot, the colloquial term for canister or case shot, which consists of hundreds of musket balls packed into a metal case that rips open as soon as it leaves the cannon’s muzzle, sending the lead balls flying in a relatively wide arc at an even greater velocity than the 1,760 feet per second of a musket shot. Its maximum range was roughly 600 yards, optimum 250.
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‘If you treat the mob with kindness,’ he told Joseph later, ‘these creatures fancy themselves invulnerable; if you hang a few, they get tired of the game, and become as submissive and humble as they ought to be.’
Napoleon’s force consisted of 4,500 troops and about 1,500 ‘patriots’, gendarmes and veterans from Les Invalides. Opposing them was a disparate force of up to 30,000 men from the Sections, nominally under the control of General Dancian, who wasted much of the day trying to conduct negotiations. Only at 4 p.m. did the rebel columns start issuing from side streets to the north of the Tuileries. Napoleon did not open fire immediately, but as soon as the first musket shots were heard from the Sections sometime between 4.15 p.m. and 4.45 p.m. he unleashed a devastating artillery response. He also fired grapeshot at the men of the Sections attempting to cross the bridges over the Seine, who took heavy casualties and quickly fled. In most parts of Paris the attack was all over by 6 p.m., but at the church of Saint-Roch in the rue Saint-Honoré, which became the de facto headquarters of the insurrection and where the wounded were brought, snipers carried on firing from rooftops and from behind barricades. The fighting continued for many hours, until Napoleon brought his cannon to within 60 yards of the church and surrender was the only option. Around three hundred insurrectionists were killed that day, against only half a dozen of Napoleon’s men. Magnanimously by the standards of the day, the Convention executed only two Section leaders afterwards. ‘The whiff of grapeshot’ — as it became known — meant that the Paris mob played no further part in French politics for the next three decades.
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Before the end of Vendémiaire, Napoleon had been promoted to général de division by Barras and soon afterwards to commander of the Army of the Interior in recognition of his service in saving the Republic and possibly preventing civil war. It was ironic that he had refused the Vendée post partly because he hadn’t wanted to kill Frenchmen, and then gained his most vertiginous promotion by doing just that. But to his mind there was a difference between a legitimate fighting force and a rabble.
For a while afterwards Napoleon was sometimes called ‘General Vendémiaire’, though not to his face. Far from being uneasy about his involvement in the deaths of so many of his compatriots, he ordered the anniversary to be celebrated once he became First Consul, and when a lady asked him how he could have fired so mercilessly on the mob he replied: ‘A soldier is only a machine to obey orders.’ He did not point out that it was he who had given the orders.
The ‘whiff of grapeshot’ advanced the Bonaparte family hugely, and overnight. Napoleon would now be paid 48,000 francs per annum, Joseph was given a job in the diplomatic service, Louis advanced through the Châlons artillery school and later became one of Napoleon’s burgeoning team of aides-de-camp, while the youngest of the Bonaparte boys, the eleven-year-old Jérôme, was sent to a better school.
Battery-powered drones have limited range, David Hambling notes (in Swarm Troopers), but perching on power lines opens up the possibility of recharging by stealing electricity:
There are already several drones that can hook up to power lines line and recharge. Design Research Associates has developed such a system for small drones and a spin-off known as the “Bat Hook” for Special Forces. This really does look like something Batman would use – a small, sharpened boomerang with a line attached. Toss it over a power line and the sharp edge cuts through insulation. A device on the end of the line converts the high-voltage alternating supply into a regulated direct current for charging electronics. The Bat Hook can be popped off the line so it can be removed and reused.
She mentions that most of her first book, Area 51, got much less attention than a small section on UFOs. Most of the book is a well researched summary of what we know about classified programs like the U-2, its successor the A-12, better known in its later Air Force configuration, the SR-71, and the F-117, and that small section on UFOs has to rely on much sketchier evidence:
Of the seventy-four individuals interviewed for this book with rare firsthand knowledge of the secret base, thirty-two of them lived and worked at Area 51.
Area 51 is the nation’s most secret domestic military facility. It is located in the high desert of southern Nevada, seventy-five miles north of Las Vegas. Its facilities have been constructed over the past sixty years around a flat, dry lake bed called Groom Lake. The U.S. government has never admitted it exists.
Key to understanding Area 51 is knowing that it sits inside the largest government-controlled land parcel in the United States, the Nevada Test and Training Range. Encompassing 4,687 square miles, this area is just a little smaller than the state of Connecticut—three times the size of Rhode Island, and more than twice as big as Delaware. Set inside this enormous expanse is a smaller parcel of land, 1,350 square miles, called the Nevada Test Site, the only facility like it in the continental United States.
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Two early projects at Groom Lake have been declassified by the Central Intelligence Agency: the U-2 spy plane, declassified in 1998, and the A-12 Oxcart spy plane, declassified in 2007. And yet in thousands of pages of declassified memos and reports, the name Area 51 is always redacted, or blacked out. There are only two known exceptions, most likely mistakes.
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According to most members of the black world who are familiar with the history of Area 51, the base opened its doors in 1955 after two CIA officers, Richard Bissell and Herbert Miller, chose the place to be the test facility for the Agency’s first spy plane, the U-2. Part of Area 51’s secret history is that the so-called Area 51 zone had been in existence for four years by the time the CIA identified it as a perfect clandestine test facility. Never before disclosed is the fact that Area 51’s first customer was not the CIA but the Atomic Energy Commission. Beginning in 1951, the Atomic Energy Commission used its parallel system of secret-keeping to conduct radical and controversial research, development, and engineering not just on aircraft but also on pilot-related projects—entirely without oversight or ethical controls.
That the Atomic Energy Commission was not an agency that characteristically had any manner of jurisdiction over aircraft and pilot projects (their business was nuclear bombs and atomic energy) speaks to the shadowy, shell-game aspect of black-world operations at Area 51. If you move a clandestine, highly controversial project into a classified agency that does not logically have anything to do with such a program, the chances of anyone looking for it there are slim.
Jacobsen contends that Orson Welles’ infamous 1938 fake-newscast adaptation of The War of the Worlds profoundly influenced authorities in the US and around the world:
“Thousands of persons believed a real invasion had been unleashed. They exhibited all the symptoms of fear, panic, determination to resist, desperation, bravery, excitement or fatalism that real war would have produced,” which in turn “shows the government will have to insist on the close co-operation of radio in any future war.” What these military men were not saying was that there was serious concern among strategists and policy makers that entire segments of the population could be so easily manipulated into thinking that something false was something true. Americans had taken very real, physical actions based on something entirely made up.
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America was not the only place where government officials were impressed by how easily people could be influenced by a radio broadcast. Adolf Hitler took note as well. He referred to the Americans’ hysterical reaction to the War of the Worlds broadcast in a Berlin speech, calling it “evidence of the decadence and corrupt condition of democracy.” It was later revealed that in the Soviet Union, Joseph Stalin had also been paying attention. And President Roosevelt’s top science adviser, Vannevar Bush, observed the effects of the fictional radio broadcast with a discerning eye. The public’s tendency to panic alarmed him, he would later tell W. Cameron Forbes, his colleague at the Carnegie Institution.
During the first week of July 1947, U.S. Signal Corps engineers began tracking two objects with remarkable flying capabilities moving across the southwestern United States. What made the aircraft extraordinary was that, although they flew in a traditional, forward-moving motion, the craft—whatever they were—began to hover sporadically before continuing to fly on. This kind of technology was beyond any aerodynamic capabilities the U.S. Air Force had in development in the summer of 1947. When multiple sources began reporting the same data, it became clear that the radar wasn’t showing phantom returns, or electronic ghosts, but something real. Kirtland Army Air Force Base, just north of the White Sands Proving Ground, tracked the flying craft into its near vicinity. The commanding officer there ordered a decorated World War II pilot named Kenny Chandler into a fighter jet to locate and chase the unidentified flying craft. This fact has never before been disclosed.
Chandler never visually spotted what he’d been sent to look for. But within hours of Chandler’s sweep of the skies, one of the flying objects crashed near Roswell, New Mexico. Immediately, the office of the Joint Chiefs of Staff, or JCS, took command and control and recovered the airframe and some propulsion equipment, including the crashed craft’s power plant, or energy source. The recovered craft looked nothing like a conventional aircraft. The vehicle had no tail and it had no wings. The fuselage was round, and there was a dome mounted on the top. In secret Army intelligence memos declassified in 1994, it would be referred to as a “flying disc.” Most alarming was a fact kept secret until now—inside the disc, there was a very earthly hallmark: Russian writing. Block letters from the Cyrillic alphabet had been stamped, or embossed, in a ring running around the inside of the craft.
In a critical moment, the American military had its worst fears realized. The Russian army must have gotten its hands on German aerospace engineers more capable than Ernst Steinhoff and Wernher Von Braun—engineers who must have developed this flying craft years before for the German air force, or Luftwaffe.
This would be a much more reasonable hypothesis, if the cutting-edge craft had crashed near Soviet-controlled territory. All of this is sourced from “Interview with EG&G engineer.” EG&G was a defense contractor out of MIT that had worked on the Manhattan Project.
The first thing they did was initiate the withdrawal of the original Roswell Army Air Field press release, the one that stated that a “flying disc… landed on a ranch near Roswell,” and then they replaced it with the second press release, the one that said that a weather balloon had crashed—nothing more.
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The first order of business was to determine where the technology had come from. The Joint Chiefs of Staff tasked an elite group working under the direct orders of G-2 Army intelligence to initiate a top secret project called Operation Harass. Based on the testimony of America’s Paperclip scientists, Army intelligence officers believed that the flying disc was the brainchild of two former Third Reich airplane engineers, named Walter and Reimar Horten—now working for the Russian military. Orders were drawn up. The manhunt was on.
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The brothers were the inventors of several of Hitler’s flying-wing aircraft, including one called the Horten 229 or Horten IX, a wing-shaped, tailless airplane that had been developed at a secret facility in Baden-Baden during the war. From the Paperclip scientists at Wright Field, the Army intelligence investigators learned that Hitler was rumored to have been developing a faster-flying aircraft that had been designed by the brothers and was shaped like a saucer. Maybe, the Paperclips said, there had been a later-model Horten in the works before Germany surrendered, meaning that even if Stalin didn’t have the Horten brothers themselves, he could very likely have gotten control of their blueprints and plans.
[…]
A records group of more than three hundred pages of Army intelligence documents reveals many of the details of Operation Harass. They were declassified in 1994, after a researcher named Timothy Cooper filed a request for documents under the Freedom of Information Act. One memo, called “Air Intelligence Guide for Alleged ‘Flying Saucer’ Type Aircraft,” detailed for CIC officers the parameters of the flying saucer technology the military was looking for, features which were evidenced in the craft that crashed at Roswell.
Extreme maneuverability and apparent ability to almost hover; A plan form approximating that of an oval or disc with dome shape on the surface; The ability to quickly disappear by high speed or by complete disintegration; The ability to group together very quickly in a tight formation when more than one aircraft are together; Evasive motion ability indicating possibility of being manually operated, or possibly, by electronic or remote control.
[…]
A former Messerschmitt test pilot named Fritz Wendel offered up some firsthand testimony that seemed real. The Horten brothers had indeed been working on a flying saucer–like craft in Heiligenbeil, East Prussia, right after the war, Wendel said. The airplane was ten meters long and shaped like a half-moon. It had no tail. The prototype was designed to be flown by one man lying down flat on his stomach. It reached a ceiling of twelve thousand feet. Wendel drew diagrams of this saucerlike aircraft, as did a second German informant named Professor George, who described a later-model Horten as being “very much like a round cake with a large sector cut out” and that had been developed to carry more than one crew member. The later-model Horten could travel higher and faster—up to 1,200 mph—because it was propelled by rockets rather than jet engines. Its cabin was allegedly pressurized for high-altitude flights.
[…]
The next batch of solid information came from a rocket engineer named Walter Ziegler. During the war, Ziegler had worked at the car manufacturer Bayerische Motoren Werke, or BMW, which served as a front for advanced rocket-science research. There, Ziegler had been on a team tasked with developing advanced fighter jets powered by rockets. Ziegler relayed a chilling tale that gave investigators an important clue. One night, about a year after the war, in September of 1946, four hundred men from his former rocket group at BMW had been invited by Russian military officers to a fancy dinner. The rocket scientists were wined and dined and, after a few hours, taken home. Most were drunk. Several hours later, all four hundred of the men were woken up in the middle of the night by their Russian hosts and told they were going to be taking a trip. Why Ziegler wasn’t among them was not made clear. The Germans were told to bring their wives, their children, and whatever else they needed for a long trip. Mistresses and livestock were also fine. This was not a situation to which you could say no, Ziegler explained. The scientists and their families were transported by rail to a small town outside Moscow where they had remained ever since, forced to work on secret military projects in terrible conditions.
[…]
And then, six months into the investigation, on March 12, 1948, along came abrupt news. The Horten brothers had been found. In a memo to the European command of the 970th CIC, Major Earl S. Browning Jr. explained. “The Horten Brothers have been located and interrogated by American Agencies,” Browning said. The Russians had likely found the blueprints of the flying wing after all. “It is Walter Horten’s opinion that the blueprints of the Horten IX may have been found by Russian troops at the Gotha Railroad Car Factory,” the memo read. But a second memo, entitled “Extracts on Horten, Walter,” explained a little more. Former Messerschmitt test pilot Fritz Wendel’s information about the Horten brothers’ wingless, tailless, saucerlike craft that had room for more than one crew member was confirmed. “Walter Horten’s opinion is that sufficient German types of flying wings existed in the developing or designing stages when the Russians occupied Germany, and these types may have enabled the Russians to produce the flying saucer.”
The Soviets never went on to develop a flying wing, but another superpower did.
Jacobsen summarizes the Roswell incident near the end of her book:
The flying craft that crashed in New Mexico, the myth of which has come to be known as the Roswell Incident, happened in 1947, sixty-four years before the publication of this book. Everyone directly involved in that incident—who acted on behalf of the government—is apparently dead. Like it does about Area 51, the U.S. government refuses to admit the Roswell crash ever happened, but it did—according to the seminal testimony of one man interviewed over the course of eighteen months for this book. He participated in the engineering project that came about as a result of the Roswell Incident. He was one of the elite engineers from EG&G who were tasked with the original Area 51 wicked engineering problem.
In July of 1947, Army intelligence spearheaded the efforts to retrieve the remains of the flying disc that crashed at Roswell. And as with other stories that have become the legends of Area 51, part of the conspiracy theory about Roswell has its origins in truth. The crash did reveal a disc, not a weather balloon, as has subsequently been alleged by the Air Force. And responders from the Roswell Army Air Field found not only a crashed craft, but also two crash sites, and they found bodies alongside the crashed craft. These were not aliens. Nor were they consenting airmen. They were human guinea pigs. Unusually petite for pilots, they appeared to be children. Each was under five feet tall. Physically, the bodies of the aviators revealed anatomical conundrums. They were grotesquely deformed, but each in the same manner as the others. They had unusually large heads and abnormally shaped oversize eyes. One fact was clear: these children, if that’s what they were, were not healthy humans. A second fact was shocking. Two of the child-size aviators were comatose but still alive.
Everything related to the crash site was sent to Wright Field, later called Wright-Patterson Air Force Base, in Ohio, where it all remained until 1951. That is when the evidence was packed up and transported to the Nevada Test Site. It was received, physically, by the elite group of EG&G engineers. The Atomic Energy Commission, not the Air Force and not the Central Intelligence Agency, was put in charge of the Roswell crash remains. According to its unusual charter, the Atomic Energy Commission was the organization best equipped to handle a secret that could never be declassified. The Atomic Energy Commission needed engineers they could trust to handle the work that was about to begin. For this, they looked to the most powerful defense contractor in the nation that no one had ever heard of—EG&G.
The engineers with EG&G were chosen to receive the crash remains and to set up a secret facility just outside the boundary of the Nevada Test Site, sixteen miles to the northwest of Groom Lake, approximately five and a half miles north of the northernmost point where Area 12 and Area 15 meet. A facility this remote would never be visited by anyone outside a small group with a strict need-to-know and would never have to be accounted for or appear on any official Nevada Test Site map. These five men were told there was more engineering work to be done, and that they would be the only five individuals with a set of keys to the facility. The project, the men were told, was the most clandestine, most important engineering program since the Manhattan Project, which was why the man who had been in charge of that one would function as the director of this project as well.
Vannevar Bush had been President Roosevelt’s most trusted science adviser during World War II. He held engineering doctorates from both Harvard University and MIT, in addition to being the former vice president and former dean of engineering at MIT. The decisions Vannevar Bush made were ostensibly for the good of the nation; they were sound. The men from EG&G were told that the project they were about to work on was so important that it would remain black forever, meaning it would never see the light of day. The men knew that a secrecy classification inside the Atomic Energy Commission charter made this possible, because they all worked on classified engineering projects that were hidden from the rest of the world. They understood born classified meant that no one would ever have a need-to-know what Vannevar Bush was going to ask them to do. The operation would have no name, only a letter-number designation: S-4, or Sigma-Four.
[…]
There was the crashed craft that had been sent by Stalin—with its Russian writing stamped, or embossed, in a ring around the inside of the craft. So far, the EG&G engineers were told, no one working on the project when it had been headquartered at Wright-Patterson Air Force Base had been able to discern what made Stalin’s craft hover and fly. Not even the German Paperclip scientists who had been assigned to assist. So the crashed craft was job number one. Reverse engineer it, Vannevar Bush said. Take it apart and put it back together again. Figure out what made it fly.
But there was the second engineering problem to solve, the one involving the child-size aviators. To understand this, the men were briefed on what it was they were dealing with. They had to be. They were told that they, and they alone, had a need-to-know about what had happened to these humans before they were put in the craft and sent aloft. They were told that seeing the bodies would be a shocking and disturbing experience. Because two of the aviators were comatose but still alive, the men would have to transfer them into a Jell-O-like substance and stand them upright in two tubular tanks, attached to a life-support system. Sometimes, their mouths opened, and this gave the appearance of their trying to speak. Remember, the engineers were told, these humans are in a comatose state. They are unconscious; their bodies would never spark back to life.
Once, the children had been healthy humans. Not anymore. They were about thirteen years old. Questions abounded. What made their heads so big? Had their bodies been surgically manipulated to appear inhuman, or did the children have genetic deformities? And what about their haunting, oversize eyes? The engineers were told that the children were rumored to have been kidnapped by Dr. Josef Mengele, the Nazi madman who, at Auschwitz and elsewhere, was known to have performed unspeakable experimental surgical procedures mostly on children, dwarfs, and twins. The engineers learned that just before the war ended, Josef Mengele made a deal with Stalin. Stalin offered Mengele an opportunity to continue his work in eugenics—the science of improving a human population by controlled breeding to increase desirable, heritable characteristics—in secret, in the Soviet Union after the war. The engineers were told that this deal likely occurred just before the war’s end, in the winter of 1945, when it was clear to many members of the Nazi Party, including Mengele, that Nazi Germany would lose the war and that its top commanders and doctors would be tried and hanged for war crimes.
[…]
Mengele’s victims included Jewish children, Gypsy children, and people with severe physical deformities. He removed parts of children’s craniums and replaced them with bones from larger, adult skulls. He removed and transplanted eyeballs, and injected people with chemicals that caused them to lose their hair. On Mengele’s instruction, an Auschwitz inmate, a painter named Dina Babbitt, made comparative drawings of the shapes of heads, noses, mouths, and ears of people before and after the grotesque surgeries Mengele performed. Another inmate doctor forced to work for Mengele, named Dr. Martina Puzyna, recounted how Mengele had her keep detailed measurements of the shapes and sizes of children’s body parts, casting those of crippled children—particularly their hands and heads—in plaster molds. When Mengele left Auschwitz, on January 17, 1945, he took the documentation of his medical experiments with him. According to his only son, Rolf, Mengele was still in possession of his medical research documents after the war.
The EG&G engineers were told that part of Joseph Stalin’s offer to Josef Mengele stated that if he could create a crew of grotesque, child-size aviators for Stalin, he would be given a laboratory in which to continue his work. According to what the engineers were told, Mengele held up his side of the Faustian bargain and provided Stalin with the child-size crew. Joseph Stalin did not. Mengele never took up residence in the Soviet Union. Instead, he lived for four years in Germany under an assumed name and then escaped to South America, where he lived, first in Argentina and then in Paraguay, until his death in 1979.
When Joseph Stalin sent the biologically and/or surgically reengineered children in the craft over New Mexico hoping it would land there, the engineers were told, Stalin’s plan was for the children to climb out and be mistaken for visitors from Mars. Panic would ensue, just like it did after the radio broadcast of The War of the Worlds. America’s early-warning radar system would be overwhelmed with sightings of other “UFOs.” Truman would see how easily a totalitarian dictator could control the masses using black propaganda. Stalin may have been behind the United States in atomic bomb technology, but when it came to manipulating the people’s perception, Stalin was the leader with the upper hand. This, says the engineer, is what he and the others in the group were told.
For months I asked the engineer why President Truman didn’t use the remains from the Roswell crash to show the world what an evil, abhorrent man Joseph Stalin was. I guessed that maybe Truman didn’t want to admit the breach of U.S. borders. For a long time, I never got an answer, just a shaking of the head. Here was the engineer who had the answer to the riddle inside the riddle that is Area 51, but he was unwilling to say more. He is the only one of the original elite group of EG&G engineers who is still alive. He said he wouldn’t tell me more, no matter how many times I asked. One day, I asked again. “Why didn’t President Truman reveal the truth in 1947?” This time he answered.
“Because we were doing the same thing,” he said. “They wanted to push science. They wanted to see how far they could go.”
Again, the small sections on UFOs are wildly different from the rest of the book.
In a recent interview with Lex Fridman, 13 years after the book came out, she doesn’t quite walk back her claims about the Roswell flying saucer being a Soviet hoax, but she reveals who that anonymous source was to explain why he was so credible. It was Al O’Donnell, the technical expert who had wired most of the atomic bombs used in atmospheric tests, right after World War 2, while that was still allowed.
The smartphone industry’s research budget was around $150 billion in 2014, David Hambling notes (in Swarm Troopers), dwarfing the Pentagon’s entire R&D spend of around $60 billion:
In aviation, the Pentagon is the biggest player in the game; only a handful of other countries can afford to develop fourth and fifth-generation combat aircraft like the F-22. But when it comes to small electronics, the Pentagon does not have the budget to create anything as slick and sophisticated as the latest smartphone.
The 47th [Brigade] lost its first M-1 on or before Feb. 26, when a Russian first-person-view drone struck the tank’s ammunition compartment and sparked a fire that ultimately destroyed it. It’s possible the blast door that normally would prevent flames from entering the compartment—and cooking off the 120-millimeter main gun ammo—was open at the time of the strike, but it’s hard to say for sure.
The second Abrams got knocked out on or before March 3—this time reportedly by a Kornet laser-guided anti-tank missile that hit the relatively thinly-protected side of the tank’s hull and passed right through the attached M-19 explosive reactive armor. Kornets have tandem warheads: the first charge clears the armor; the second explodes inside the tank.
A second missile struck the turret, followed by an FPV drone, but it was the first missile—and the blaze resulting from its impact—that did in the 69-ton M-1.
The third confirmed Abrams loss, a week after the second, apparently also resulted from an anti-tank missile strike, which sparked a fire that cooked off the main gun rounds in the ammo compartment. The blast doors and the compartment’s exterior blowout panel must have failed.
A laser-detection system may have saved the two Abrams that fell victim to Kornets or similar missiles. But it wouldn’t have prevented the other loss. Nor would it prevent what’s almost certain to happen in the coming weeks and months as the war grinds on and the other 28 M-1s keep fighting: losses to mines, artillery and possibly even other tanks.
In 1984, Norman Augustine, former Under Secretary of the Army, and CEO of aerospace company Martin Marietta, published a set of “laws” about military procurement, David Hambling explains (in Swarm Troopers):
His most celebrated pearl of wisdom is Augustine’s Law 16, which says that the cost of each new generation of military aircraft rises exponentially.
[…]
Although intended facetiously, Augustine’s Law 16 has been remarkably accurate. The North American P-51 Mustang was one of the most important US fighters of WWII. Over fifteen thousand were built, at a cost of around $50,000 each in 1945 dollars ($655,000 in 2014). It was succeeded in the 1950s by the jet-powered F-100 Super Sabre at a cost of $700,000 ($6 million in 2014), ten times as expensive in real terms. The McDonnell-Douglas F-4 Phantom, which first flew in 1960, broke the million-dollar barrier, costing $2.4 million apiece in 1965 ($18 million in 2014), tripling the cost of its predecessor. Even allowing for inflation, the upwards curve is steep.
[…]
The USAF’s new F-15 Eagle, also from McDonnell Douglas, was set to replace the F-4. The Eagle was a superb aircraft, but it had reached a new high, costing in excess of $20 million ($45 million in 2014), almost tripling again the cost of its predecessor.
[…]
Extensive flying exercises found that the big twin-engine F-15 was only slightly superior to the small, cheap fighters fielded by the Russians in a dogfight. If it came to a war, the small band of F-15s would be overwhelmed by swarms of Russian MiGs. Certainly, the F-15s would be able to knock out plenty of the Russians at long range, but when the survivors closed with them, the contest would be bloody and one-sided.
The Air Force decided to go for a “high-low” mix, supplementing the elite F-15s with a large number of cheaper aircraft known as lightweight fighters. The aircraft selected for the lightweight fighter role was the single-engine F-16 Fighting Falcon, two-thirds the size of the F-15. It was to be the embodiment of a concept by fighter guru John Boyd for an austere aircraft with extreme agility that could beat anything in a dogfight. Being less complex, it would be so cheap it could be acquired in vast numbers. The F-15 with its powerful radar was the champion at long-range combat; the agile F-16 was to be the champion in the “furball” of dogfighting.
During the development process, the purity of the F-16 was slowly corrupted. It became heavier, less agile, and more expensive as more and more capabilities were added.
[…]
At $15 million in 1998 dollars ($22 million in 2014), the F-16 was cheaper than the F-15, but more expensive than anything in the previous generation, including the big F-4.
[…]
The US Navy went through a parallel experience. They also replaced the F-4 Phantom, and chose the F-14 Tomcat, a $ 38 million (1998 dollars, $ 55 million in 2014) carrier-based fighter. Like the F-15 it had a big radar and impressive long-range capabilities.
Again the F-14 was too pricey to acquire in large quantities, and the Navy took up the idea of bolstering numbers with a smaller, cheaper aircraft. They chose the F-18 Hornet, originally a failed competitor in the Air Force’s lightweight fighter competition. The F-18s costs grew from a planned $5 million to around $29 million (2003 = $37 million in 2014).
Phileas Frogg: Again the eternal conflict between the Real and the Nominal, and once more the Nominal lies. Never forget, lying is an act of aggression, and should always be treated as such. The more egregious the lie, the more aggressive the act. Respond accordingly.
Gaikokumaniakku: Tangentially related: 3M22 Zircon: Debunking Misconceptions. At the link, a military expert criticizes Russian hypersonic weapons.
Phileas Frogg: History is a gift and its study a blessing; even the people whose effects I have come to despise are so obviously superior to our present milieu that one can’t help but feel a sort of scruffy abashedness in the presence of their biographies. And, of course, it gets worse the further back you go. One wonders at the impression a fully fledged Adam in the Garden, before the Fall, would have had on us scampering apes. Darwin got it backwards, we didn’t evolve from an ape-like...
Bob Sykes: LBJ also kept a cooler of beer in that Caddy, and he usually was drinking a beer while he drove around.
Phileas Frogg: “Interestingly, working-class Americans are more likely to read local news, while the wealthy and highly educated favor national and global news.” I wonder how much of this is social norms vs self-perception. Do the wealthy and educated feel in touch with (or that they should be in touch with) national and global events, or is it mere mimicry? How about the working-class? The two are necessarily mutually exclusive of course, but I wonder if there’s a different primary...
Phileas Frogg: As advances in weapon’s have improved the range and effectiveness of the individual soldier’s impact on the battlefield, the number of soldiers has increased in importance relative to the quality of any individual soldier. It’s the Thermopylae Principle in reverse because of weapons advancements. Reminds me of RTS balancing, where to effectively implement melee units developers need to give them either unrealistic speed or durability relative to the ranged capabilities of...
Bob Sykes: Calling Mohamed Farrah Aidid’s militia a mob is a bit much, but they were lightly armed and poorly trained. However, they defeated the US/UN mission to Somalia, or at least fought it to a draw. We’re still fighting Aidid’s grandchildren, and we still haven’t won. The war is now in its 4th decade, with no end in sight. Settling aside our Indian Wars (1607 to 1918). Somalia is the longest US war.
McChuck: Anybody who has ever played a wargame can tell you that your defenses can handle a certain amount of opposition, but when enemy numbers, regardless of quality, exceed that number, you get overrun. The mobs in Mogadishu back in 1993 weren’t well organized, weren’t well equipped, weren’t well trained, and weren’t well led. But there sure were a whole lot of them shooting at the Rangers.
Russell: New article about Thorp https://archive.ph/fq5JC
Phileas Frogg: The class divide in the US is as deep and wide as any as has existed in history, but instead of acknowledging the divide, much less trying to bridge it, we have chosen moralization and mutual animosity, which will be the death of us.
Freddo: https://www.zerohedge.co m/geopolitical/us-drones -are-expensive-and-error -prone-so-ukraine-turns- china
Jim: The principle applies whatever the source of the wall-penetrating radio waves in question.
Phileas Frogg: In conjunction with the Rob Henderson excerpt one can safely conclude that neither drug use, nor sexual immorality, can be meaningfully correlated with class. “But poverty causes crime!” Does it?
Bruce: Green energy is a patronage fraud, and Terraform Industries is working with it. But their tech isn’t a fraud.
Handle: What is Henderson taking about? I was under the impression that it was a broadly believed meme and one frequently portrayed in popular entertainment for several generations before Henderson was born that college kids got drunk and enjoyed / experimented with recreational drugs quite a lot. Maybe Rob’s poorer friends couldn’t afford to watch those episodes of South Park or didn’t hear about George W Bush’s “youthful indiscretions”? Man, the left really is...
Bob Sykes: How effing stupid are we supposed to be. The energy input to make the methane will be several times the energy of combustion when the methane is burned. And, of course, all the methane will become exactly the amount of carbon dioxide originally removed from the atmosphere. Net, no carbon dioxide removal. And considering all the carbon produced during the manufacture of the Terraform system and the solar/wind systems, this proposal actually increases atmospheric CO2. And the cost claims are...
Gaikokumaniakku: If it’s “synthetic,” they could just call it “synthetic methane,” right? Calling it “synthetic natural gas” makes my brain hurt because I like to think that natural things are not synthetic. I love methane tech because I was raised on Mad Max: Beyond Thunderdome. Typically I like to see it as a way of dealing with dung from agriculture, but I am a fan of methane tech regardless of how they make it.
