Ballistic (pronounced buh-lis-tik)
(1) A projected object having its subsequent travel determined
or describable by the laws of exterior ballistics, most used in denoting
or relating to the flight of projectiles after the initial thrust has been
exhausted, moving under their own momentum and subject to the external forces
of gravity and the fluid dynamics of air resistance
(2) Of or relating to ballistics.
(3) In slang and idiomatic use, (as “go ballistic”, “went
ballistic” etc), to become overwrought or irrational; to
become enraged or frenziedly violent.
For those who need to be precise is describing such instances, the comparative is “more ballistic” and the superlative “most
ballistic”.
(4) Of
a measurement or measuring instrument, depending on a brief impulse or current
that causes a movement related to the quantity to be measured
(5) Of
materials, those able to resist damage (within defined parameters) by
projectile weapons (ballistic nylon; ballistic steel etc), the best-know use of
which is the “ballistics vest”.
(6) As “ballistics
gel(atin)”, as substance which emulates the characteristics and behavior under
stress of human or animal flesh (used for testing the effect of certain
impacts, typically shells fired from firearms).
(7) As “ballistic
podiatry”, industry slang for “the act of shooting oneself in the foot”, used
also by military doctors to describe soldiers with such self-inflicted injuries. The more general term for gunshot wounds is “ballistic trauma”
(8) In
ethno-phonetics, as “ballistic syllable”, a phonemic distinction in certain Central
American dialects, characterized by a quick, forceful release and a rapid
crescendo to a peak of intensity early in the nucleus, followed by a rapid, un-controlled
decrescendo with fade of voicing.
(9) As “ballistic
parachute”, a parachute used in light aircraft and helicopters, ejected from
its casing by a small explosion.
1765–1775: The construct was the Latin ballist(a) (a siege engine (ancient military machine) for throwing stones
to break down fortifications), from the Ancient Greek βαλλίστρα (ballístra), from βάλλω (bállō) (I throw). + -ic. The -ic suffix was from the Middle English
-ik, from the Old French -ique, from the Latin -icus, from the primitive Indo-European
-kos & -ḱos, formed with the i-stem suffix -i- and the
adjectival suffix -kos & -ḱos. The form existed also in the Ancient Greek as
-ικός (-ikós), in Sanskrit as -इक
(-ika) and the Old Church Slavonic as
-ъкъ (-ŭkŭ); A doublet of -y. In European languages, adding -kos to noun stems carried the meaning
"characteristic of, like, typical, pertaining to" while on adjectival
stems it acted emphatically; in English it's always been used to form
adjectives from nouns with the meaning “of or pertaining to”. A precise technical use exists in physical
chemistry where it's used to denote certain chemical compounds in which a
specified chemical element has a higher oxidation number than in the equivalent
compound whose name ends in the suffix -ous; (eg sulphuric acid (H₂SO₄)
has more oxygen atoms per molecule than sulphurous acid (H₂SO₃). The modern use (of the big
military rockets or missiles (those guided while under propulsion, but which
fall freely to their point of impact (hopefully the intended target)) dates
from 1949 although the technology pre-dated the label. The term “ballistic missile” seems first to
have appeared in 1954 and remains familiar in the “intercontinental ballistic
missile” (ICBM). The figurative use (“go
ballistic”, “went ballistic”) to convey “an extreme reaction; to become
irrationally angry” is said to have been in use only since 1981 which is
surprising. To “go thermo-nuclear” or “take
the nuclear option” are companion phrases but the nuances do differ. The noun ballistics (art of throwing large
missiles; science of the motion of projectiles) seems first to have appeared in
1753 and was from the Latin ballist(a), from the Ancient Greek ballistes, from ballein (to throw, to throw so as to hit that at which the object
is aimed (though used loosely also in the sense “to put, place, lay”)), from
the primitive Indo-European root gwele-
(to throw, reach). In the technical
jargon of the military and aerospace industries, the derived forms included (hyphenated
and not) aeroballistic, antiballistic, astroballistic, ballistic coefficient, quasiballistic,
semiballistic, subballistic, superballistic & thermoballistic. In science and medicine, the forms include bioballistic,
cardioballistic, electroballistic and neuroballistic. Ballistic & ballistical are adjectives, ballisticity,
ballistician & ballistics are nouns and ballistically is an adverb; the
wonderful noun plural is ballisticies.
The basilisk was a class of large bore, heavy bronze
cannons used during the late Middle Ages and in their time were a truly revolutionary
weapon, able quickly to penetrate fortifications which in some cases had for
centuries enabled attacks to be resisted.
Although there were tales of basilisks with a bores between 18-24 inches
(460-610 mm), these were almost certainly a product of the ever-fertile
medieval imagination and there’s no evidence any were built with a bore
exceeding 5 inches (125 mm). As a high-velocity
weapon however, that was large enough for it to be highly effective, the 160 lb
(72 kg) shot carrying a deadly amount of energy and able to kill personnel or
destroy structures. Because of the
explosive energy needed to project the shot, the barrels of the larger
basilicks could weigh as much as 4000 lb (1,800 kg); typically they were some
10 feet (3 m) in length but the more extraordinary, built as long-range
devices, could be as long as 25 feet (7.6 m).
Despite the similarity in form, the name basilisk was unrelated to “ballistics”
and came from the basilisk of mythology, a fire-breathing, venomous serpent able
to kill and destroy, its glace alone deadly.
It was thus a two part allusion (1) the idea of “spitting fire” and (2)
the thought the mere sight of an enemy’s big canons would be enough to scare an
opponent into retreat.
As soon as it appeared in Europe, it was understood the nature of battlefields would change and the end of the era of the castle was nigh. It was the deployment of the big cannons which led to the conquest of Constantinople (capital of the Byzantine Empire now Istanbul in the Republic of Türkiye) in 1453 after a 53 day siege; the city’s great walls which for centuries had protected it from assault were worn down by the cannon fire to the point where the defenders couldn’t repair the damage at the same rate as the destruction. In an example of the way economics is a critical component of war, the Austrian cannon makers had offered the cannons to the Byzantines but the empire was in the throes of one of the fiscal crises which determined to outcomes of so many conflicts and had no money with which to make the purchase. The practical Austrians then sold their basilisks to the attacking Ottoman army and the rest is history. Despite such successes, the biggest of the basilisks became rare after the mid sixteenth century as military tactics evolved to counter their threat by becoming more mobile and the traditional siege of static targets became less decisive and smaller, more easily transported cannon, lighter and cheaper to produce, came to dominate artillery formations.
Queen Elizabeth's Pocket Pistol was a basilisk built in 1544
in Utrecht (in the modern-day Netherlands), the name derived from it being a presented
to Henry VIII (1491–1547; King of England (and Ireland after 1541) 1509-1547) as
a for his daughter (the future Elizabeth I (1533–1603; Queen of England &
Ireland 1558-1603) although the first known reference to it being called “Queen
Elizabeth's Pocket Pistol” dates from 1767. Some 24 feet (7.3 m) in length and
with a 4.75 inch (121 mm) bore, it was said to be able to launch a 10 lb (4.5
kg) ball almost 2000 yards (1.8 km) although as a typical scare tactic, the
English made it known to the French and Spanish that its shots were heavier and
able to reach seven miles (12 km). Just
to makes sure the point was understood, it was installed to guard the
approaches to the cliffs of Dover.
Modern understandings of the physics of ballistics and the use of
computer simulations have since suggested there may have been some exaggeration
in even the claim of a 2000 yard range and it was likely little more than half
that. Such use of propaganda remains
part of the military arsenal to this day.
It was fake news: Responding to viral reports, the authoritative E!-News in April 2013 confirmed Lindsay Lohan did not "go ballistic" and attack her ex-assistant at a New York City club. For some reason, far and wide, the fake news had been believed.
Despite the costs involved and the difficulties in
maintaining and transporting big cannons, some militaries couldn’t resist them
and predictably, Adolf Hitler (1889-1945; Führer (leader) and German head of
government 1933-1945 & head of state 1934-1945), who thought just about
everything (buildings, tanks, trains, monuments, cars, battleships et al)
should be bigger, oversaw some of the most massive artillery pieces ever built,
often referred to by historians as “super heavy guns”. The term is no exaggeration and the most striking
example were the Schwerer Gustav and Dora.
With a bore of 31.5 inches (800 mm), the Schwerer Gustav and Dora apparatus
weighed 1350 tons (1225 tonnes) and could fire a projectile as heavy as 7.1
tons (6.4 tonnes) some 29 miles (47 km).
Two were built, configured as “railway guns” and thus of most utility in
highly developed areas where rail tracks lay conveniently close to the targets. The original design brief from the army ordinance
office required long-range device able to destroy heavily fortified targets and
for that purpose, they could be effective.
However, each demands as crew of several thousand soldiers, technicians
& mechanics with an extensive logistical support system in place to support
their operation which could be fewer than one firing per day. The Schwerer Gustav’s most successful
deployment came during the siege of Sevastopol (1942). Other big-bore weapons followed but success
prove patchy, especially as allied control of the skies made the huge, hard to
hid machines vulnerable to attack and even mounting them inside rock formations
couldn’t resist the Royal Air Force’s (RAF) new, ground-penetrating bombs.
Schwerer Gustav being readied for a test firing, Rügenwalde, Germany, 19 March 1943, Hitler standing second from the right with Albert Speer (1905–1981; Nazi court architect 1934-1942; Nazi minister of armaments and war production 1942-1945) to his right. Hitler referred to huge gun as “meine stählerne faust” (my steel fist) but it never fulfilled his high expectations and like many of the gigantic machines which so fascinated the Führer (who treated complaints about their ruinous cost as “tiresome”) it was a misallocation of scarce resources.
It was the development of modern ballistic rockets during
World War II (1939-1945) which put an end to big guns (although the Iraqi army
did make a quixotic attempt to resurrect the concept, something which involved
having a British company “bust” UN (United Nations) sanctions by claiming their
gun barrel components were “oil pipes”), the German’s A4 (V-2) rocket the world’s
first true long-range ballistic missile. The V-2 represented a massive leap
forward in both technology and military application and briefly it would touch “the
edge of space” before beginning its ballistic trajectory, reaching altitudes of
over 100 km (62 miles) before descending toward its target. Everything in the field since has to some
degree been an evolution of the V-2, the three previous landmarks being (1) the
Chinese “Fire Arrows” of the early thirteenth century which were the most
refined of the early gunpowder-filled rockets which followed a simple ballistic
path, (2) the eighteenth century Indian Mysorean Rockets with the considerable
advance of metal casings, the great range a shock to soldiers of the British
Raj who had become accustomed to enjoying a technology advantage and (3) the
British Congreve Rockets of the early nineteenth century, essentially a
refinement of Mysorean enhanced by improved metallurgy and aerodynamics and
made more effective still when combined with the well organized logistics of
the British military.
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