Unique

Unique (pronounced yoo-neek)

(1) Existing as the only one or as the sole example; single; solitary in type or characteristics; the embodiment of unique characteristics; the only specimen of a given kind.

(2) Having no like or equal; unparalleled; incomparable.

(3) Limited in occurrence to a given class, situation, or area.

(4) Limited to a single outcome or result; without alternative possibilities:

(5) Not typical; unusual (modern non-standard (ie incorrect) English).

1595-1605: From the sixteenth century French unique, from the Latin ūnicus (unparalleled, only, single, sole, alone of its kind), from ūnus (one), from the primitive Indo-European root oi-no- (one, unique).  The meaning "forming the only one of its kind" is attested from the 1610s while the erroneous sense of "remarkable, uncommon" emerged in the mid-nineteenth and lives on in the common errors “more unique” and “very unique” although etymologists are more forgiving of “quite unique”, a favorite of the antique business where it seems to be used to emphasize the prized quality of "exquisiteness".  Unique is a noun & adjective, uniqueness, uniquity & unicity are nouns and uniquely is an adverb; the (rare) noun plural is uniques.  The comparative uniquer and the superlative uniquest are treated usually as proscribed forms which should be used only with some sense of irony but technically, while the preferred "more unique" and "most unique" might sound better, the structural objection is the same.

The Triumph Stag and its unique, ghastly engine

There was a little girl by Henry Wadsworth Longfellow (1807–1882)

There was a little girl,
And she had a little curl
Right in the middle of her forehead.
When she was good
She was very, very good,
And when she was bad she was horrid.

The V8 engine Triumph built for the Stag between 1970-1978 was a piece of machinery not quite uniquely horrid but so bad it remained, most unusually for such an engine, unique to the Stag.  The only other post-war V8 engine to be produced in any volume which was used in a single model was the Fiat 8V (1952-1954) though with a run of 114 it was hardly mass produced.  The Ford Boss 429 (1969-1970) was only ever used in the Mustang (apart from two Mercury Cougars built for drag racing) but it was a variant of the 385 series engines (370-429-460) rather than something genuinely unique.  More common have been V8s which never actually appeared in any production car such as Ford's 427 SOHC (a variant of the FE/FT family (332-352-360-361-390-406-410-427-428; 1957-1976)) or the Martin V8, designed by Ted Martin (1922-2010) initially for racing but briefly envisaged for the French Monica luxury car project (1971-1975) until a sense of reality prevailed.  What is unique about the Triumph 3.0 V8 is that it's the one produced in the greatest volume which was used only in the one model.

The Triumph 3.0 V8

Engine schematic. 

Problem 1: Some strange decisions were taken by British Leyland and many associated with the Stag’s engine are among the dopiest.  The engineering strategy was to create a family of engines of different size around common components which would enable the development of four, six and eight cylinder units with capacities between 1.5-4 litres, (75-245 cubic inches), the part-sharing offering some compelling economies of scale.  Done properly, as many have often done, it’s sound practice to create a V8 by joining two four-cylinder units but it’s unwise to using exactly the same bottom-end components for both.  Strictly speaking, because the V8 came first, the subsequent fours were actually half a V8 rather than vice-versa but the fact remains the bottom-end construction was more suited to the smaller mill; the bearings were simply too small.

Stagnant.  Blockages and corrosion by chemical reaction.

Problem 2: A second cause of engine trouble was the choice of materials. The block was made from iron and the heads from aluminum, a common enough practice even then but a combination new to Triumph owners and one demanding the year-round use of corrosion-inhibiting antifreeze, a point not widely appreciated even by the somewhat chaotic dealer network supporting them.  Consequently, in engines where only water was used as a coolant, the thermite reaction between iron and aluminum caused corrosion where the material were joined, metallic debris coming lose which was distributed inside the engine; the holes formed in the heads causing gaskets to fail, coolant and petrol mixing with lubricating oil.

Problem 3. The engine used a long, single row, roller-link timing chain which would soon stretch, causing the timing between the pistons (made of a soft metal) and the valves (made of a hard mental) to become unsynchronized.  There are “non-interference” engines where this is a nuisance because it causes things to run badly and “interference” engines where the results can be catastrophic because, at high speed, valves crash into pistons.  The Stag used an “interference” engine.

Engine schematic.  Note the angles of the head-studs.

Problem 4: There was a bizarre arrangement of cylinder head fixing studs, half of which were vertical in an orthodox arrangement while the other half sat at an angle. The angled studs, made from a high-tensile steel, were of course subject to heating and cooling and expanded and contracted at a different rate to the aluminum cylinder heads, the differential causing premature failure of the head gaskets.  It must have seemed a good idea at the time, the rationale being it made possible the replacement of the head gaskets without the need to remove the camshafts and re-set the valves and that is a time-consuming and therefore expensive business so the intention was fine but defeated by physics which should have been anticipated.  Nor did the thermal dynamics damage only head gaskets, it also warped the aluminum heads, the straight studs heating differently than the longer splayed studs which imposed the side loads that promoted warping.  As a final adding of insult to injury, the long steel studs had a propensity solidly to fuse with the aluminum head and, because they sat at dissimilar angles, it wasn’t possible simply to saw or grind the top off the offending bolt and pull of the head.

Problem 5: The head failures would have been a good deal less prevalent had the company management acceded to the engineers’ request to use the more expensive head gaskets made of a material suited to maintaining a seal between surfaces of iron and aluminum.  For cost reasons, the request was denied.

Triumph Stag engine bay.

Problem 6: Despite the under-hood space being generous, instead following the usual practice of being mounted low and belt-driven, at the front of the engine, the water pump was located high, in the valley between the heads and was gear driven off a jackshaft.  This, combined with the location of the header tank through which coolant was added, made an engine which had suffered only a small loss of coolant susceptible to over-heating which, if undetected, could soon cause catastrophic engine failure, warped cylinder heads not uncommon.  Because, when on level ground, the water pump sat higher than the coolant filling cap, unless the car was parked at an acute angle, it wasn’t possible to fill the system with enough fluid actually to reach the water pump.    It seems a strange decision for a engineer to make and the original design blueprints show a belt-driven water pump mounted in a conventional manner at the front of the block.

It transpired that Saab, which had agreed to purchase a four cylinder derivative of the modular family, had to turn the slant four through 180^o because, in their front-wheel-drive 99, the transmission needed to sit at the front and, space in the Swedish car being tight, there would be no room between block and bulkhead for a water pump and pulley to fit.  So, dictated by necessity, the pump ended up atop the block, suiting both orientations and driven by the same shaft that drove the distributor and oil pump (and would have driven the mechanical metering unit for the abortive fuel injection).  Aside from the issues with coolant, the drive mechanism for the pump brought problems of its own, the early ones proving fragile.  As if the problems inherent weren’t enough, Triumph made their detection harder, locating the coolant temperature sender in one of the cylinder heads.  On the modular fours, with one head, that would be fine but the Stag’s two heads didn’t warp or otherwise fail in unison.  One head could be suffering potentially catastrophic overheating yet, because the sensor was in the as yet unaffected other, the temperature gauge would continue to indicate a normal operating level.  That’s the reason just about every fluid-cooled engine with multiple heads has the sender placed in the water pump.  To compound the problem, the four and eight used the same specification water pump, which, while more than adequate for the former, should have be uprated for the latter.

Problem 7: This was the eventually nationalized British Leyland of the 1970s, a case study, inter alia, in poor management and ineptitude in industrial relations.  Although the pre-production engines were cast by an outside foundry and performed close to faultlessly in durability-testing, those fitted to production cars were made in house by British Leyland in a plant troubled by industrial unrest.  Quality control was appalling bad, lax manufacturing standards left casting sands in the blocks which were sent for the internal components to be fitted and head gaskets were sometimes fitted in a way which restricted coolant flow and led to overheating.

The lineage of the Stag

Michelotti's show car, 1966.

It was a pity because but for the engine, the Stag proved, by the standards of the time, relatively trouble-free, even the often derided Lucas electrical equipment well behaved.  The story began in 1965 when Italian designer Giovanni Michelotti (1921–1980) had requested a Triumph 2000 sedan, a model he’d styled and which had been on sale since 1963.  Michelotti intended to create a one-off convertible as a promotional vehicle to display at the 1966 Geneva Motor Show and Triumph agreed, subject to the company being granted first refusal on production rights and, if accepted, it would not appear at the show.  The donor car sent to Turin was a 1964 saloon which, prior to being used as a factory hack, had been one of the support vehicles for Triumph’s 1965 Le Mans campaign with the Spitfire.  Driven to Italy for Michelotti to cut and shape, the result so delighted Triumph they immediate purchased the production rights and the Stag was born.  Briefly called TR6, the Stag name was chosen, somewhat at random, as the original project code but was retained when it was preferred to all the suggested alternatives; unlike the engine, the name was right from day one.

Michelotti's pre-production styling sketch for a cabriolet version of the Triumph 2000, 1967.  The concept was remarkably close to the production version.

The styling too turned out to be just about spot-on.  The partially concealed headlights, then a fashionable trick many US manufacturers had adopted, was thought potentially troublesome and abandoned but the lines were substantially unchanged between prototype and production.  There was one exception of course and that was the most distinctive feature, the B-pillar mounted loop which connected to the centre of windscreen frame, creating a T-section.  This wasn’t added because of fears the US Congress was going to pass legislation about roll-over protection; that would come later and see European manufacturers produce a rash of “targas” (a kind of roll-bar integrated into the styling as a semi-roof structure) but Triumph’s adaptation was out of structural necessity.  Based on a sedan which had a permanent roof to guarantee structural integrity, Michelotti’s prototype had been a styling exercise and no attempt had been made to adapt the engineering to the standards required for production.  Although the platform had be shortened, a sedan with its roof cut of is going to flex and flex it did, shaking somewhat if driven even at slow speeds in a straight line on smooth surfaces; with any change to any of those conditions, vibration and twisting became much worse.  The T-top not only restored structural integrity but was so well-designed and solidly built the Stag’s torsional stiffness was actually better than the sedan and unlike Triumph's long running TR range (TR2-TR6, 1953-1976 (the TR7-TR8 (1975-1981) a different platform)), there was no scuttle shake.

Given the platform and styling was essentially finished at the beginning, the initial plan the Stag would be ready for release within two years didn’t seem unreasonable but it took twice that long.  Perhaps predictably, it was the engine which was responsible for much of the delay, combined with the turmoil and financial uncertainty of a corporate re-structure.  Triumph had since 1960 been part of the Leyland group (a profitable bus and truck manufacturer) and until 1968 enjoyed much success as their car-making division.  However, in 1968, under some degree of government coercion, a large conglomerate was formed as British Leyland (BL) and Triumph was absorbed into BL's Specialist Division as a stable-mate to Rover and Jaguar-Daimler.

Jaguar & Daimler: V8s, V12s and missed opportunities

Daimler 2.5 V8.

What became the Stag's engine imbroglio was interlinked with the merger because with the great coming-together, BL had on the books, in development or production, one V12 engine and five V8s, an indulgence unlikely to survive any corporate review.  Jaguar-Daimler, the most substantially semi-independent entity within the conglomerate, were adamant about the importance of the V12 to their new model ranges and the point of differentiation it would provide in the vital US market.  They were notably less emphatic about their V8s.  Within the company, there had long been a feeling Jaguars should have either six or twelve cylinders, any V8 a lumpy compromise for which there’d never been much enthusiasm.  Additionally, the Jaguar was more of a compromise than most.  Based on the V12 it was thus in a 60^o configuration and so inherently harder to balance than a V8 using an orthodox 90^o layout.  Development had been minimal and Jaguar was happy to sacrifice the project, doubtlessly the correct decision.

1961 Jaguar Mark X.

Less inspired was to allow the anti-V8 feeling to doom the hemi-head Daimler V8s.  Built in 2½ litre (2,548 cm³ (155 cubic inch)) and 4½ litre (4,561 cm³ (278 cubic inch)) displacement, both were among the best engines of the era, light, compact and powerful, they were noted also for their splendid exhaust notes, the only aspect in which the unfortunate Stag engine would prove their match.  Jaguar acquired both after merging with (ie taking over) Daimler in 1960 and created a popular (and very profitable) niche model using the smaller version but the 4½ litre was only ever used in low volume limousines, barely two-thousand of which were built in a decade.  Both however showed their mettle, the 2.5 comfortably out-performing Jaguars 2.4 XK-six in the same car and in some measures almost matching the 3.4, all to the accompaniment of that glorious exhaust note.  The 4.6 too proved itself in testing.  When, in 1962, engineers replaced the 3.8 XK-six in Jaguar’s new Mark X with a 4.6, it was six seconds quicker to 100 mph (162 km/h) and added more than 10 mph (16 km/h) to an already impressive top speed of 120 mph (195 km/h).  The engineers could see the potential, especially in the US market where the engines in the Mark X’s competition was routinely now between six-seven litres (365-430 cubic inches) and increasingly being called upon to drive power-sapping accessories such as air-conditioning.  As Mercedes-Benz too would soon note, in the US, gusty sixes were becoming technologically bankrupt.  The engineers looked at the 4.6 and concluded improvements could be made to the cylinder heads and the design would accommodate capacity increases well beyond five litres (305 cubic inches); they were confident a bigger version would be a natural fit for the American market.

Internal discussion paper for Jaguar XK-V8 engine, Coventry, UK, 1949.

Curiously, it could have happened a decade earlier because, during development of the XK-six, a four cylinder version was developed and prototypes built, the intent being to emulate the company’s pre-war practice when (then known as SS Cars) a range of fours and sixes were offered.  This continued in the early post-war years while the XK was being prepared and the idea of modularity appealed; making fours into sixes would become a common English practice but Jaguar flirted also with an XK-eight.  While the days of straight-eights were nearly done, trends in the US market clearly suggested others might follow Ford and offer mass-market V8s so, in 1949, a document was circulated with preliminary thoughts outlining the specification of a 4½ litre 90^o V8 using many of the XK-four’s components including a pair of the heads.  There things seemed to have ended, both four and eight doomed by the success and adaptability of the XK-six and there's never been anything to suggest the XK-eight reached even the drawing-board.  Work on the prototype four did continue until the early 1950s, the intention being to offer a smaller car which would fill the huge gap in the range between the XK-120 and the big Mark VII saloon but so quickly did the XK-six come to define what a Jaguar was that it was realized a four would no longer suit the market.  Instead, for the small car, a small (short) block XK-six was developed, initially in two litre form and later enlarged for introduction as the 2.4; with this, the XK-four was officially cancelled by which time the flirtation with the eight had probably already been forgotten.  For decades thereafter, Jaguar would prefer to think in multiples of six and, having missed the chance in the 1960s to co-op the Daimler 4.6, it wouldn’t be for another thirty years that a V8 of four-odd litres would appear in one of their cars.

1954 prototype Jaguar 9 litre military V8.

That didn't mean in the intervening years Jaguar didn't build any V8s.  In the early 1950s, while fulfilling a contract with the Ministry of Supply to manufacture sets of spares for the Rolls-Royce Meteor mark IVB engines (a version of the wartime Merlin V12 made famous in Spitfires and other aircraft) used in the army's tanks, Jaguar was invited to produce for evaluation a number of V8s of "approximately 8 litres (488 cubic inches)".  Intended as a general purpose engine for military applications such as light tanks, armored cars and trucks, what Jaguar delivered was a 9 litre (549 cubic inches), 90^o V8 with double overhead camshafts (DOHC), four valves per cylinder and a sealed electrical system (distributors and ignition) to permit underwater operation, thereby making the units suitable also for marine use.  With an almost square configuration (the bore & stroke was 114.3 x 110 mm (4.5 x 4.33 inches)), the naturally aspirated engine exceeded the requested output, yielding 320 bhp (240 kw) at 3750 rpm and either five or six were delivered to the ministry for the army to test.  From that point, it's a mystery, neither the military, the government nor Jaguar having any record of the outcome of the trials which apparently didn't proceed beyond 1956 or 1957; certainly no orders were placed and the project was terminated.  At least one one of the V8s survived, purchased in an army surplus sale it was as late as the 1990s being used in the barbaric-sounding sport of "tractor-pulling".  Later, Jaguar enjoyed more success with the military, the army for some years using a version of the 4.2 litre XK-six in their tracked armored reconnaissance vehicles, the specification similar to that used when installed in the Dennis D600 fire engine.             

Jaguar V12 in 1973 XJ12.  So tight was the fit in the XJ's engine bay, even the battery needed its own cooling fan.

Jaguar’s management vetoed production of the Daimler 4.6 on the grounds (1) there was not the capacity to increase production to what be required for the volume of sales Jaguar hoped the Mark X would achieve and (2) the Mark X would need significant modifications to permit installation of the V8.  Given that Daimler’s production facilities had no difficulty dramatically increasing production of the 2.5 when it was used in the smaller saloon body and a number of specialists have subsequently noted how easy it was to fit some very big units into the Mark X’s commodious engine bay, it’s little wonder there’s always been the suspicion the anti-V8 prejudice may have played a part.  Whatever the reasons, the decision was made instead to enlarge the XK-six to 4.2 litres and missed was the opportunity for Jaguar to offer a large V8-powered car at least competitive with and in some ways superior to the big Americans.  The Mark X (later re-named 420G) was not the hoped-for success, sales never more than modest even in its early days and in decline until its demise in 1970 by which time production had slowed to a trickle.  It was a shame for a design which was so advanced and had so much potential for the US market and had the V8 been used or had the V12 been available by the mid-1960s, things could have been different.  The unfortunate reputation the twelve later gained was because of lax standards in the production process, not any fragility in the design which was fundamentally sound and it would have been a natural fit in the Mark X.  So the Daimler 4.6 remained briefly in small-scale production for the limousines and the 2.5 enjoyed a successful run as an exclusive model under the hood of the smallest Jaguar (as well as the footnote of the SP250 roadster), a life which would extend until 1969.  Unfortunately, the powerful, torquey, compact and robust 2.5, which easily could have been enlarged to three litres, wasn’t used in the Stag.  More helpfully, even if capacity had been limited to 2.8 litres (170 cubic inches) to take advantage of the lower taxation rates applied in Europe, the Daimler V8 would have been more than equal to the task.

Crossing the Rubicon

Fuel-injected 2.5 litre Triumph six in 1968 Triumph TR5.

The Triumph six was essentially an enlarged version of an earlier four.  Released also in 1.6 & 2.0 capacities and used in the 2000/2500, Vitesse, GT6 & TR5/6, the fuel-injection was adopted only for the some of the non-US market sports cars and the short-lived 2.5 PI saloon and because of the reliance on the US market, TVR, which used the engine in the 2500M, in all markets, offered only the twin-carburetor version certified for US sale in the TR-250.  Apart from those fitted with never wholly satisfactory Lucas mechanical fuel-injection, with roots in a tractor engine, the pushrod Triumph six was not an advanced powerplant but it was highly tuneable and something the Stag's V8 never was: robust and reliable.  Although it sounds (and would have been) anachronistic, Triumph would have been better advised to take the old four and create a 3.0 litre straight-eight with the power take-off in the centre.  Even with carburetors (certainly for the US market) it would have been unique (in a good way) and doing that while adding a few inches to the nose would have been a simpler and cheaper task than what was done.  A straight-eight Stag would also have reached the market earlier.      

Triumph tried using the fuel-injected 2.5 litre straight-six already in development for the TR5 (TR-250 in North America) but the rorty six was a sports car engine unsuited to the grand tourer Triumph intended the Stag to be and thus was born a 2.5 litre V8, part of a modular family.  Another innovation was that the V8 would use the Lucas mechanical fuel-injection adopted for the long-stroke six and this at a time when relatively few Mercedes-Benz were so equipped.  However, while the power output met the design objectives, it lacked the torque needed in a car of this nature, and the high-revving nature wasn’t suited to a vehicle intended to appeal to the US market where it was likely often to be equipped both with air-conditioning and automatic transmission; the decision was taken to increase capacity to three litres.  Because the quest was for more torque, it might be thought it would be preferred to lengthen the stroke but, for reasons of cost related to the modularity project, it was decided instead to increase the bore to a very over-square 86.00 x 64.50 mm (3.39 x 2.52 inches).  Despite this, the additional half-litre delivered the desired torque but the coolant passages remained the same so an engine with a capacity twenty percent larger and an increased swept volume, still used the already hardly generous internal cooling capacity of the 2.5.  It was another straw on the camel’s back.

It was also another delay and, within Leyland, questions were being raised about why a long and expensive programme was continuing to develop something which, on paper, appeared essentially to duplicate what Leyland then had in production: Rover’s version of the small-block Buick V8 which they’d much improved after buying the rights and tooling from General Motors.  Already used to much acclaim in their P5B and P6 saloons, it would remain in production for decades.  The Rover V8 did seem an obvious choice and quite why it wasn’t adopted still isn’t entirely certain.  One story is that the Triumph development team told Rover’s chief engineer, by then in charge of the Stag project, that the design changes associated with their V8 were by then so advanced that the Rover V8 “wouldn’t fit”.  While it seems strange an engineer might believe one small V8 wouldn’t fit into a relatively large engine bay which already housed another small V8, he would later admit that believe them he did.

Tight fit: Ford 289 (4.7) V8 in 1967 Sunbeam Tiger Mark II.  A small hatch was added to the firewall so one otherwise inaccessible spark plug could be changed from inside the cabin.

It actually wasn’t a wholly unreasonable proposition because to substitute one engine for another of similar size isn’t of necessity simple, things like cross-members and sump shapes sometimes rendering the task impossible, even while lots of spare space looms elsewhere and a similar thing had recently happened.  In 1967, after taking control of Sunbeam, Chrysler had intended to continue production of the Tiger, then powered by the 289 cubic inch (4.7 litre) Windsor V8 bought from Ford but with Chrysler’s 273 cubic inch (4.4 litre) LA V8 substituted.  Unfortunately, while 4.7 Ford litres filled it to the brim, 4.4 Chrysler litres overflowed; the small-block Ford truly was compact.  Allowing the Tiger to remain in production until the stock of already purchased Ford engines had been exhausted, Chrysler instead changed the advertising from emphasizing the “…mighty Ford V8 power plant” to the correct but less revealing “…an American V-8 power train”.

1973 Triumph Stag.

It may have been, in those perhaps kinder times, one engineer would believe another.  However, years later, a wrinkle was added to the story when, in an interview, one of the development team claimed what was said was that they felt the Rover V8 was “not a fit” for the Stag, not that “it wouldn’t fit”, an amusing piece of sophistry by which, it was said, they meant the characteristics of the engine weren't those required for the Stag.  That may have been being economical with the truth: any engineer looking at the specifications of the Rover unit would have understood it was highly adaptable and so for decades it proved to be, powering everything from the Land Rover to executive saloons and high-performance sports cars.

More plausible an explanation was competing economics.  Triumph was projecting a volume of between twelve and twenty-thousand a year for the Stag and, within the existing production facilities Rover could not have satisfied the demand in addition to their own expanding range, soon to include the Range Rover, added to which, an agreement had been reached to supply Morgan with engines for the +8 which would revitalize their fortunes.  The Morgan deal was for a relatively small volume but it was lucrative and the success of the +8 was already encouraging interest from other manufacturers.  So, with Triumph already in the throes of gearing up to produce their modular engines and Rover said to be unable to increase production without a large capital investment in plant and equipment, the fateful decision to use the Triumph engine was taken.

1974 Triumph Stag in magenta.  Some of the shades of brown, beige, orange and such used in the 1970s by British Leyland are not highly regarded but some were quite striking.

This was the critical point, yet even then it wasn’t too late.  Although Jaguar were emphatic about shutting down Daimler’s V8 lines and converting the factories to XJ6 production, it would have been possible to move the tooling and resume building a 2.5, 2.8 or 3.0 Daimler V8 for the Stag.  Rover had found managing a shift of some tooling across the Atlantic not too onerous a task so trucking stuff a few miles down the road should have been possible.  Ironically, Triumph argued their OHC V8 was a more modern thing than the then decade-old pushrod Daimler which, they suggested, wouldn’t be able to be adapted to upcoming US emission regulations and thus would have a short life.  Given the success of many in coaxing pushrod V8s through decades of US regulations, that probably wasn’t true but it had all become irrelevant; the decision had been taken to pursue Triumph’s modular option.  At least a decision had been taken that was final, unlike some British Leyland decisions of the era but it did mean the Stag’s introduction was further delayed.

1973 Triumph Stag.

Eventually, the Stag was launched in the summer of 1970 to a positive if not rapturous reception.  There was criticism of weight of the hardtop and the fabric roof not being as easy to us as the brochure suggested but most contemporary journalists seemed to enjoy the drive although some were disappointed with the lack of power; the wonderful exhaust note and rakish lines perhaps promising more but this was a relatively heavy four-seat grand tourer, not a sports-car.  Still, it would touch 120 mph (190 km/h) and its acceleration, brakes and handling were all at least comparable to the competition and, among that completion, it was close to unique.  A small-capacity V8, four-seat convertible with a choice of manual or automatic transmissions and all-independent suspension was a tempting specification in 1970; to get the same thing from Mercedes-Benz would cost more than three times as much.  Of course Stuttgart would probably have suggested their buyers got something more than three times as good, a not unreasonable point at the time and, given the prices at which 280SE 3.5 cabriolets now trade, the Germans appear to have been conservative in their three-fold estimate.  But it was value for money and had some nice touches, a heated rear window when that was a novelty in removable hard tops, a clever (and influential) multi-function display of warning lights and even, though curiously discordant, the option of wire wheels.

1974 Triumph Stag interior (manual o/d).

All concluded that driving one was a pleasant, if not especially rapid, experience but owning a Stag proved frequently nightmarish, all because of that unique engine.  Before many months had elapsed it was clear there were problems and, despite years of fixes and adjustments, the inherent design faults proved just too embedded in the mechanical DNA.  A change to the Rover V8 might, even then been the answer for the Stag otherwise suffered from little but by the early 1970s, Leyland was in dire financial straits, chronically under-capitalized and without any appetite to invest in a small volume product with an uncertain future.  Perhaps the earlier failure by Facel Vega to rescue the doomed Facellia by replacing the interesting but fragile French engine with a dreary but reliable Volvo unit played on their minds.  An upgraded automatic transmission, improvements to the cooling system and other detail changes to the engine were pursued and even an inconspicuous re-style was thought to warrant a “Mark 2” tag but the reputation never recovered.

Quixotic derivations were built but never pursued.  There were a couple of clumsy-looking prototype GT6-esque (the GT6 was a successful fastback version of the Spitfire roadster which used a the 2.0 litre straight-six in place of the smaller car's 1.3 litre four) hatchbacks which excited little interest and in 1972 Ferguson Research adapted two using their all-wheel-drive and anti-lock brake systems made famous on the Jensen FF; said to work most effectively, both still exist in private hands but there's nothing to suggest even limited production was ever contemplated.  In seven years, 25,877 Stags were built, 6,780 of which were exported but only 2,871 Americans were persuaded, a disappointment in a market of which much had been hoped.

End of the line: 1978 Triumph Stag.

The Stag however has enjoyed an extraordinary afterlife for something once thought a fragile failure.  Seduced by the style, the surprising practicality and the intoxicating burble of the exhaust, the survival rate has been high and most still run the Triumph V8 rather than the Rover V8, Ford V6 or any of the small-block Detroit V8s to which not a few owners once resorted.  Modern additions improve the experience too, five speed manual transmissions have been fitted, mostly to cars not equipped with the desirable overdrive and there's a popular and well-executed conversion to a four-speed ZF automatic which many describe as transformative.  There can be few engines which have for so long inspired owners to devote so much energy to rectifying the defects the factory never fixed.  High strength timing chains, external water pumps, improved radiators, better bearings and (the once rejected) correct head gaskets are now available, the consensus being that properly sorted and maintained by the book, it’s a solid, reliable engine, just not one which can be tolerate the sort of neglect Detroit's V8s of the era famously would endure with little complaint.

The Stag, November 2023 (the date stamp 21/8/2024 presumably wasn't caught during the pre-production process).

The Stag is the student newsletter of Reddam House Sydney, an independent, co-educational, non-denominational, day school, located in the leafy (Sydney code for “rich”) suburb of Woollahra.  An encouragingly professional example of student journalism, the content appears to reflect the generation's interest in popular culture (film, fashion, music, sport etc), climate change, consumer tech products and progressive politics (including the now obligatory trigger-warnings).  The writers take a few youthful liberties with conventions of formal English but that lends the publication an accessible, conversational tone.

Fascism

Fascism (pronounced fash-iz-uhm)

(1) A system of government led by a dictator (nominally with total power), forcibly suppressing opposition and criticism, regimenting (to various degrees) industry, commerce, the arts etc and emphasizing an aggressive nationalism, often with an overtly racist emphasis (often used with an initial capital letter).

(2) The philosophy, principles or methods of fascism.

(3) A political movement that employs the principles and methods of fascism (based at least nominally on the model established in Italy in 1922 but the variations within implementations were numerous (often used with an initial capital letter).

(4) A now generalized term used to describe certain regimes based on their behavior rather that the labels formerly adopted.

(5) A general term of disparagement nominally based on alleged political or other behavior but now very loosely applied.

(6) As a slang modifier, (grammar-fascism, eco-fascism, fashion-fascism et al), a term of derision aimed at those thought excessively focused on rules and regulations.

1915–1920: From the Italian fascismo, the construct being fasc(io) (bundle of sticks; political group) + -ismo (the noun-forming suffix (the plural –ismi)) from the Latin -ismus.  The significance of the connection between what came to be known as political fascism and fascio (bundle of sticks) was the use of the symbol in ancient Rome where it was part of the standard (flag) of the magistracy, symbolizing the authority of the state.  Certain political organizations in modern Italy thus came to be known as fasci and the fasces was adopted as the symbol of the Italian Fascist party which took power in 1922).  Fasces dates from 1590–1600 and was from the Latin fasces (bundle of rods containing an axe with the blade projecting), the plural of fascis (bundle or pack of wood), from the Proto-Italic faski- (bundle) possibly from the primitive Indo-European bhasko- (band, bundle), (the source also of the Middle Irish basc (neckband), the Welsh baich (load, burden) and possibly the Old English bæst (inner bark of the linden tree)).  In Ancient Rome, the bundle was carried by a functionary before a lictor (a senior Roman magistrate) as a symbol of the judiciary’s power over life and limb (the sticks symbolized the use of corporal punishment (by whipping or thrashing with sticks) while the axe-head represented execution by beheading.  From this specific symbolism, in Latin the word came to be used figuratively of “high office, supreme power”.  Fasces is a noun (usually used with a singular verb); the noun plural is fascis but fasces is used as both a singular & plural.  For this reason, some in the field of structural linguistics suggest fascis remains Latin while fasces has been borrowed by English.  Fascism is a noun, fascistic is an adjective and fascist is a noun & adjective; the noun plural fascists is in much more frequent use then fascisms.

Fascism as a label has been so over-used in casual political discourse that it has become devalued.  However forms like anti-fascism and pro-fascism (with many variations) remain in use and the US left-wing collective “antifa” (pronounced an-tee-fah) is a non-hyphenated clipping of anti-fascism (or anti-fascist).  In some cases where actual fascism is in more recent living memory, the word is more established in political “discussions” and in post-Franco Spain, some such “debates” can probably be reduced to “You’re a fascist!” vs “No, you’re a fascist!”.  It can be quite entertaining.

Le Serment des Horaces (Oath of the Horatii (1784-1785)), oil on canvas by Jacques-Louis David (1748–1825), the Louvre, Paris.  Le Serment des Horaces is a work often used as a case-study in the teaching of art theory because it so exemplifies the techniques of those painting in the Neoclassical style, both in the use of classical motifs and the way in which it represents the reaction against the Rococo.  As a tool of academic study, it’s useful too because its large size (3298 mm × 4248 mm (129.8 in × 167.2 inches) permits close examination of detail.

The scene it depicts is based on the Roman legend of an episode (dated usually to the reign of Tullus Hostilius (third King of Rome between 672–642 BC) in the wars between the cities Rome and Alba Longa in which the decision was taken to select three men from each to fight to the death, the victorious survivor(s) determining which city would be declared the winner.  The advantage was it was an alternative to each sending their whole armies, thereby avoiding mass slaughter, the drawback from a military point of view being the result would not necessarily reflect how a full scale battle would have been resolved.  The way the curious dual of the triumvirates unfolded is of interest to students of battlefield tactics but the political implications cast a longer shadow, providing some of the underpinnings of twentieth century fascism will all of its bloody consequences. In Le Serment des Horaces, a father is shown offering three swords to his sons who eagerly reach to take them, signifying their willingness to fight and, if need be, die for their city.  To reinforce the message, at the conclusion of the battle, a sister of the sole surviving victor (shown in the painting to the right), was killed by him for the sin of mourning the death of one of the slain opponents to whom she’d been betrothed.  Not only must one be loyal in body and ted to the state but also in mind and soul and although pre-dating the French Revolution (1789) by half a decade, such sentiments were common in many circles at the time as the idea gaining currency that “being French” should mean being loyal to the nation rather than the church or some sectional identification.  It was this notion of the supremacy of the state and the subordination of the individual to it that formed the basis of twentieth century fascism.

It was fashionable for much of the late twentieth century to dismiss the idea that Fascism had no intellectual or philosophical underpinnings and it was a thing based wholly on personalities and spectacle which captured the imagination of political scientists and others only because it genuinely did seem new, something of a novelty in a field where everything else had a literature dating back hundreds or thousands of years.  However, even if there was nothing like the wealth of work associated with doctrines like liberalism, conservatism or Marxism and while attempts to construct something like a “theory of fascism” have never been wholly convincing, much work has been done distilling the experience of fascism to a list or recognizable characteristics.  Independent commentator Laurence Britt published a number of pieces exploring the nature of the experience of fascism in power and provided one widely shared list of 14 fundamental characteristics:

Powerful and Continuing Nationalism: Fascist regimes tend to make constant use of patriotic mottos, slogans, symbols, songs, and other paraphernalia. Flags are seen everywhere, as are flag symbols on clothing and in public displays.

Disdain for the Recognition of Human Rights: Because of fear of enemies and the need for security, the people in fascist regimes are persuaded that human rights can be ignored in certain cases because of "need." The people tend to look the other way or even approve of torture, summary executions, assassinations, long incarcerations of prisoners, etc.

Identification of Enemies & Scapegoats as a Unifying Cause: The people are rallied into a unifying patriotic frenzy over the need to eliminate a perceived common threat or foe: racial, ethnic or religious minorities; liberals; communists; socialists, terrorists, etc.

Supremacy of the Military: Even when there are widespread domestic problems, the military is given a disproportionate amount of government funding, and the domestic agenda is neglected. Soldiers and military service are glamorized.

Rampant Sexism: The governments of fascist nations tend to be almost exclusively male-dominated. Under fascist regimes, traditional gender roles are made more rigid. Opposition to abortion is high, as is homophobia and anti-gay legislation and national policy.

Controlled Mass Media: Sometimes to media is directly controlled by the government, but in other cases, the media is indirectly controlled by government regulation, or sympathetic media spokespeople and executives. Censorship, especially in war time, is very common.

Obsession with National Security: Fear is used as a motivational tool by the government over the masses.

Religion and Government are Intertwined: Governments in fascist nations tend to use the most common religion in the nation as a tool to manipulate public opinion. Religious rhetoric and terminology is common from government leaders, even when the major tenets of the religion are diametrically opposed to the government's policies or actions.

Corporate Power is Protected: The industrial and business aristocracy of a fascist nation often are the ones who put the government leaders into power, creating a mutually beneficial business/government relationship and power elite.

Labor Power is Suppressed: Because the organizing power of labor is the only real threat to a fascist government, labor unions are either eliminated entirely or severely suppressed .

Disdain for Intellectuals and the Arts: Fascist nations tend to promote and tolerate open hostility to higher education, and academia. It is not uncommon for professors and other academics to be censored or even arrested. Free expression in the arts is openly attacked, and governments often refuse to fund the arts.

Obsession with Crime and Punishment: Under fascist regimes, the police are given almost limitless power to enforce laws. The people are often willing to overlook police abuses and even forego civil liberties in the name of patriotism. There is often a national police force with virtually unlimited power in fascist nations.

Rampant Cronyism and Corruption: Fascist regimes almost always are governed by groups of friends and associates who appoint each other to government positions and use governmental power and authority to protect their friends from accountability. It is not uncommon in fascist regimes for national resources and even treasures to be appropriated or even outright stolen by government leaders.

Fraudulent Elections: Sometimes elections in fascist nations are a complete sham. Other times elections are manipulated by smear campaigns against or even assassination of opposition candidates, use of legislation to control voting numbers or political district boundaries, and manipulation of the media. Fascist nations also typically use their judiciaries to manipulate or control elections.

It’s a helpful list and what many noted was the extend of the overlap of those characteristics into countries in which the governments are inclined to self identify as “liberal” or “democratic” but then the prime imperative in politics is always regime survival so some duplication of tactics should not be unexpected.  That does emphasize how the labels of political science are useful only to an extent.  World War II (1939-1945) has often been called the great conflict between democracy and fascism but its bloodiest theatre was Europe’s eastern front where in what Moscow styled the “Great Patriotic War” (1941-1945), the battle was between communism and fascism yet even if one finds Laurence Britt’s list of 14 in some way flawed, there’s an extraordinary degree to which it can be mapped onto both comrade Stalin’s (1878-1953; Soviet leader 1924-1953) “communist” system and Adolf Hitler’s (1889-1945; Führer (leader) and German head of government 1933-1945 & head of state 1934-1945) fascist regime.  To synthesize the factors for the list, assessed not on the constructs of Hitler and Benito Mussolini (1883-1945; Duce (leader) & prime-minister of Italy 1922-1943) but also those built by General "Muhammad" Suharto (or Soeharto) (1921-2008; president of Indonesia 1967-1998), Generalissimo Francisco Franco (1892-1975; Caudillo of Spain 1939-1975) and General Augusto Pinochet (1915-2006; dictator of Chile 1973-1990).

Another obvious mapping now is probably the People’s Republic of China (PRC), run since 1949 by the Chinese Communist Party (CCP).  Early in September 2023, it was reported the CCP intended to ban clothes which “hurt national feelings” and a draft law outlawing speech and dressing “detrimental to the spirit of Chinese people” is already under consideration.  It has been confirmed that under the proposed statute, people found guilty could be fined or jailed and the move to crack down on subversive clothing is one of a number of proposed changes to public security laws, the first substantive reform in decades.  No details have yet been released beyond it being said those who wear or force others to wear clothing and symbols which “undermine the spirit or hurt the feelings of the Chinese nation” could be detained for up to 15 days and fined up to 5,000 yuan (US$680).  In parallel, anyone who creates or disseminate articles or speech with the same effect would face the same punishment and in that aspect the CCP was more specific, indicating the proposed laws will prohibit “insulting, slandering or otherwise infringing upon the names of local heroes and martyrs” as well as vandalism of the memorials of their lives.

How to "hurt national feelings": Lindsay Lohan in costume as Suicide Squad’s Harley Quinn (a comic book character created by DC Comics), “Halloween bash”, Albert's Club, South Kensington, London, October 2016.  Any young Chinese lady wearing this might risk being accused of being dressed in a manner “detrimental to the spirit of Chinese people” and be fined or sent to “re-education” camp. 

On the vibrant, if by Western standards still respectful, Chinese social media, concerns were expressed that the notion of “detrimental to the spirit of Chinese people” was so vague and allow police officers and others a broad scope of personal interpretation about what the words meant that it would be impossible for people to be certain if they were complying.  One commentator cited the example of a Chinese woman who had been detained (even before any such law was passed) at a music concert because she was wearing a kimono, a classic style of Japanese attire.  Given that, it was asked whether wearing a suit & tie, a style which originated in the capitalist West would on the same basis be thought likely to “hurt national feelings”.  Given it’s the apparently compulsory uniform for the upper echelons of the CCP (including the Central Committee), that seems unlikely but does indicate how difficult it would be to codify such a rule.  One UK cartoonist once invented the imaginary offence “Being dressed in a manner likely to cause a breach of the peace” to illustrate how UK police might take advantage of such a law.  The woman in the kimono has actually been told exactly that she was dressed in a manner likely to cause a breach of the peace, the authorities in Suzhou accusing her of “picking quarrels and provoking trouble”.  Good, hard crackdowns of displays of individuality are a hallmark of fascist regimes and of late there’s been much attention paid to those wear rainbow colors and other symbols of “Western decadence and depravity” and in his decade at the top, Xi Jinping (b 1953; general secretary of the Chinese Communist Party (CCP) and paramount leader of the People's Republic of China (PRC) since 2013) has paid much attention to social engineering, re-defining what makes the model Chinese citizen and sartorial matters are the latest to be added to the “morality guidelines” the CCP issued in 2019 which included making compulsory “politeness”, “lowering one’s carbon footprint” and “having faith in Mr Xi and the CCP”.

Capillary

Capillary (pronounced kap-uh-ler-ee)

(1) Pertaining to or occurring in or as if in a tube of fine bore.

(2) Resembling a strand of hair; hair-like; slender.

(3) In physics, pertaining to capillarity; of or relating to the apparent attraction or repulsion between a liquid and a solid, observed in capillarity.

(4) In anatomy, pertaining to a capillary or capillaries; one of the minute blood vessels between the terminations of the arteries and the beginnings of the veins.  Capillaries form a network throughout the body for the exchange of oxygen, metabolic waste products, and carbon dioxide between blood and tissue cells.

(5) As capillary tube, any small-bore tube.

(6) A fine hole or narrow passage in any substance (technical use only).

1570–1580: From the Middle English, from the Latin capillāris (of or pertaining to hair), the construct being capill(us) (hair) + -ary.  The suffix –ary (of or pertaining to) was a back-formation from unary and similar, from the Latin adjectival suffixes -aris and -arius; appended to many words, often nouns, to make an adjective form.   Use was not restricted to words of Latin origin.  The etymology of the Latin capillus (hair (of the head)) is contested.  Although a relationship to caput (head) seems obvious, some doubt the connection "for formal reasons”, essentially because capillus is a diminutive, and would translate as “little head”, a perhaps tenuous relationship with “hair” but certainly not impossible and the dispute continues.  The Latin word was borrowed by early fourteenth century English as capillar (hair-like) to describe veins.

In the modern science of anatomy, used to describe “tube-like structures having so small a bore that water will not run through them”, use dates from 1742, an extension of the noun use from 1606 used to describe a “minute blood vessel”.  From 1806, experientialists used the word to describe the phenomena of the rise of liquids in tubes etc by the processes of surface tension; because the observational studies were conducted in capillary vessels, this came first to be called capillary attraction (1813).  Capillary as the "state or condition of being capillary" was first documented in 1806, from the French capillarité, from Latin capillāris.  In science, the derived terms include magnetocapillary, optocapillary & polycapillary.  The noun plural is capillaries and intercapillary is the adjective

The smaller, the bore of the tube, the greater the effect of the interaction of forces.

The process behind the counter-intuitive idea of water flowing uphill, even vertically, is called capillary action (and also capillary motion, capillarity, capillary effect, wicking or capillary attraction).  It describes the process by which liquids contained in narrow spaces are able, without the assistance of, or even in opposition to external forces such as pressure or gravity are able to move upwards.  It occurs because of the reaction of intermolecular forces between the liquid and surrounding solid surfaces; if the internal diameter of the tube is sufficiently small, then a combination of surface tension (caused by cohesion within the liquid) and adhesive forces between the liquid and wall will propel the liquid.  When the intermolecular attractive forces between the liquid and the solid surrounding surfaces (adhesive forces) are stronger than the cohesive forces within the liquid, the fluid will be pulled up the liquid column up until there is a sufficient mass of liquid for gravitational forces to counteract these forces.

The circular economy of botanical water management.

Plants use capillary action to draw water from roots and stems upwards to the trunk.  The molecules of the water are attracted to the molecules already  inside of the nominally solid stem from where they are dispersed throughout the plant.  Again, it’s the product of the relationship between adhesion and cohesion, and for plants, adhesion allows for the water to stick to their organic tissues while cohesion keeps the water molecules together.  Surface tension is the effect of intermolecular attraction that causes liquids to form a top or outer layer that behaves like a thin film of sorts.  Surface tension is responsible for the shape of water drops and for holding the structures together as plants soak up the water.  This is the circular economy of plants.

Capillary attraction and the Thorny Devil (from a BBC documentary).

Dwelling uniquely in central & western Australia, the thorny devil (Moloch horridus) is a lizard which is often seen when around 50-75 mm (2-3 inches) in length but can grow as large as 200 mm (8 inches).  Long-lived (up to 20 years), although fearsome in appearance, they are placid creatures with few apparent interests other than finding the ants and so voracious is their appetite that thousands can be consumed in a single meal.  The presence of people seems little to disturb them and thorny devils will sit on someone's shoulder for some time, apparently content and without any sign of distress.  Other than ants, their main need is for fresh water which is harvested through the channels formed in its skin between the spines.  It can collect moisture either from allowing dew to settle or by finding a water source and standing still, allowing gravity and capillary action to operate to let the fluid reach the mouth.  During rainfall events (which do happen in the Australian deserts), the process is rapid but in dry periods capillary action permits water to be taken up from damp sand and this can for months at a time be the creature’s primary method of intake.