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SPEED READ SUPERCAR
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© 2018 Quarto Publishing Group USA Inc. Text © 2018 Basem Wasef First published in 2018 by Motorbooks, an imprint of The Quarto Group, 401 Second Avenue North, Suite 310, Minneapolis, MN 55401 USA. T (612) 344-8100 F (612) 344-8692 www.QuartoKnows.com All rights reserved. No part of this book may be reproduced in any form without written permission of the copyright owners. All images in this book have been reproduced with the knowledge and prior consent of the artists concerned, and no responsibility is accepted by producer, publisher, or printer for any infringement of copyright or otherwise, arising from the contents of this publication. Every effort has been made to ensure that credits accurately comply with information supplied. We apologize for any inaccuracies that may have occurred and will resolve inaccurate or missing information in a subsequent reprinting of the book. Motorbooks titles are also available at discount for retail, wholesale, promotional, and bulk purchase. For details, contact the Special Sales Manager by email at specialsales@ quarto.com or by mail at The Quarto Group, Attn: Special Sales Manager, 401 Second Avenue North, Suite 310, Minneapolis, MN 55401 USA. 10 9 8 7 6 5 4 3 2 1 ISBN: 978-0-7603-6291-4 Digital edition published in 2018 eISBN: 978-0-7603-6292-1 Library of Congress Control Number: 2018945243 Acquiring Editor: Zack Miller Project Manager: Jordan Wiklund Series Creative Director: Laura Drew Cover and interior illustrations by Rafael Santos de Oliveira Printed in China
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SPEED READ SUPERCAR THE HISTORY, TECHNOLOGY AND DESIGN BEHIND THE WORLD’S MOST EXCITING CARS BASEM WASEF
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INTRODUCTION
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Mercedes-Benz 300 SL “Gullwing” Ferrari 250 GTO Ford GT40 Lamborghini Miura Ferrari 365 GTB/4 Daytona Lamborghini Countach LP400 Porsche 930 Turbo Carrera Ferruccio Lamborghini Glossary
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1980s RENAISSANCE
SECTION 3
SECTION 1
GROUNDBREAKERS
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SECTION 4
SECTION 2
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TECH REVOLUTION
EYE FOR DESIGN Dangerous Curves The Wedge Scoops, Ducts and Vents The Downforce Game Form Battles Function Biomimicry Incarnate Super SUVs Gordon Murray Glossary
Lamborghini Countach LP500S Porsche 959 Ferrari F40 Ferrari Testarossa Vector W8 BMW M1 Lotus Esprit Turbo Carroll Shelby Glossary
Engine Configurations Carbon Fiber Construction Turbocharging Carbon Ceramic Brakes Traction Control Active Aerodynamics Hybrid Powertrains Where the Rubber Meets the Road Gian Paolo Dallara Glossary
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Jaguar XJ220 McLaren F1 Porsche Carrera GT Ford GT Ferrari Enzo Lamborghini Aventador Bugatti Chiron Pagani Huayra Koenigsegg Agera RS Ferrari LaFerrari Porsche 918 Spyder McLaren P1 Enzo Ferrari Glossary
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SECTION 5
INDIE SPIRIT
MODERN MILESTONES 92 94 96 98 100 102 104 106 108 110 112 114 116 118
Gumpert SSC Hennessey Saleen Noble Cizeta Christian Von Koenigsegg Glossary
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INDEX
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SECTION 6
SACRED GROUND Modena Sant’Agata Bolognese Stuttgart Nardo Ehra-Leissen Nürburgring Nordschleife Ferdinand Piëch Glossary
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INTRODUCTION What makes a supercar super? The term is admittedly hyperbolic and liberally bandied about, but what truly warrants the weighty moniker? Is it the sweep of a silhouette? A top speed above 200 mph? Upward sweeping doors, an astronomic price tag, or maybe an excessive cylinder count? Arriving at a definition is not easy and has triggered countless debates. These pages attempt to decode the big-picture concepts, groundbreaking engineering, and imaginative designs that elevate supercars beyond more mundane forms of four-wheeled transportation. But a supercar is more than just its physical attributes; we must also consider the historical trends that define the genre, the tumultuous personalities behind these passion-driven projects, and the game-changing technology, much of which trickles down from the racing world, that enables such extraordinary performance. Historically, the term supercar emerged in 1920 in a newspaper advertisement for a sleek, big-engined cabriolet. But it didn’t enter the collective consciousness until decades later. Groundbreaking sports cars such as the 1954 Mercedes-Benz 300SL captured the imagination of enthusiasts everywhere with its shockingly cool gullwing doors and state-of-the-art, race-derived hardware, and in 1961 the Jaguar E-Type wowed the world with its slinky lines and lithesome athleticism, inspiring none other than Enzo Ferrari to decree it “The most beautiful car ever made.” But the most widely acknowledged instigator of the supercar trend was the Lamborghini Miura, a low-slung, V-12-powered curlicue of a car that debuted in 1966 and inspired enough shock and awe to earn it supreme status in the supercar pantheon. The Miura’s impact was so significant that Ferrari was forced to retaliate with the stirring Daytona. In a way, the seismic effect of the Lamborghini Miura captures the elusive essence of what makes a supercar. While it claimed gorgeous bodywork and a symphonious V-12 engine, its doors opened conventionally, and it famously couldn’t breach the mythical 200-mph threshold. Despite its incomplete matrix of qualifications, though, the Miura is widely considered the world’s first supercar. If anything, the idea of a supercar becomes nearly irrelevant because the word carries so much subjective emotional weight that it cannot be captured with one sweeping definition. It has even inspired “hypercar,” a spinoff term that attempts to express an even more superlative type of high-performance vehicle. I, for one, liken supercars to pornography: though pundits debate what it really means, you know it when you see it.
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SUPERCAR 7
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THE GROUNDBREAKERS Mercedes-Benz 300 SL “Gullwing” Ferrari 250 GTO Ford GT40 Lamborghini Miura Ferrari 365 GTB/4 Daytona Lamborghini Countach LP400 Porsche 930 Turbo Carrera Ferruccio Lamborghini Glossary
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THE GROUNDBREAKERS MERCEDES-BENZ 300 SL “GULLWING” FUN FACT The 300 SL suffered from awkward entry and exit due to the body’s thick door sills and a notoriously hot cabin thanks to copious glass and fixed windows.
HISTORICAL TIDBIT With only 1,400 300 SL coupes produced between 1954 and 1957, the model commands seven-figure values. Rarer still are the alloy-body models, of which only twenty-nine were built. Intended for competition and certified for racing, these special 300 SLs shaved off around 200 pounds .
KEY PERSON Chief Engineer Rudolf Uhlenhaut who made his inimitable mark on the car thanks to his background as a hands-on racing engineer, supervised legendary wins such as Stirling Moss’s record-setting 1955 Mille Miglia victory.
More than a decade before the wild Lamborghini Miura earned unofficial designation as the world’s first supercar, Mercedes-Benz pulled the curtain off the 300 SL, an elegant and outrageously capable machine that some argue was equally worthy of the superlative. While Mercedes road cars conventionally focused on stodgy German priorities such as engineering and safety, the 300 SL used the brand’s racing experience to bring an extra shot of performance to the road. The resulting two-seater offered a level of exoticism previously unseen in a production Mercedes, elevating the brand with a moonshot of functional and emotional panache. Key to the 300 SL’s identity are its trademark gullwing doors, which were developed as a packaging necessity, not a styling gimmick. The trick setup was employed because the car’s lightweight chassis, consisting of a complex lattice of alloy tubes, created unusually high side sills. Since a tiny door opening would have made cabin access all but impossible for normal-sized adults, the upwardly sweeping apertures offered a solution that was reasonably practical and entirely sexy. The Gullwing’s curvaceous body is unequivocally attractive, but virtually every aspect of its form is derived from function. For instance, the gentle “eyebrow” arches over the wheels aid aerodynamics, while the engine is canted 50 degrees on its side to facilitate a low center of gravity and a sleek hood line. The 3-liter, inline six-cylinder powerplant was the first to incorporate an advanced direct fuel injection system, enabling an output of 212 horsepower—nearly double that of the carbureted race car from which it was derived. Though tame by modern standards, the 300 SL had a combination of relatively high power and lightweight construction for the midcentury era that made it the fastest production car of its day. Costing over $7,000 new—a small fortune for the mid-1950s—the Gullwing’s notoriety came not only from its unprecedented doors and exceptional performance but for its many innovations. These inspired Sports Car Illustrated to proclaim, “Literally, the 300 SL is a car of the future that can be possessed today.”
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THE GROUNDBREAKERS FERRARI 250 GTO FUN FACT The signature styling feature of the Ferrari 250 GTO is its lengthy nose, which is tipped with distinctive air intakes. Due to production variances, the configuration of these intakes varied from car to car.
HISTORICAL TIDBIT Ferraris are archetypically red, but the most notorious 250 GTO was, in fact, green. Stirling Moss’s verdant GTO was built for him prior to his career-ending crash in 1962; it sold for $35 million in 2012.
KEY PERSON Enzo Ferrari was a famously mercurial leader, shifting his alliances at the drop of a hat. A notorious mutiny of key collaborators in 1962 (later known as “The Purge,” “The Palace Revolt,” or the “Ferrari Walkout”) turned the tables on Enzo with the departure of 250 GTO impresarios Giotto Bizzarini (who defected to Lamborghini) and Sergio Scaglietti.
If mystique and rarity are the measures of a supercar, the Ferrari GTO might just claim ultimate status among its peers. Short for Gran Turismo Omologato, the most famous GTO of all was originally intended as a homologation special to satisfy the Federation Internationale de L’automobile (FIA’s) requirement of building 100 street cars to qualify the model for competition. Enzo Ferrari only built 39 GTOs, allegedly skipping serial numbers and shifting locations of cars in order to elude FIA inspectors. The 250 GTO, at least initially, claimed a dream team of Italian masters behind the scenes: engineering development was led by the brilliant Giotto Bizzarrini, and the curvaceous bodywork was designed by the legendary Sergio Scaglietti and his team, who hand-hammered the aluminum body into shape using wooden forms called bucks. Virtually none of the first thirty-six cars produced between 1962 and 1964 were identical due to the vagaries of hand craftsmanship and constant modifications made to the vehicle’s setup. But they all featured a tubular steel frame and an uprated V-12 that was the stuff of legend: the 3.0-liter engine produced a bellowing 300 horsepower at a screaming 8,400 rpm (the 250 model nomenclature referred to the 250cc displaced by each individual cylinder, though three four-liter cars were built and referred to as 330 GTOs). Linked to a new five-speed synchromesh gearbox, the GTO was remarkably reliable for its time, which might have had something to do with its participation in more than five hundred races, where it scored victories in everything from outright victories in the Tour de France to class wins at the Targa Florio and Le Mans. Rarity and desirability have also played a key role in the 250 GTO’s stratospheric resale values: the GTO has become the holy grail for Ferrari collectors, breaking its own record in 2013 as history’s most expensive car with a sale price of $52 million.
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THE GROUNDBREAKERS FORD GT40 FUN FACT Though its official moniker was GT, Ford’s race car earned the “GT40” nickname because its roofline sat a mere 40.5 inches above ground. The street cars actually measured between 45 and 46 inches tall.
HISTORICAL TIDBIT Just over 100 road-going examples of the 1960s-era GTs were built, but Ford returned to the street in 2005. The carmaker revisited the GT yet again in 2017 with a homologation model whose race counterpart won its class at Le Mans in 2016 on the fiftieth anniversary of the GT’s original 1-2-3 Le Mans finish.
KEY PERSON After hiring Lola to build the first GT40s in 1964, Ford turned the project over to legendary tuner Carroll Shelby the following year, though it wasn’t until 1966 that the father of the Cobra scored Ford its long-awaited win at Le Mans.
Among the most epic automotive rivalries is the Ford/Ferrari feud of the 1960s, which spawned the creation of the Ford GT40. The contention began when, after expressing interest in selling his company to the Ford Motor Company, Enzo Ferrari balked upon learning that his cars would be banned from the Indianapolis 500 race to avoid competing against Ford’s Indy cars. Henry Ford II, outraged by Ferrari’s snub, responded by saying, “All right, if that’s the way he wants it, we’ll go out and whip his ass.” Ford plotted his revenge at the highest profile motorsports stage on the planet, the 24 Hours of Le Mans, in Sarthe, France. Because Ford had no experience in the highly specialized realm of endurance race cars, the manufacturer hired UK-based firm Lola to build the race car, dubbed the GT (for Grand Touring). While Ford delivered a strong debut effort at 1964’s Le Mans race, none of the three cars entered finished the race, with victory proving elusive again in ’65. History wasn’t made until the following year, when Ford handed team management duties over to Carroll Shelby, who helped secure a stunning 1-2-3 photo finish, the first American win at a major European race in four decades. The knife was further twisted on Ferrari when GT40s took Le Mans victories in 1967, 1968, and 1969. The low-slung, road-going GT40 was built to meet racing homologation requirements, and its race-developed underpinnings made it a wildly effusive alternative to its street-legal contemporaries. Kitted with a plethora of scoops and vents to manage airflow, the street-legal GT40—of which only 107 were made—was essentially a detuned, road-ready version of the race car. The GT40 was initially powered by a mid-mounted 289-cubic-inch V-8. Ford built 31 examples of the Mark I GT40 road car and a grand total of just over 100 street models, with later 427-cubic-inch models more closely resembling the rumbling hellraisers that won at Le Mans.
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SUPERCAR 15
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THE GROUNDBREAKERS LAMBORGHINI MIURA FUN FACT The Miura’s famous “eyelashes” grace the 474 original models and the subsequent 140 examples of the upgraded S models, but the rarer SV variants, of which only 120 were built, lacked the feature.
HISTORICAL TIDBIT The Lamborghini Miura’s most auspicious appearance came in the 1969 film The Italian Job, in which the supercar speeds through the Alps until it meets an untimely demise courtesy of the Mafia and is then pushed over a cliff by a bulldozer.
KEY PERSON While company founder Ferruccio Lamborghini deserves credit for spearheading production of the groundbreaking Miura, the car’s innovations could not have been possible without Gian Paolo Dallara’s engineering prowess, and Paolo Stanzani, who later became the brand’s technical director.
The dictionary entry for the word supercar might as well be accompanied by an illustration of the outlandish Lamborghini Miura, which is widely considered the first car to legitimately deserve the title. Debuting as a rolling chassis at the 1965 Turin Auto Show, the Miura claimed several unprecedented packaging innovations, most notably a midengine, rear-wheel-drive configuration featuring a transverse- (sideways-) mounted V-12. Built a mere three years after industrialist Ferruccio Lamborghini famously founded his company to spite Enzo Ferrari, the Miura was the follow-up to the elegantly understated 400 GT, boasting eccentric body curvatures and expressive eyelash-like headlamp accents. The extreme styling was a shock-and-awe salvo lobbed at Enzo’s expanding exotic car empire, as was the Miura’s 4.0-liter, 350-horsepower powerplant shoehorned into a car that tipped the scales at less than 3,000 pounds. Thanks to its favorable power-to-weight ratio, the slinky two-seater catapulted to a top speed of over 170 miles per hour. Though its handling was notoriously dodgy, especially at higher speeds where the nose was prone to lift as the fuel tank emptied, the Miura’s striking appearance and charismatic personality went a long way toward endearing it to royalty, rock stars, and bon vivants. The Miura’s complex engineering was masterminded by Gian Paolo Dallara, an alum of Ferrari and Maserati who would later go on to found Dallara Motorsports and is a successful race car builder still active to this day. But it was its twenty-five-year-old designer Marcello Gandini, working under the design house Gruppo Bertone, who endowed the Miura with its notorious styling. Widely considered not only the sexiest production car money could buy in its day, the Miura was also the fastest, a fact that helped earn Lamborghini the much-needed notoriety that eventually put the company on the map. Though Ferrari countered with the V-12-powered Daytona, a proper retaliation didn’t come until the 1973 debut of the flat-twelve-cylinder-powered 512 Berlinetta Boxer, Ferrari’s first mid engine production car.
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SUPERCAR 17
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THE GROUNDBREAKERS FERRARI 365 GTB/4 DAYTONA FUN FACT The Daytona has made numerous cameos in pop culture and cinema, but much of its lore stemmed from an appearance in 1971’s inaugural Cannonball Baker Sea-to-Shining-Sea Memorial Trophy Dash, also known as the Cannonball Run. Co-driven by event founder Brock Yates and racer Dan Gurney, the Daytona finished the cross-country contest in 35 hours, 54 minutes, achieving speeds of up to 172 mph.
HISTORICAL TIDBIT While the Daytona’s Pespexcovered headlights offered a sleek packaging solution, they didn’t meet US federal height requirements. Consequently, retractable headlamps were specially developed for the North American market.
KEY PERSON Much of the Daytona’s aesthetic and functional success can be credited to Sergio Pininfarina’s painstaking work at the Turin Polytechnic Institute’s wind tunnel.
The supercar arms race was unofficially ignited in 1966 by the Lamborghini Miura, and many considered the 1968 Ferrari 365 GTB/4 to be the answer to Lamborghini’s evocative two-seater despite the Ferrari’s stubborn adherence to a front-engine configuration. The 365 GTB/4 “Daytona,” nicknamed after the American race circuit where the carmaker enjoyed a 1-2-3 finish in 1967, took a different styling approach than its shorter and rounder predecessor, the 275 GTB/4. Featuring a larger 4.4-liter V-12 (the “365” refers to each cylinder’s displacement in cubic centimeters), the Daytona expanded its performance envelope with quicker acceleration and a (barely) Miura-beating top speed of 174 miles per hour. While Enzo Ferrari distrusted aerodynamics, suggesting that horsepower could make up for any drag-creating airflow issues, Daytona designer Sergio Pininfarina made several concessions to the wind tunnel, among them a smaller front air intake, headlights hidden behind a Perspex (transparent plastic) shield, and a swept-back, flush-fitting, double-curved windshield. The $20,000 Daytona was the most expensive new Ferrari to date, putting it on par with the Miura. While the Daytona’s front-engine layout lacked the panache of Lamborghini’s radical mid-engine V-12 setup, the long-nosed two-seater was still the fastest Ferrari to date. Its exemplary performance might explain why the faithful Tifosi snatched up 1,383 hardtop models, far eclipsing the 275 model’s 200 total units. The success of the Daytona coupe led to an open-air Spyder spinoff in 1969, which irked some purists since its aerodynamic drag erased much of the work that made the coupes so slippery. Only 122 Daytona Spyders were built, 96 of which were sold in the United States. Interestingly, the rarity of the factory-issued Spyder models inspired many coupe owners to convert their cars into droptops. Regardless of configuration, many die-hards consider the Daytona to be the last great Ferrari, though the 512 Berlinetta Boxer, Ferrari’s first mid-engine production sports car, renewed the debate when it debuted in 1973.
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SUPERCAR 19
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THE GROUNDBREAKERS LAMBORGHINI COUNTACH LP400 FUN FACT Though the later, heavily spoilered and wheel-flared Countach models earned the lion’s share of childhood poster real estate, the LP400’s narrow tires and minimal bodywork actually made it faster, with a top speed approaching the elusive 200-mile-per-hour mark.
HISTORICAL TIDBIT The LP400 was nicknamed “Periscopico” thanks to a small mirror that was installed in the LP500 prototype’s roof in order to aid rear visibility. The LP400S gained Hollywood notoriety by appearing in the film Smokey and the Bandit.
KEY PERSON Designer Marcello Gandini’s extreme talent became evident when he penned both the curvaceous Miura and the dramatic LP400. Coincidentally, Gandini was born within months of two other noted Italian designers: Giorgetto Giugiaro and Leonardo Fioravanti.
While the Lamborghini Miura wowed the world with its feminine lines, eyelash headlamps, and lavish curves, the Countach LP400 followed up with a decidedly abstract and modernist visual treatment consisting of copious trapezoids, ducts, and vents. Hiding the Miura’s 375-horsepower, 4.0-liter V-12 powertrain beneath its dramatically wedge-shaped silhouette, the LP400 was an entirely different beast from designer Marcello Gandini, one which eschewed its predecessor’s overt sexiness for something more alien and extreme. The look was so exaggerated that it inspired Nuccio Bertone, upon first seeing the prototype, to exclaim, “Countach!” The expression, uttered in the local Piedmontese dialect, was slang for a sense of astonishment, usually directed toward the opposite sex. The “LP” in LP400 stood for longitudinale posterior, signaling that the massive powerplant was positioned lengthwise, not sideways as in the Miura. This arrangement helped realize Ferruccio’s goal of reducing cabin noise, reflecting hints at a desire to make his spacecraft-like creations ever more usable in the real world. But fear not: the waist-high LP400 still had no shortage of otherworldly character to distinguish it from the crowd. Decked out with the brand’s first use of scissor-style doors, the early Countach was Lamborghini’s most overt expression of defiance to date of the supercar status quo. The LP400 also claimed more than its share of trick engineering, including a strong and stiff tubular chassis, alloy bodywork, and a gearbox that resided snugly between the two passengers. Only 157 LP400s were built by the factory, making this inaugural Countach the most desirable. Lamborghini followed up with the bulkier LP400 S, which featured massive fiberglass fender arches hiding fat Pirelli P7 tires. Though the most identifiable Countaches are the later big-fendered models, the LP400’s clean minimalism most strongly captures the imagination of the purists.
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THE GROUNDBREAKERS
PORSCHE 930 TURBO CARRERA FUN FACT The 930 Turbo Carrera’s flat-six engine displaced just 3.0 liters, but its turbocharger was capable of spinning 90,000 rpm. Thanks to the car’s lightweight construction, the first Turbo Carrera produced only 245 horsepower but was the world’s fastest production car.
HISTORICAL TIDBIT Turbocharging in the 1970s separated the proverbial men from the boys, branding sports cars such as the 930 with a virtual “Approach with Caution” sign. Turbocharging is now the rule due to its fuel-efficient operation. Most current Porsche models use the technology.
KEY PERSON Journalist Paul Frère was granted access to Porsche Chairman Dr. Ernst Fuhrmann’s personal Turbo Carrera and later gushed, “This Turbo Carrera certainly offers the finest blend of ultimate performance and refinement I have ever come across.”
Though the oil crisis and emissions crunch made the 1970s a mostly abysmal decade for supercars, the so-called malaise era was not without its bright spots. Witness, for instance, the Porsche 930 Turbo Carrera, an exotic whose punchy powerplant bucked the downsizing trend while packing enough unpredictable handling quirks to keep things more than a little interesting. Using Porsche’s 911 platform and based on the RSR race car, the turbocharged 930 model was introduced in the US market in 1976 with a then-shocking sticker price of $26,000. While the Porsche nameplate carried with it no shortage of racing cred (especially after the fearsome 917K scored the brand’s first victory at Le Mans in 1970), Porsche’s notoriously level-headed approach couldn’t compete with the raucous V-12s and outrageous styling of its Italian rivals. Instead, the brand focused on daring engineering and efficient packaging that made it a force to be reckoned with on the racetrack. The wide-hipped, whale tail–spoiler-equipped 930 Turbo Carrera was unlike any previous road-going Porsche, because it finally abandoned the brand’s left-brain thinking and dipped its toe into the pool of wretched excess. During an age when other carmakers resigned their performance models to smaller, naturally aspirated powerplants, the 930 went big, with a turbocharger forcing air into the engine to heighten acceleration. Not only was the turbo lag—that is, the pause between the time the throttle was pressed and turbo boost was produced—difficult to anticipate, early Turbo models suffered from trailing throttle oversteer, a trait that triggered a severe oversteer (and often, spinning) phenomenon if the driver lifted the gas pedal mid-corner. The Turbo’s tendency to swap ends earned it a reputation as a widowmaker and led many a spirited driver into guardrails and other obstacles. While the uninitiated may have deemed the Turbo Carrera too similar to its more commonplace 911 stablemates, enthusiasts knew it as the wild-eyed Porsche that could beat many an Italian exotic at the dragstrip and whose ragged-edge dynamics demanded respect.
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FERRUCCIO LAMBORGHINI The most notorious Taurus in the supercar industry was Ferruccio Lamborghini, an industrious enthusiast for all things fleet who built his empire around the leitmotif of bulls. Lamborghini’s agricultural origins exposed him to all manner of bovine specimens as a child, but his interests diverged towards the inner workings of farm equipment. Lamborghini’s mechanical aptitude eventually led him to capitalize on Italy’s postwar boom by opening a garage where he worked on cars, trucks, and tractors. It was there where he modified a Fiat 500, which he eventually campaigned in the 1948 Mille Miglia and crashed into a wall, spooking him away from racing for life. Lamborghini’s fortunes grew when he started a tractor business, whose success enabled him to outfit his garage with everything from a Mercedes-Benz 300SL Gullwing to a Jaguar E-Type. His purchase of a Ferrari 250GT, 250 SWB Berlinetta, and a 250GT 2+2 enraptured him with the prancing horse brand, which was based in nearby Modena. However, the brand’s frequent clutch failures and Enzo Ferrari’s dismissal of his complaints led Lamborghini to build a better mousetrap himself, first modifying the Ferraris and then entering the car business in 1963 by forming Automobili Lamborghini in Sant’Agata, Italy. “It’s very simple,” Lamborghini said. “In the past, I have bought some of the most famous Gran Turismo cars, and in each of these magnificent machines, I have found some faults. Too hot. Or uncomfortable. Or not sufficiently fast. Or not perfectly finished. Now I want to make a GT car without faults. Not a technical bomb. Very normal. Very conventional. But a perfect car. “ Lamborghini’s endeavors initiated with the elegant 350 GT and became wilder with each model (which was subsequently named after a bull), among them unforgettable extroverts such as the Miura, Countach, and LM002. Lamborghini ran his tractor business alongside his car-making venture, which exposed him to the vagaries and shifting fortunes of two tumultuous industries. Facing financial difficulty in 1974 on the heels of the oil crisis, Ferruccio sold his remaining stake in Automobili Lamborghini, shifting his attention to other business ventures before retiring to a 750-acre farm in Umbria to pursue hunting and winemaking. Though his company had more than its share of ups and downs, including brief ownership by the American Chrysler Company, Lamborghini would have no doubt been pleased with the more recent success of his brand, which is currently owned by the Volkswagen Group’s subsidiary, Audi.
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GLOSSARY DIRECT INJECTION: A more sophisticated form of fuel injection that involves spraying a high-pressure stream of gasoline directly into the combustion chamber, allowing more precise control of the combustion process.
FIA: Short for Fédération Internationale de l’Automobile, which serves as the governing body for all international automotive motorsports.
HOMOLOGATION: A set of guidelines in the racing world intended to regulate the rules of participation, as well as a minimum number of sales of equivalent road cars to the public. Homologation often helps trickle racing technology into road-going cars, while keeping the race cars relatable to fans.
MILLE MIGLIA: Italian for 1,000 miles, referring to an endurance race through Italy that was held on public roads from 1927 to 1957. The race saw feverish speeds by enthusiastic drivers, the most notorious of whom was Stirling Moss. Along with his navigator Denis “Jenks” Jenkinson, Moss set an average speed of 97.96 miles per hour over a 992-mile distance. The event is now held as a time-speed-distance event limited to pre-1957 cars.
NATURALLY ASPIRATED: A type of engine that does not use artificial means (i.e., turbocharging or supercharging) to force air into the engine.
OVERSTEER: A condition of vehicle dynamics in which the rear wheels slide, typically due to throttle-induced wheelspin, causing the vehicle to turn more than intended.
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SYNCHROMESH: A mechanism within manual transmission gearboxes that keeps gears from grinding by matching the cog speeds before they engage, or mesh.
TIFOSI: A term that describes Italian fans, which are often passionate in their support of a certain manufacturer—typically, Ferrari.
TURBOCHARGING: A means of extracting more power from an engine by using an exhaust-driven turbine to pump more air into the combustion chamber.
TUBE CHASSIS: A type of chassis that uses a complex network of tubes, usually steel or aluminum, to form a car’s body. Early supercars embraced this technique despite its labor-intensive assembly process because it enables construction that is both lightweight and strong.
WIND TUNNEL: A structure used to measure aerodynamic efficiency. This methodology became crucial in the supercar world because it helped refine key attributes, such as drag and high-speed stability.
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EYE FOR DESIGN Dangerous Curves The Wedge Scoops, Ducts and Vents The Downforce Game Form Battles Function Biomimicry Incarnate Super SUVs Gordon Murray Glossary
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EYE FOR DESIGN DANGEROUS CURVES FUN FACT Enzo Ferrari proclaimed, “Aerodynamics are for people who can’t build engines,” suggesting that horsepower trumps the ability to slip through the air. The reality is that aerodynamics is essential to speed.
HISTORICAL TIDBIT Sometimes it takes out-of-thebox engineering to overcome design challenges. For example: the 2010 Mercedes-AMG SLS was equipped with upward lifting doors. To ensure occupants could exit if the car landed on its roof, Mercedes engineers installed tiny explosives in the hinges to separate the door from the body in an emergency.
KEY PERSON British aerodynamicist Malcolm Sayer exploited the hazy intersection between form and function. Responsible for the Jaguar C-Type and E-Type bodies, Sayer used math and elliptical shapes to create a car’s ideal form, which managed to be both beautiful and efficient.
The early days of supercars were a free-spirited era when form ruled supreme over function. Empowered to dream up exuberantly expressive vehicles, stylists penned whimsical rolling sculptures that also happened to fly down the road. As a result, practical concerns such as comfort, handling, and high-speed stability often took a back seat to beauty. Those formative years were heavily influenced by the 1960s-era Lamborghini Miura, the car many credit for pioneering the supercar craze. Nary an inch of its decidedly feminine body could be faulted; from its just-so stance to its soothing proportions, the Miura exuded a physical presence informed by high design. However, those arbitrary aerodynamics also tended to lift the front end at high speeds, making it a handful for even experienced drivers. Though the Miura was capable of over 170 miles per hour, it would take a foolhardy soul to attempt such velocity. Not all was lost to impracticality, though. The Miura’s endearing “eyelashes” around its headlights doubled as air ducts, directing cooling air to the front brakes. For the most part, however, this exotic’s delicate curves and details suggested that anything could happen (be it skittish handling or spontaneous combustion), adding to both the car’s inherent allure and its intrinsic danger. Subsequent cars, such as the Ferrari 250 GTO and Shelby Cobra 427, came to define the bronze age of the supercar, though science and engineering—not to mention safety and government legislation—eventually crept into the equation, forming a dynamic tension between adrenalized absurdity and basic functionality. Advances in aerodynamics using wind tunnels (and later, fluid dynamics, or computerized simulations) put more control in the driver’s hands, enabling cars to travel faster with greater stability. Thanks to the eventual introduction of safety features such as crumple zones, fuel cells, and airbags, the inevitable exotic car wrecks would bruise egos more than they did bodies.
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EYE FOR DESIGN THE WEDGE FUN FACT Wedge designs typified 1970s supercars, but the movement eventually subsided as other designs gained popularity. One of the few manufacturers clinging to the wedge shape is Lamborghini, whose Aventador and Huracan models still adhere to the doorstop theme.
HISTORICAL TIDBIT While style-savvy Italians all but invented the wedge, the Germans offered their own functional twist. The Mercedes-Benz C-111 was introduced at the 1969 Frankfurt Motor Show and featured a fiberglass body, gullwing doors, and a rotary engine. The C-111 set numerous sustained top-speed and endurance records that went unbroken for decades.
KEY PERSON The undisputed godfather of the wedge is Marcello Gandini, who penned the Lamborghini Marzal, Alfa Romeo Carabo, Lamborghini Countach, and Lancia Stratos.
Of all the body shapes embraced by supercars, few exemplify the genre so crisply as the wedge. The mythology of the fastest, wildest, and most memorable cars is steeped in the wedge’s inherent attractiveness: Pointy at the nose and escalating in volume toward the rear, the wedge embodies a clean, angular form, slicing through air like a blade. Wedges evolved out of curvaceous 1960s-era supercars, whose forms seemed to reflect the experimental, boundary-busting spirit of the era. The subsequent linearity was a shock of the new—the prevailing organic shapes of the automotive world became stale, and the introduction of the sharp, “folded paper” aesthetic defied the preceding curves with striking modernity. The first noteworthy wedges emerged by the late 1960s in the form of competing Italian concept cars from the Bertone and Pininfarina design houses. Bertone unveiled the Lamborghini Marzal in 1967, a Marcello Gandini–designed concept whose shape would later inspire the Espada. The Alfa Romeo Carabo debuted at the 1968 Paris Motor Show and was as wedge-y as a space-age doorstop. Also designed by Gandini for Bertone, the Carabo sat 39 inches high and featured scissor doors (which would later appear on the Countach). The 1969 Turin Motor Show saw Pininfarina’s debut of the Ferrari 512S Berlinetta, penned by Filippo Sapino, who would go on to design the inspired 365 GTC/4. The following year, Paolo Martin’s wildly flush and linear Ferrari 512S Modulo broke new ground for Pininfarina with its futuristic silhouette, seemingly drawn with one line. Bertone’s salvo was the Lancia Stratos HF Zero, an even more outlandish take on the wedge that essentially consisted of a creased snout, a lifting hatch that revealed a cavity that doubled as a cockpit, and a chevroned engine cover that could have served as a Star Trek set piece. The rally-homologated 1973 Lancia Stratos HF grew directly from the Zero’s design, while the 1974 Lamborghini Countach LP400 elaborated on the theme established by the 1971 LP500 concept car. Other well-known wedges include the Lotus Esprit, De Tomaso Pantera, and Aston Martin Lagonda.
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EYE FOR DESIGN SCOOP, DUCTS AND VENTS FUN FACT NACA ducts are named after the National Advisory Committee for Aeronautics, and they were first developed to allow cool air into aircraft engines. The Ferrari F40 was one of the first road cars to use NACA ducts extensively.
HISTORICAL TIDBIT The first wind tunnel was invented and built by Francis Herbert Wenham in 1871, and it was developed for aeronautical use. It wasn’t until decades later that wind tunnels were dedicated to automotive usage.
KEY PERSON An army of aerodynamicists and engineers have been responsible for refining supercar design over the years, but that work would not have been possible without the principles established by Daniel Bernoulli. The Dutch-Swiss mathematician established Bernoulli’s Principle, an explanation for fluid flow dynamics that applies to aerodynamics.
To help achieve their seemingly supernatural performance targets, supercars are equipped with a symphony of mechanical systems that enable them to out-accelerate and out-corner more pedestrian counterparts. And while scoops, ducts, and vents look undeniably cool—enough to be mimicked in lesser cars that don’t necessarily need them—these small features play a crucial role in helping supercars achieve their performance potential. Aerodynamic elements such as tapering appeared as early as the 1920s, but specific lessons from the wind tunnel didn’t make their way into production cars until later. It wasn’t until the 1950s that aero technology inherited from race cars trickled down to street cars, and only in the late 1960s did some of the more stubborn manufacturers begin shaping their sheet metal to follow aerodynamics principles. When it comes to scoops, ducts, and vents, the name of the game is airflow—specifically, the management of air so it achieves the sometimes-contradictory functions of allowing air to reach the engine, gearbox, and brakes, while also allowing air to exit where necessary, all while slipping through the atmosphere as efficiently as possible. Because the powerful energy-dense engines powering supercars are prone to produce heat, cooling becomes another crucial consideration. Internal cooling is handled by liquid coolant, among other methods, while external cooling can be facilitated by outside airflow. Because drawing air into the body can disrupt airflow and cause drag, some carmakers use NACA ducts instead of simple inlets, because they interfere less with aerodynamics. However, NACA ducts suffer the side effect of reducing airflow rates when compared to more standard inlets. In addition to the intake of air into the body for cooling everything from engine radiators and oil coolers to brakes and transmissions, carmakers also engineer ways to extract air, which evacuates heat and can also dissipate turbulent air created by rotating wheels. Twenty-first-century supercars take these considerations a step further by actively closing ducts and vents for reduced drag or when cooling is not needed.
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EYE FOR DESIGN THE DOWNFORCE GAME FUN FACT Some modern Formula 1 cars produce so much downforce they are theoretically capable of driving upside down.
HISTORICAL TIDBIT While horsepower wars have dominated the modern supercar era, a downforce battle has emerged in recent years. The two are not entirely unrelated—having more power means automakers can sacrifice some speed for cornering grip. The current trend is to incorporate active aerodynamic features that impact drag and downforce only when needed.
KEY PERSON German professor, engineer, designer, and aerodynamicist Wunibald Kamm is best known for developing the Kammback or Kamm-tail, an abruptly finished rear end that dramatically reduced drag. Famous Kammback cars include the Ford GT40, the Ferrari 250 GTO, and the Shelby Daytona Cobra Coupe.
Supercar tuning is in a constant state of tension between downforce and outright speed. Downforce represents one pole of desire because it enhances handling; the more aerodynamic downforce is generated, the greater the grip (and therefore, the better the handling). On the other hand, downforce creates drag, which has the un-supercar-like side effect of slowing the vehicle. Early supercars were designed with little regard for downforce. As such, these beautiful brutes often had blistering acceleration, impressive top speeds, and the tendency to lose their grip on the road. Looking to the world of racing during the so-called “ground effects” era of the 1960s, the other extreme was also encountered: such absurd downforce that suspension systems strained to the point of failure, causing wishbones and control arms to snap and send cars spinning out of control. As supercars of the 1960s and beyond inherited spoilers, splitters, skirts, and diffusers from race cars, they not only benefited from the performance gains of these devices, they also assumed their butch, no-nonsense looks. The badassery of this bodywork reflected its function, but it wasn’t long before the race-derived hardware found on automotive exotica trickled down to more attainable performance cars and even passenger cars. As with the balancing act between ducting air into the body for cooling and minimizing turbulence and drag, the tuning of downforce is often a push/pull between opposing results. Creating an optimal setup biased toward top speed can make for a car that feels skittish the faster it goes; likewise, too much downforce can sacrifice acceleration and top speed—prime bragging points for supercars—as well as put undue strain on suspension components, which will then require heavier construction. The development of active spoilers and flaps, which activate based on speed-calculated algorithms, goes a long way toward ensuring that optimal downforce keeps the vehicle in control without excessively hampering velocity.
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EYE FOR DESIGN FORM BATTLES FUNCTION FUN FACT Fitted luggage is a curious point of commonality among supercar brands. From bespoke leather bags to modern carbon-fiber briefcases, fitted luggage rationalizes a supercar’s packaging constraints.
HISTORICAL TIDBIT Scissor doors have been a supercar component since the 1970s. Over time, this feature has evolved to offer more convenience. For instance, McLaren’s dihedral doors open outward to ease cabin entry; the 720S improves upon that design with a section of roof that lifts away as part of the door.
KEY PERSON Volkswagen’s Audi Group acquired Lamborghini in 2008. Since then, Audi has transformed the very Italian Lamborghini from a loose, temperamental carmaker to an industry force. Much of the sense of organization came from Stephan Winkelmann, who led the company for eleven years before heading Audi Sport and Bugatti.
Extraordinarily fast, visually arresting cars have rarely been engineered for workaday features such as cargo capacity or fuel economy. But a decades-long trend has gradually seen supercars evolve from unreliable single-purpose exercises in impracticality to surprisingly comfortable, capable, and versatile machines. The era of carburetion and curves—think AC Cobra and Ferrari 275 GTB—witnessed the supercar as an exercise in compromise. Driving an early supercar often meant your steed was obnoxiously loud, unhappy at low speeds, and temperamental. As carburetors evolved into fuel injection and suspension systems became able to automatically soften or stiffen their damping, drivability improved dramatically. Hardware and engineering advances inherited from racing also improved the breed, enhancing durability and reliability. While complex tube chassis went the way of the dinosaur, unibody construction increased cabin volume, enabling stiffer structures that facilitate both smoother rides and more responsive handling. As the livability of supercars continues to improve, carmakers feel increasing pressure to differentiate their offerings in the face of stiff competition. If a car’s performance is comparable to that of its competitors, would-be buyers are likelier to choose their next ride based on differentiators such as design and exclusivity. Also more crucial during the modern era are mechano-emotional elements such as exhaust sounds, engine configurations, and that ever-elusive x factor of driving feedback. With each manufacturer bringing its own unique set of characteristics to the table— be it technology, country of origin, or race heritage—the landscape is in a constant state of flux. Brands are faced with the challenge of staying true to their heritage while achieving ever-higher performance targets. The technologies that enable an ever more comfortable and safe driving experience also threaten to diminish its excitement—is a supercar super if it is comfortable and quiet enough to serve as a grocery getter?
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EYE FOR DESIGN BIOMIMICRY INCARNATE FUN FACT McLaren Automotive is one of the more ardent promoters of biomimicry. To poke fun at themselves, the PR team published an April Fool’s post in 2017 about a special model covered in bird feathers, “further reducing drag by delaying the transition from a laminar to turbulent boundary of air.”
HISTORICAL TIDBIT Biomimicry goes as far back as da Vinci’s attempts to replicate flight using giant flapping wings. But the trend didn’t take hold in the automotive world until the 1930s when streamlined cars such as the Chrysler Airflow attempted to cheat the wind.
KEY PERSON One of the most outspoken champions of biomimicry has been Frank Stephenson, McLaren Automotive’s former design director. “Every day I’m doing research in my office, it looks like I’m studying biology rather than car design,” Stephenson once said.
From honeycomb patterns in composite structures to spoilers that echo the shapes of bird wings, modern supercars borrow countless cues from nature in pursuit of greater efficiency and speed. The practice dates to the 1930s, when teardrop-shaped cars sought to cheat the wind. Today’s designers and engineers take a far more targeted approach, examining everything from micro bends and contours of wing shapes to microscopic patterns in fish scales. While supercar designers of the 1950s and 1960s seemed intent on personifying their creations with anthropomorphic “faces” and curvy bodies that closely resembled the female form, it wasn’t until the widespread reliance on wind-tunnel data (and later, computational fluid analysis) that the benefits of biomimicry became explicitly clear. The practice of borrowing from nature isn’t unique to automobiles; witness the proliferation of winglets, the small projections on the tips of aircraft wings, which was inspired by the way the wing tips on birds of prey fold up in order to reduce drag. Biomimicry can also be found in disciplines ranging from aircraft design to architecture. Most of today’s work in biomimicry is aimed at increasing aerodynamic efficiency, reducing wind noise, and efficiently diverting airflow. Consider, for instance, the five small bumps on McLaren’s mirror stalks: inspired by the fast-moving sailfish, they divert enough airflow to considerably reduce cabin noise. Applying that same creature’s scale texture to the engine intake ducts of their P1 enabled 17 percent more air to enter the combustion chamber. If concept cars are any indication of the future of biomimicry, brace yourself for advanced ideas such as shapeshifting body panels, which anticipate high speeds by tucking into a sleeker shape.
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EYE FOR DESIGN SUPER SUVs FUN FACT Critics taking aim at the Urus, Lamborghini’s sophomore effort at the SSUV genre, will struggle finding fault in its performance; the 189-mph Urus is capable of catapulting from 0 to 62 mph in 3.6 seconds, which is quicker than the Gallardo, Lamborghini’s previous generation entry-level supercar.
HISTORICAL TIDBIT The Lamborghini LM002’s roots as a military concept informed its stripped-down styling, but its “Rambo Lambo” nickname stemmed from LM002 owner Sylvester Stallone, who starred in the Rambo action films.
KEY PERSON Ferrari has resisted venturing outside the supercar genre, but CEO Sergio Marchionne marked a dramatic break from tradition by finally admitting the brand is working on an SSUV. “By definition it’s going to drive like a Ferrari, it has to,” Marchionne says of the impending Super SUV.
Supercars are usually exactly that—cars. But the emergence of the socalled Super SUV (SSUV)—high-riding, plus-sized vehicles with exceptional performance and luxury—flips that convention on its head. The SSUV came on the heels of the meteoric rise of sport utility vehicles in the early 2000s. As premium SUV sales eclipsed those of sedans, brands such as Range Rover capitalized on the trend with bespoke offerings whose interiors rivaled those of tony British brands, such as Rolls-Royce. The commercial viability of this growing niche was paved by the Porsche Cayenne, whose 2003 introduction initially infuriated brand fanboys. The Cayenne proved its mettle by eclipsing the sales of Porsche’s venerable 911, and quite possibly saving that flagship model from extinction. In 2015, Bentley introduced the Bentayga SUV, a twelve-cylinder, 187-mph ultraluxury vehicle whose blend of performance and plushness surprised critics; Lamborghini followed suit with the debut of the Urus, their own 641-horsepower incarnation of a supercar on stilts. Though SSUVs have entered the enthusiast consciousness relatively recently, ground zero for the genre can be traced back to 1977, when Lamborghini built the Cheetah, a rear-engine military-vehicle prototype that failed to win a government contract and nearly bankrupted the company. Another offroad Lamborghini concept dubbed the LM001 debuted in 1981, but it wasn’t until 1986 that Lamborghini’s first production SSUV appeared at the Brussels Motor Show, the LM002. The shockingly angular vehicle embodied excess. With a hulking Countach V-12 engine housed under its domed hood, the three-ton monster combined menacing, post-apocalyptic styling with brawny performance and a leather-swathed interior. Only 300 LM002s were built between 1986 and 1992, putting a nail in the SSUV coffin until the genre’s 21st century renaissance. Posh brands such as Aston Martin and Rolls-Royce now have Super SUVs in the works, as does Ferrari, putting pressure on early adopters with a prancing horse interpretation of the SSUV paradigm.
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GORDON MURRAY Gordon Murray is the father of the McLaren F1, widely considered one of the greatest supercars of all time. Murray’s expansive career began as a chief designer for Brabham’s Formula 1 team in 1969, a formative time for the industry that enabled him to push the boundaries of motorsport engineering. By designing cars such as the BT55, which managed to achieve high downforce with minimal drag, Murray put himself on the bleeding edge of the sport’s considerable talent pool. His experience working for McLaren’s F1 team between 1987 and 1991 fueled racing phenom Ayrton Senna’s meteoric rise to fame, not to mention teammate and rival Alain Prost’s success. After contributing to four back-to-back Constructor and Driver championships for McLaren, Murray leapt to lead design for McLaren’s upstart road car business, McLaren Cars. His first project, the McLaren F1, was a no-holds-barred attempt to build the ultimate road-going supercar. The first production car with a carbon-fiber monocoque construction, the F1 weighed 2,244 pounds—about as much as a wispy Mazda Miata—but was powered by a monstrous 6.1-liter V-12 powerplant that produced 618 horsepower. No expense was spared in making the F1 exceptional. Gold foil was chosen to insulate the engine, Kevlar fans helped generate downforce, and a plethora of advanced hardware enabled staggering performance numbers: 0 to 60 miles per hour in 3.2 seconds and a record-busting top speed of 240 miles per hour. The F1 only saw 107 total cars produced (71 as road cars), and though its asking price when new was a then-scandalous $815,000, the most recent publicly sold car traded hands for $15,620,000. Following the F1, Murray worked on the Mercedes-Benz SLR McLaren, a supercar in its own right but one whose collaboration between Mercedes-Benz and McLaren resulted in some inevitable compromises. The long view revealed that the SLR would never claim the legendary status of the F1. Murray founded his own independent consultant business in 2007, later taking on such diverse projects as an ultra-efficient city car and an ultra-lightweight two-seat performance car.
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GLOSSARY AERODYNAMICS: The study of airflow and its interaction with objects. In the case of vehicles, aerodynamics reflects how much energy it takes a car to cut through air and the relative stability of that car at speed based on the balance of downforce.
BERNOULLI’S PRINCIPLE: Identified by Swiss mathematician Daniel Bernoulli, this theorem outlines how faster moving air results in lower pressure. The phenomenon explains why a wing produces lift and how a vehicle’s bodywork can create areas of downforce.
BIOMIMICRY: The incorporation of features found in nature or animals into the design or structure of inanimate objects.
COEFFICIENT OF DRAG: A measure of how much resistance an object encounters while moving through space due to its size, shape, and airflow characteristics.
COMPUTATIONAL FLUID DYNAMICS: A branch of computer simulation that replicates a wind tunnel by treating the movement of air molecules as fluids. Computer simulations have come to replace many of the hours previously spent in physical wind tunnels.
DIFFUSER: A ribbed tray or structure, usually placed at the tail of a vehicle, designed to accelerate airflow beneath a car in order to form a zone of negative pressure that creates downforce.
FLAP: A small, paddle-like wing that can be fixed or actively moved in order to manipulate airflow. The GURNEY FLAP, developed by American racer Dan Gurney, is an airfoil added to the trailing end of a wing that aids its performance by enhancing airflow and suction to the wing.
DOWNFORCE: The downward force exerted on a vehicle as it moves. Downforce can help a vehicle travel faster through corners, but the turbulence created by downforce can reduce acceleration and top speed.
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KAMMBACK: A body style, named after Wunibald Kamm, in which the tail ends with an abrupt edge. The aerodynamic profile created by the shape reduces drag.
SKIRT: A boundary on the edges of a vehicle that contains air as it passes below to maintain a low-pressure boundary, helping suck the car down and create downforce.
SPLITTER: A horizontal extension at the nose of the vehicle intended to “split” the air, sending high pressure above in order to produce downforce.
SPOILER: A flap that “spoils” or disrupts airflow to prevent aerodynamic lift. Spoilers are not to be confused with wings, which exist to create downforce.
UNIBODY: A chassis structure that uses a unified or one-piece body/frame. Unibody vehicles tend to be structurally stiff and less complex than tubular chassis.
VENTS: Openings in a vehicle’s body that enable the evacuation of air, be it for airflow or heat dissipation.
WING: An airfoil-shaped structure that creates downforce by deflecting airflow upwards. Wings on cars act the opposite way they do on aircraft because they create downforce by being mounted upside down.
WIND TUNNEL: A structure that measures aerodynamic drag and lift by sending airflow past a static vehicle.
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1980s RENAISSANCE Lamborghini Countach LP500S Porsche 959 Ferrari F40 Ferrari Testarossa Vector W8 BMW M1 Lotus Esprit Turbo Carroll Shelby Glossary
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1980s RENAISSANCE
LAMBORGHINI COUNTACH LP500S FUN FACT Lamborghini explored increased horsepower by commissioning two LP500Ss with turbocharged powerplants. The experiment never took off, and only one of the two concept cars remains.
HISTORICAL TIDBIT One of the Countach’s most identifiable design features was its massive spoiler, which further amplified the car’s already brash presence. Originally commissioned by F1 team owner Walter Wolf, the so-called Wolf Spoiler actually slowed the car down.
KEY PERSON CEO Ferruccio Lamborghini received most of the glory for creations such as the Countach, but the car couldn’t have come alive without the engineering of Paolo Stanzani and Massimo Perenti, and company pioneers such as Gion Paolo Dallara, Giotto Bizzarrini, and Bob Wallace.
In 1974, the original Lamborghini Countach LP400 wowed the world with its insectoid profile and improbable geometry, but the scissor-doored beauty didn’t hit its peak excess until the 1980s, a decade that required the Italian manufacturer to step up its game to play hardball with the burgeoning competition. While the earlier LP400S model added hulking fiberglass fender flares and fatter tires (which gave the Countach its signature muscular stance and improved handling), the 365-horsepower variant was actually slower than the preceding model—not very super, for those keeping score at home. It wasn’t until the LP500S came along in 1982 that the bad-boy supercar was endowed with the gruntier 4,754cc V-12, which once again lit a fire with archenemy Ferrari. While the flared fenders boosted its street cred, the LP500S’s uprated performance was key to cementing Lamborghini’s reputation in the supercar microcosm. Despite the new model’s heavier weight, the V-12’s 375 horsepower and 302 lb-ft of torque paved the way for the ultimate Countach, the LP5000 QV (or Quattrovalvole), a 455-horsepower screamer whose brutal performance finally matched its otherworldly looks. Also, commensurate with the overstated styling are its driving dynamics: a lack of power-assist steering and a notoriously heavy clutch made the Countach a handful to maneuver at slow speeds, and pleasurably painful to drive fast. Its low-slung layout proved unfriendly to real-world conditions, with limited rear visibility forcing drivers to resort to the tried-and-true method of swinging up the scissor door, sitting on the doorsill, and looking over your shoulder while backing into a parking spot. Though purists invariably prefer the cleaner lines of earlier models, the fat-fendered, big-winged later variants are what became the stuff of childhood posters and celluloid dreams. It is that oversized persona and larger-than-life presence that makes the Countach among the most quintessential of supercars.
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1980s RENAISSANCE PORSCHE 959
FUN FACT The 959’s shifter incorporates a gear before first that’s denoted by a G, which is short for gelände (the German word for “terrain”). The special cog is a shortened gear that’s available for drivers who need to crawl across rugged terrain.
HISTORICAL TIDBIT The 959 was never officially homologated for the US market, which led Microsoft magnate Bill Gates’s imported 959 to be impounded for thirteen years. It wasn’t until he and other enthusiasts such as Jerry Seinfeld lobbied the government that a special “Show or Display” exemption allowed “grey market” cars, such as the 959, to be legally in the United States under specific conditions.
KEY PERSON Though Porsche CEO Peter Shutz championed the 959, Professor Helmet Bott was the mastermind behind the mechanical guts of the mind-bogglingly complex car.
While most 1980s-era supercars gained notoriety through wild styling and crackpot charisma, the Porsche 959 earned its infamy with rigorous engineering and Teutonic values. Based loosely on the brand’s decades-old 911 platform, the initial iteration of the 959 was first seen at 1983’s Frankfurt Motor Show and referred to as “Gruppe B,” the rally car competition class dominated by no-holds-barred monsters, such as the Audi Quattro S1 and the Ferrari 288 GTO. Group B racing required the production of at least 200 road-going examples. Though it bore a passing resemblance to the 911’s silhouette, the 959’s Kevlar and aluminum bodywork wrapped around dramatically re-engineered hardware. The 911’s air-cooled flat-six was replaced with a high-output 450-horsepower engine that featured liquid-cooled heads and the first sequential turbocharger system. The powerplant mated to a sixspeed manual gearbox, driving power through all four wheels via a sophisticated new electronic all-wheel-drive system, which used torque vectoring for sharp cornering. Also aiding handling was a complex active suspension system with user-adjustable ride height and stiffness, which made the 959 versatile enough to be driven on or off paved surfaces. Among the 959’s many innovative details were hollow-spoke magnesium wheels, which held air along with the tires, and the world’s first usage of run-flat tires. The first trial for these underpinnings came with the so-called 953, which was used as a development test bed for the 959. Tackling the Dakar Rally, a grueling 7,500-mile race through Africa, the 953 performed flawlessly, finishing in first place—a staggering achievement. The platform’s versatility was later proved in 1986 when the 961, a road race–based 959 variant, competed at the 24 Hours of Le Mans and finished first in its class and seventh overall. With only 337 examples produced, history views the 959 as a rare and exceptional vehicle whose performance benchmarks inspired Ferrari to retaliate with the F40.
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1980s RENAISSANCE FERRARI F40
FUN FACT All Ferrari F40s came from the factory painted in rosso corsa (red), though rumor has it a small handful escaped in different hues.
HISTORICAL TIDBIT The Ferrari F40 was the first car to officially break the 200-mile-per-hour barrier (with an official top speed of 201 miles per hour), though magazines had a tough time achieving that figure themselves with independent testing: Car and Driver hit 197, while Road & Track could only muster 196.
KEY PERSON The F40 was the last car to receive Enzo Ferrari’s official stamp of approval, and il Commendatore died at the age of ninety on August 14, 1988, the same year the F40 hit the market.
You’d never guess the acutely styled Ferrari F40 evolved from the Coke bottle-shaped 288 GTO Group B car, but the beast unveiled on July 21, 1987 was more than just a stunning new model. The F40 commemorated the brand’s fortieth anniversary and became the most important road-going Ferrari of its time. As the last car approved by Enzo Ferrari, the F40 marked the end of a momentous era. Extensive development work went into making it the fastest, most powerful contemporary Ferrari. The F40 went from concept to finished product in a mere twelve months because it was intended as a rapid response to Porsche’s 959. While the 959 was a technical tour de force, the F40 was raw and brutal—a race car for the road. Weighing just over 3,000 pounds, the F40 utilized composite structures bonded to a tubular steel chassis and a total of eleven carbon/Kevlar composite body panels. Key to the F40’s design was a severely sloped nose, which reduced its frontal area for less drag. Its track-focused capabilities were punctuated by a massive spoiler. Creature comforts were spared to fulfill its mission as a relentlessly focused performer: the cabin was devoid of leather, door panels, carpeting, and a glove box. The first fifty cars had sliding Lexan windows, while later iterations used hand cranks. The extreme weight saving was complemented by a twin-turbocharged 2.9-liter V-8 that produced 471 horsepower and enabled an unprecedented 0–60-mile-per-hour time of 3.8 seconds, which beat its tech-laden nemesis, Porsche’s 959. Acceleration figures depended largely on driver skill, of course, since gearshifts were through the notoriously tricky gated Ferrari shifter. The F40, produced between 1987 and 1992, represented the pinnacle of the brand’s road cars and a towering monument to Enzo Ferrari’s four decades of dominion. With a then-staggering $400,000 entry cost and an initial promise of only 450 models, dealer markups inflated the price to nearly double. Production was later expanded to 1,311 examples to satisfy more of the brand’s most loyal fanatics.
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1980s RENAISSANCE FERRARI TESTAROSSA
FUN FACT The Testarossa’s striking strakes were more than just a pretty styling cue. They were Pininfarina’s way of appeasing international vehicle regulations, which limited the aperture size of air intakes.
HISTORICAL TIDBIT Many chop shops offered aftermarket convertible Testarossa conversions, but the only factory-built ragtop was a silver one-off commissioned by Fiat boss Gianni Agnelli
KEY PERSON While company boss Enzo Ferrari had an influential hand across countless models, the Testarossa’s success is often attributed to its memorable styling, which flowed from the pen of designer Sergio Pininfarina.
If the late-80s era Ferrari F40 was the emotional response to the technologically rational Porsche 959, the introduction of the Testarossa in 1984 played a reversed role to its nemesis the Countach, offering a refined retort to Lamborghini’s outrageous bull. The Testarossa (“redhead” in Italian) inherited its name from the curvaceous, 1950s-era racer, the 250 Testa Rossa. A follow-up to Ferrari’s first twelve-cylinder midengine car, the Berlinetta Boxer (BB 512), the new model introduced excessive 1980s styling and lavish proportions—particularly its expansive 1,976-millimeter width, which made it the broadest road-going Ferrari for the better part of three decades. Though the Testarossa’s signature side strakes appeared decorative, they hid twin radiators that cooled a redheaded 4.9-liter flat-twelve-cylinder powerplant. It was more powerful than the 352-horsepower Berlinetta Boxer it evolved from, but the new car’s more efficient packaging also made it a modern exotic that was far more livable, with decent visibility, a relatively well-insulated cabin, and effective air conditioning. Producing 385 horsepower in its earliest iteration, the Testarossa’s engine played yang to the Countach’s brutalist yin, a melodious response to the Lamborghini’s raucous call. Also harmonious were the Testarossa’s driving dynamics, which offered a manageable ride and more predictable handling. A spacious cabin delivered greater comfort and more overall usability, making the Testarossa one of the first functional supercars of its era. Later iterations included 1992’s 512TR, which offered handling refinements and a power boost to 428 horsepower, and 1994’s 512M (denoting modificato), a 440-horsepower evolution of the breed that served as the swan song for the flat-twelve powerplant. With steep initial demand leading to elevated pricing, the Testarossa proved an outright success during its twelve-year production run, eventually selling a total of 7,177 cars—a rather large figure for a supercar that reveals the Testarossa’s all but universal aesthetic appeal.
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1980s RENAISSANCE VECTOR W8
FUN FACT Tennis star Andre Agassi bought an early version of the car and promised not to drive it because it had not yet been tested for emissions compliance. When the car overheated, he insisted the company buy the car back for its $400,000 purchase price.
HISTORICAL TIDBIT MegaTech, the Indonesian company that once owned Lamborghini, acquired Vector in 1993. It repackaged the Lamborghini Diablo into the M12 model but sold only a dozen or so units before the brand shuttered.
KEY PERSON Inventor and entrepreneur Jerry Wiegert was the impetus behind Vector. He regained control of Vector in 2008 before announcing development of a new 1,800-horsepower supercar. The car remains undeveloped, but Weigert is still spotted on LA freeways driving his personal Vector W8.
On the heels of the 1980s maelstrom of headline-grabbing supercars hailing from the world’s most iconic manufacturers, the Vector W8 emerged as an outsider armed with futuristic styling and powered by American muscle. The brainchild of former Detroit auto executive Jerry Wiegert, the W8 made attention-grabbing performance claims under the guise of aerospace-inspired engineering. Built in Wilmington, California, the W8 featured a GM-sourced, twin-turbocharged 6.0-liter V-8 that produced a stout 650 horsepower and 650 lb-ft of torque, numbers which far outclassed the day’s top machines from Ferrari and Lamborghini. That powerplant was good for a claimed 0–60-mile-per-hour time of 4.2 seconds and an estimated top speed of 218 miles per hour, remarkable figures that eclipsed the achievements of established supercars. The W8 itself was a construction marvel, featuring an aggressive wedge-shaped body wrapped around a carbon fiber, Kevlar, and fiberglass body. The cabin was upholstered copiously in leather and suede, while the dashboard’s small buttons and electroluminescent displays more closely resembled a fighter jet cockpit than a high-dollar sports car. But the Vector’s Achilles heel was its modified, GM Turbo Hydramatic-sourced threespeed automatic gearbox. In an age when the most cutting-edge exotics were sporting five and even six-speed manual transmissions, the Vector’s three-speed served as a curiously antiquated weak link in an otherwise forward-thinking car. Only nineteen Vector W8s were produced, with production tapering off when the price escalated from an already considerable $250,000 to a downright ludicrous $400,000. As with most automotive upstarts, Vector eventually went the way of the dinosaur.
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1980s RENAISSANCE BMW M1
FUN FACT The M1 was BMW’s first serially produced midengine car, and it took another thirty-six years for the manufacturer to produce its next midengine model, the i8 plug-in hybrid.
HISTORICAL TIDBIT Producing the M1 involved no fewer than five production entities, from two Italian chassis and body firms to German companies that were responsible for powertrain installation.
KEY PERSON The M1 was spearheaded by Jochen Neerpasch, the then-head of the manufacturer’s motorsports division. Neerpasch’s vision dictated the M1’s midengine configuration, though his original plans fell victim to logistical challenges.
BMW’s aspirations to join the supercar club were realized with the M1, an elegantly sculpted two-seater. Whether the M1 qualifies for the realm of true supercars or merely high-priced exotics is open for debate, but the M1 was originally conceived in 1975 as a contender for the Group 4/5 World Championship race series, a venue that might have afforded BMW to take a credible stab at Porsche. Unlike most German endeavors, the M1’s path to production turned out to be ill-timed and poorly executed. BMW’s plan to build 800 road-going examples far exceeded the minimum homologation requirements of 400 vehicles, a number that turned out to be overly ambitious given BMW’s internal production capacity. The subsequent plan was to subcontract the project to an external manufacturer. Initial intentions to outsource manufacturing to Lamborghini fell apart over quality control concerns and the Italian brand’s impending insolvency. BMW resorted to a circuitous and needlessly complex manufacturing chain that involved several suppliers across more than one continent. By the time this labyrinthine process was completed, Group 5 homologation requirements had changed, leaving BMW with a vehicle built to a defunct specification. With a completed car ready to race but no series to run it in, BMW decided to set up its own: Procar, a championship that worked in association with the top tier of automotive racing, Formula One. While legends such as Niki Lauda and Nelson Piquet won titles in 1979 and 1980, the M1 also garnered negative press due to its burgeoning reputation for engine problems. The model competed at Le Mans between 1980 and 1986, though it proved outdated amongst a field of ever more competitive models. The street-going M1 was expensive for the time at around $55,000, and only 399 road cars and 54 race machines were built. However, future BMW models, such as the E28 M5 and M635CSi, would benefit by inheriting its 273-horsepower inline-six powerplant. As with many things in life, absence has made collector’s hearts grow fonder, with a renewed interest in the M1 driving up resale values considerably.
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1980s RENAISSANCE LOTUS ESPRIT TURBO
FUN FACT Lotus chassis guru Roger Becker stepped in during the filming of The Spy Who Loved Me to pilot the Esprit Series 1 when stunt drivers couldn’t get the car to perform as needed.
HISTORICAL TIDBIT The Esprit earned global notoriety when a Series 1 car was featured in 1977’s The Spy Who Loved Me, the James Bond film in which the car transformed into a submarine. The white Series 1 car from the film was purchased by rocket and electric car impresario Elon Musk in 2013. A 1981 Esprit Turbo was also featured in For Your Eyes Only.
KEY PERSON Lotus founder Colin Chapman was a notorious advocate for “simplifying and adding lightness,” a maxim that saw great dividends with the Esprit, which enjoyed a lengthy production run from 1976 to 2004.
Of all the four-wheeled wedges to populate the supercar universe, the Lotus Esprit might have been the most improbable. While the British manufacturer certainly had the chops thanks to its countless innovations within the world of Formula 1 racing, the Esprit began life in 1976 as a small, meagerly powered four-cylinder car—hardly supercar material. It wasn’t until the advent of a later, turbocharged iteration of the Series 2 model in 1980 that the Esprit came into its own as a viable contender against bigger, wilder styled, and more powerful competitors. Key to the Esprit’s David-like ability to battle Goliaths was its potent power-to-weight ratio, which took full advantage of its Lilliputian size and enabled responsive handling and blistering acceleration. By using special manifolds and high-pressure Garrett T3 turbochargers, the tiny 2.2-liter four-cylinder delivered lively throttle response and 210 horsepower, enough to sprint as quickly as some Ferraris; later iterations produced enough grunt to outrun the high-dollar, hyper exotic competition from Italy. Though the small, turbocharged engine packed within the engine bay of the Giugiaro-designed body became a signature of the Esprit, later reaching its zenith with 1995’s 302-horsepower Sport 300 model, the Esprit’s final Series 4 iteration saw a twin-turbocharged 3.5-liter V-8 that produced 264 horsepower. Added power and increased reliability made the S4 models desirable, but many hold the earlier turbocharged four-cylinder Esprits in the highest esteem, praising their so-called “folded paper” designs and minimalist executions.
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CARROLL SHELBY Though Carroll Hall Shelby earned a lifetime of notoriety for his work in the racing and muscle car worlds, his early endeavors as an oil roughneck and chicken farmer signaled personality traits that would define his groundbreaking accomplishments later in life. Shelby’s automotive endeavors launched with his racing career, which took him from driving diminutive Allards to racing for Aston Martin and Maserati factory teams in the 1950s. Though his successes led him from the Bonneville Salt Flats to Le Mans, a bad heart took him out of competition and forced him into his defining role as the founder of Shelby-American. He became a supercar legend by outfitting the British AC Ace with American V-8 powerplants to create the legendary Shelby Cobra. Wishing to take on fearsome Ferraris in higher speed endurance races, he and designer Pete Brock conceived the Shelby Daytona Cobra Coupe, of which only five were built. The racing success and rarity of these coupes have pushed their values to astronomic levels. Among Shelby’s more memorable collaborations was his work with the Ford Motor Company to create the Ford GT race car and eventually pull off a stunning 1-2-3 finish at the 24 Hours of Le Mans in 1966, vanquishing archenemy Ferrari in the process. Shelby would later collaborate with Ford on iconic special edition cars, such as the GT350R and the GT500KR. Though he ventured to build the Series 1, his own ground-up sports car, Shelby’s most notorious creations were the ones in which he used his knowhow and pluck to concoct memorable performance cars capable of beating the world’s most fearsome competition.
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GLOSSARY CARBON FIBER: A strong, lightweight material used in the construction of high-performance automobiles. Up to five times stronger than steel, carbon requires a labor-intensive bonding and curing process to ensure proper structural integrity. Its usage originated in the aerospace industry and was quickly adopted by Formula 1 race constructors. Today, carbon fiber is becoming increasingly popular in mainstream cars.
GROUP B: First introduced in 1982 by the Fédération Internationale de l’Automobile (FIA), Group B racing consisted of a set of regulations that encouraged virtually unrestricted powerplants to be used in rally cars. Frequent deaths and injuries eventually brought an end to Group B’s dangerous but sensational run.
FIBERGLASS: A sheet-like material based on a plastic matrix. Weaker but more affordable than carbon fiber, fiberglass was often used to complement more exotic materials.
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GM HYDRAMATIC: An extremely popular transmission first introduced in 1939 by General Motors. Not only were Hydramatics the first automatic gearboxes to be mass-produced, they were also remarkably long lived: versions of Hydramatic transmissions persisted into the 1990s.
POWER-TO-WEIGHT RATIO: A measure, usually in horsepower-to-weight, that indicates a vehicle’s performance potency based on the relationship between its engine output and its overall mass. The argument for an effective power-to-weight ratio can minimize the seeming importance of engine horsepower, since lightweight bodies require less power to propel them.
THROTTLE RESPONSE: A measure of the engine’s responsiveness to throttle input. In supercars, or any performance cars for that matter, a linear relationship between throttle input and the engine’s ability to respond by producing power is desirable.
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TECH REVOLUTION Engine Configurations Carbon Fiber Construction Turbocharging Carbon Ceramic Brakes Traction Control Active Aerodynamics Hybrid Powertrains Where the Rubber Meets the Road Gian Paolo Dallara Glossary
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TECH REVOLUTION ENGINE CONFIGURATIONS FUN FACT Inline eight-cylinder engines were featured in early race cars were but the layout suffered practical roadblocks, most notably crankshaft whip. This high-rpm phenomenon causes crankshaft distortion, potentially resulting in catastrophic engine failure.
HISTORICAL TIDBIT The advent of high-performance hybrid powertrains altered the perception of how turbochargers and cylinder counts make for supercar status. For example, the 2017 Ford GT uses a lighter turbocharged V-6 (which propelled it to a first-in-class finish at the 2016 24 Hours of Le Mans).
KEY PERSON David E. Davis, founder of Automobile magazine, proclaimed, “I firmly believe that anyone, who is worth anything at all, should own a twelve-cylinder car before they die because there is nothing else like it.”
No matter how elaborately sculpted its bodywork, the soul of the supercar will always remain its engine. After all, locomotive force is what distinguishes a supercar from lesser vehicles; without that effusive motivation, a supercar becomes just another pretty shape. That said, there are countless ways to slice a powerplant, the two most immediate being cylinder count and configuration. While some vehicles with fewer than eight cylinders (such as the four-cylinder Lotus Esprit or six-cylinder Jaguar XJ220 and Ford GT) arguably qualify as supercars, the vast majority, at least historically, boast supernumerary cylinder counts. Whether because of the sheer excess associated with a big number or the functional reality that more cylinders often equate to greater power, supercars have been armed with an unusual number of cylinders. That’s not to say some legitimate supercars won’t claim fewer than twelve, but the mystique behind that number can sometimes mark the tipping point that makes a car a supercar. Another factor beyond simple cylinder count is their layout, or configuration, which describes how those cylinders are arranged. A straight-eight, for instance, describes eight cylinders laid out in a row, while a V arrangement (V-8, V-12, etc.) lays out the cylinders in a “vee” configuration, with two banks of cylinders usually arranged in a 60-degree or 90-degree setup. So-called flat engines lay cylinders horizontally, usually in banks opposed to each other (the flat-six Porsche 911 or flat-twelve Ferrari Testarossa being examples), while a W arrangement uses narrow cylinder banks with offset double rows to make for more compact proportions (such as the Bugatti Chiron’s W16). Beyond practical considerations, such as size and center of gravity, cylinder counts and configurations also determine an engine’s power delivery characteristics, which many enthusiasts recognize as a powerplant’s soul. For instance, V-8s are loved for their distinctive rumble and low-end torque, while V-12s are idolized for their silky power delivery and uncanny smoothness.
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TECH REVOLUTION CARBON FIBER CONSTRUCTION FUN FACT In the 1990s, it took technicians some four thousand hours to assemble the McLaren F1’s carbon fiber monocoque; thanks to streamlined manufacturing techniques, the chassis of its current road cars only take about four hours to build.
HISTORICAL TIDBIT It took years for carbon fiber construction to spread into the supercar industry and decades to reach mainstream cars. As simplified manufacturing processes have brought the price down, BMW has made a massive investment in carbon fiber with their i series electric cars and plug-in hybrids.
KEY PERSON Horatio Pagani’s engineering work at Lamborghini formed the foundation of his career, but it was Lamborghini’s reluctance to embrace carbon fiber construction that led Pagani to jump ship and form his own company.
The introduction of carbon fiber construction dramatically altered the supercar landscape, but the shift didn’t happen overnight. The technology trickled down from the racing world, where the benefits of the strong, lightweight material revolutionized the sport, enabling better handling, higher speeds, and far greater crash protection. It took about a decade for the transfer to take place: the first race car with a carbon fiber chassis was the McLaren MP4/1, which raced F1 between 1981 and 1983, and fittingly, the first production car with a carbon fiber chassis came with McLaren’s F1 road car. Produced between 1992 and 1998, the F1’s carbon fiber monocoque chassis enabled a remarkably light curb weight of 2,500 pounds—about as heavy as a Mazda Miata. The Mercedes-Benz SLR (2003 to 2010) was a collaboration with McLaren that also utilized a carbon fiber chassis, but its nearly 2-ton curb weight seemed anathema to the intent of the lightweight material. While Ferrari’s first road car to embrace the material was the F40 (1987-1992), it wasn’t until later that boutique manufacturers, such as Koenigsegg and Pagani explored the technology using hybrid manufacturing techniques that incorporated other lightweight materials, such as strands of titanium woven into the carbon fiber matrix. Lamborghini came relatively late to the carbon fiber party, which was part of the reason then-engineer Horatio Pagani, an ardent proponent of carbon technology, left to form his own company. While the Lamborghini Countach Evoluzione concept used carbon fiber–reinforced plastic components to save a staggering 1,100 pounds, the material was abandoned until later models could employ a more cost-effective solution. McLaren’s entire lineup of cars now utilize carbon fiber core structures, though Ferrari reserves the material for their most exclusive models—most recent of which is the LaFerrari. Lamborghini is diving deep with carbon, with an in-house manufacturing plant dedicated to composites and a USbased research lab in Seattle, Washington.
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TECH REVOLUTION TURBOCHARGING FUN FACT The distinctive whistling and whirring sounds of turbos is typically masked in mainstream production cars but is often unfiltered (and even amplified) in supercars, implying a sense of character and rawness.
HISTORICAL TIDBIT The twenty-first-century redux of the Acura NSX originally featured a naturally aspirated engine, but when the Japanese carmaker saw supercars embracing forced induction and hybrid powerplants, the NSX’s V-6 adopted twin turbochargers.
KEY PERSON Though turbocharging has swerved in and out of fashion for decades, the technology was invented over a century ago in 1905 by Swiss engineer Alfred Büchi.
Forced induction enhances power output by forcing more air into an engine’s combustion chambers. By boosting the airflow entering an engine, usually with a turbocharger or supercharger, more torque and horsepower is extracted, enabling fewer cylinders and/or smaller displacement. Within the supercar community, forced induction can be a controversial tactic. The practice has roots in aviation, where the technology improves operation at high altitude, because cramming more air into the combustion chamber aids performance when air density is low. Supercharged racers, such as the fearsome Mercedes-Benz Silver Arrows of the 1930s, delivered breathtaking performance, though advances in metallurgy and engine design later enabled free-breathing motors to achieve high-revving power without the aid of forced induction, making naturally aspirated engines commonplace well into the 1960s. While some of the earliest supercars created their power without turbos or superchargers, those technologies gained credibility when they became commonplace in racing. The early 1980s saw turbocharged Group B rally cars with thrilling (and often lethal) performance and boosted F1 cars surpassing the 1,000-horsepower mark. With those aspirational vehicles achieving huge power through turbocharging, it was inevitable the practice would spread into road cars. One of the most impactful and iconic cars equipped with turbos was the Ferrari F40, whose twin-turbo V-8 produced 471 horsepower—staggering for 1987. Supercars began employing turbochargers in the 1970s and more heavily in the 1980s, often assuming an added element of excess on top of an already indulgent powertrain—witness the sixteen-cylinder Bugatti Veyron and Chiron, which boast four turbos per engine. Massive turbocharged engines power everything from Paganis to Koenigseggs, and in 2014 Ferrari broke a two-decade abstinence from turbos by revisiting the trend across much of its lineup. One holdout? Lamborghini—who, until the release of its twin-turbocharged Urus SUV, has stuck to its naturally aspirated guns.
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TECH REVOLUTION CARBON CERAMIC BRAKES FUN FACT Carbon ceramic brakes work best at high operating temperatures, upwards of 1,000 degrees Fahrenheit. They are durable enough to rarely need replacement under normal street-driving conditions.
HISTORICAL TIDBIT Although carbon ceramic rotors have been used exclusively in Formula 1, more affordable steel rotors remain standard in most types of production car-based endurance racing, including the grueling 24 Hours of Le Mans.
KEY PERSON Seeking a competitive advantage in Formula 1, the Brabham racing team’s technical director Gordon Murray introduced carbon ceramic stoppers in 1979 using the byproducts from aircraft brake manufacturing. Murray went on to design the revolutionary McLaren F1.
Slowing down is the less glamorous counterpart to going fast. And while brakes have been a crucial component of automobiles from day one, their stopping power has not always kept pace with acceleration. Early brakes had meager stopping ability. The prevalence of relatively weak drum brakes persisted for decades, a spell broken in the racing world when Jaguar adopted disc brakes for the 1953 24 Hours of Le Mans. Disc brakes with steel rotors became the typical arrangement on highend cars in the 1950s, and the trend lasted for decades. Innovations made in aviation—in this instance, military aviation—eventually trickled down to commercial airliners, with standard carbon brake rotors first appearing on the Concorde in 1976 and carbon-ceramic variants later becoming employed on the French high-speed TGV train. Carbon ceramic brakes (CCBs) work using the same principal as steel brakes but utilize a blend of ceramic and carbon fiber strands to enhance heat dissipation. With better cooling comes the reduction of brake fade, which occurs when brakes lose their effectiveness following hard or repeated stops. CCBs can also weigh as little as half as much as steel discs, a crucial benefit in vehicle dynamics because they are part of a vehicle’s unsprung mass (components including suspension and wheels). The lower weight of the braking hardware reduces rotational inertia and also aids handling. Despite their benefits, it wasn’t until 1979 that CCBs made their F1 racing debut with the Brabham team. Carbon ceramics finally trickled down to street cars with Porsche’s 2001 911 GT2. Early models offered vague pedal feel and didn’t quite deliver on the promise of infinite durability, but the technology evolved rapidly into a much more usable form. Nearly every modern supercar is now equipped with carbon ceramic brakes, though price remains a challenge: while some brands, such as Ferrari, feature carbon ceramics as standard equipment, others charge $8,000 to $15,000 for carbon brakes as a standalone option.
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TECH REVOLUTION TRACTION CONTROL FUN FACT Scant 0–60-mile-per-hour times, one of the most crucial performance yardsticks for supercars, became far more easily attainable by non-professional drivers when traction control systems were utilized for launch mode, which optimizes the critical moment of power transfer when a car is accelerating from a standstill.
HISTORICAL TIDBIT Though traction control never became a legal requirement in the United States, it plays a key part in a more complex suite of electronics referred to as stability control, which was mandated in 2012.
KEY PERSON The patron saint of traction control might be Robert Bosch, the German engineer and inventor whose company developed the technology, as well as anti-lock brakes and stability control.
Power, so the cliché goes, is nothing without control. In the realm of supercars, that can certainly be the case. But the introduction of traction control in the supercar world was a controversial, and not always welcome, advance. Traction control (TC) is a technology that detects when power to the wheels cause, wheelspin and mitigates the loss of traction (and control) by reducing or eliminating engine power and/or selectively applying the brakes. Though TC originated in Formula 1 racing in the 1980s, the technology was banned in 1994 until it became legal once again in 2001—and was banned yet again in 2008. Production cars were essentially free of TC until the late 1980s, and the technology appeared in supercars relatively slowly. The last holdover of note was the 2005 Ford GT, an outlier whose midengine, rear-drive, supercharged 550-horsepower setup certainly could have used electronic intervention. Why the resistance? For starters, with tolerances and technology well beyond those of standard passenger cars, adding traction control to supercars, particularly crude early systems, would have neutered their wild-child personalities. In the macho world of supercar buyers, there was also a sense of pride in owning an unfettered beast that relied entirely on driver skill to stay safely on the road. But as TC systems became more sophisticated the technology became increasingly common in supercars. Electronic stability control, a more sophisticated evolution beyond TC, was government mandated in the United States beginning with the 2012 model year. Today’s TC systems work seamlessly to optimize acceleration and control, monitoring wheelspin hundreds of times per second and adjusting power accordingly. Though a completely pure driving experience would theoretically be devoid of electronic interventions, such as traction control, stability control, and ABS (anti-lock brakes), most modern electronics systems are advanced enough that they will only improve upon driver skill under all but the most extreme cases.
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TECH REVOLUTION ACTIVE AERODYNAMICS FUN FACT The record at the notoriously challenging Nürburgring Nordschleife circuit was broken in 2017 by the Lamborghini Huracan LP640-4 Performante, beating the Porsche 918’s record by five seconds despite having significantly less power. The Peformante’s advanced active aerodynamics features are largely credited for the claim.
HISTORICAL TIDBIT The first road car to feature active aerodynamics was the Porsche 959, which debuted in 1986.
KEY PERSON Many of the aerodynamic principals incorporated into supercars were pioneered by two racing personalities: Texan Jim Hall, whose Chaparral race cars pioneered downforce management between 1963 and 1970, and Colin Chapman, whose designer Peter Wright developed the Lotus 79 Formula 1 car, which revolutionized ground effects in 1978.
Aerodynamics in relation to vehicle stability transformed automotive design, but it wasn’t until the advent of active aerodynamics that engineers were able to fully maximize the power of airflow. Striking a balance between downforce and lift is the goal of active aerodynamics, a term used to describe vehicle body components that change position in order to modify the car’s aerodynamic profile—and thus, its lift/ drag characteristics. As with many such features, active aerodynamics (or active aero) originated in motorsports. Following the development of socalled downforce cars in the 1960s, whose aero devices pushed the cars down with such immense force that they occasionally snapped suspension arms, wings, and other features, aero became manually adjustable. By tweaking a wing’s angle of attack, a car could be configured with different amounts of downforce—more, which enabled greater grip in corners, or less, for higher top speeds. As the nuances of airflow and drag became better understood, engineers and aerodynamicists viewed vehicle bodies as holistic entities through and over which wind traveled, taking the opportunity to incorporate specific areas of high and low pressure depending on the desired performance goal. Lotus’s F1 cars of the late 1970s and early 1980s managed to reach a compromise between downforce and drag by refining ground effects aerodynamics, which controlled airflow beneath the vehicle, generating high levels of downforce without a detrimental effect on drag. Later, active aerodynamics—that is, automatically moving features that alter the vehicle’s aerodynamic profiles— were introduced in racing but swiftly banned. Road cars were exempt from such rules, and thus began incorporating features that automatically altered the vehicle’s aerodynamic profile. Modern supercars are quite complex in their active aero profiles, using folding splitters, shifting ducts, and movable flaps to divert air. The most advanced of the crop can selectively shift air over the vehicle’s right or left side in order to enhance cornering.
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TECH REVOLUTION HYBRID POWERTRAINS FUN FACT Along with the increasing complexity of hybrid powertrains comes packaging challenges: the Porsche 918 Spyder is said to be so crammed with electronics modules and high-voltage cables that a deck of cards would be impossible squeeze beneath its skin.
HISTORICAL TIDBIT Ferrari engineers made a conscious choice when designing LaFerrari: rather than downsize the engine to a V-8, they embraced the traditional V-12—perhaps to emphasize that this car was not compromised in any way.
KEY PERSON When it came to F1’s adoption of hybrid powertrains, the buck stopped at then-FIA President Max Mosley, an ardent proponent of the technology. Mosley has since stepped down, and former boss Bernie Ecclestone has called for the scrapping of hybrids in F1.
Hybrids, which draw energy from a combination of differing powertrains, started as noble attempts to create energy-efficient, low-emissions transportation. While the first hybrids appeared as early as 1899 (with a Ferdinand Porsche–designed model debuting in 1903), it wasn’t until the Toyota Prius concept premiered in 1995 that the modern era of hybrids was ushered in. The Prius’s runaway commercial success dramatically shifted the automotive marketplace, but the performance potential of hybrid powertrains wasn’t fully exploited until the so-called holy trinity of supercars emerged in 2013. The Ferrari LaFerrari, McLaren P1, and Porsche 918 Spyder turned the hybrid paradigm on its ear with blistering performance and better-than-usual efficiency considering their outrageous athletic capabilities. Though this trio’s powertrains combined internal combustion and an electric motor just like the humble Prius, their mission was rooted in abject excess. The electronically controlled symphony between electric torque and screaming, gasoline-burning horsepower enabled precise handovers that enabled the seamless filling of gaps in the powerband, creating an uninterrupted torrent of power—the polar opposite of economy-minded hybrids. This no-compromise approach to performance coincided with Formula 1’s shift into hybrid powertrains, which saw small turbocharged 1.6-liter V-6 gas engines coupled with an energy recovery system allowing additional power on demand. While the hybrid F1 cars roiled fans who missed the scream of naturally aspirated V-8s, they did wonders to legitimize hybrid technology in the eyes of performance enthusiasts who might have otherwise discounted it as tree-hugging propaganda. The hybrid trend extended with boutique manufacturers, such as Koenigsegg, and will likely continue with the next crop of high-dollar supercars.
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TECH REVOLUTION WHERE THE RUBBER MEETS THE ROAD FUN FACT As terrifying as it sounds, “chunking,” the sudden ejection of tread blocks, is designed into some ultra-high-performance tires when they’re near failure. By making a loud sound and creating vibration due to the tire’s imbalance, the driver is alerted to its impending self-destruction.
HISTORICAL TIDBIT The Bugatti Veyron Super Sport’s record-breaking 267.91-mile-per-hour top speed run in 2010 wouldn’t have been possible without exceptional rubber. Designed by Michelin, the Veyron’s tires would only last fifteen minutes at top speed due to heat build up.
KEY PERSON Charles Goodyear invented vulcanized rubber in 1844, and Robert W. Thompson patented the concept of the pneumatic tire the following year. But John Boyd Dunlop was responsible for the first practical pneumatic tire in 1888.
All the power in the world is useless if you can’t lay it down to the road, and supercars, no matter how exuberantly endowed, require state-of-the-art tires to maximize their performance potential. Supercar horsepower figures have more than doubled over the past three decades—in some cases exceeding the 1,000-horsepower mark—which puts tremendous pressure on the thin rubber bands wrapped around their quickly spinning wheels. But it’s not just forward motion that stresses tires: with 200-plusmile-per-hour top speeds, multiple g-force loading in the corners, and aircraft-carrier arrestor-cable levels of stopping power, they must cope with extreme forces in all directions while also conforming to manufacturer noise, comfort, and efficiency standards. Although a tire’s essential functionality has remained unchanged since the dawn of automotive history, meteoric rises in performance have required steep advances in sidewall construction, tread pattern, and compound formulation. While racing developments have helped advance tire technology, the challenges and compromises necessary for road-legal passenger cars are ultimately far greater than the focused needs on the track. For starters, tires within Formula 1, the top tier of auto racing, are divided into three categories: wet, dry, and intermediate. Within the dry category, seven specifications (from hypersoft to superhard) can be specified based on ambient temperatures. By honing in on three separate skill sets with further specificity within each category, race tires are able to achieve outstanding results within each area of focus. In contrast, street tires, especially within the performance-focused supercar genre, must be capable of producing exceptional performance under varying circumstances, including weather conditions, passenger loads, and other variables. Packaging and weight constraints have also curtailed the use of spare tires, putting more pressure on tire manufacturers to engineer so-called run-flat solutions capable of keeping the vehicle safely in contact with the road in the event of a puncture or catastrophic loss of pressure.
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GIAN PAOLO DALLARA Gian Paolo Dallara is a rare impresario whose work has influenced the automotive industry from the primordial days of supercars all the way to modern times. Starting his career at Ferrari’s Scuderia racing division in 1960, Dallara introduced the infamously single-minded Enzo Ferrari to the wind tunnel, where aerodynamically sound designs were incorporated into the brand’s Grand Prix cars. Following a stint at Maserati where he worked on the Birdcage and Cooper-Maserati, Dallara went on to Lamborghini in 1963, where he led a team of engineers in the conception and execution of the Miura, 350 GT, and Espada. Dallara’s later work for Alejandro DeTomaso produced an innovative F2 chassis, followed by a Formula 1 project car that was campaigned by Jacky Ickx and Piers Courage with support from Frank Williams. But it wasn’t until the founding of his eponymous company in 1972 that Dallara took on the racing realm as an independent force, producing a series of cars for varying levels of formula racing. Though the business had more than its share of ups and downs, including several aborted high-profile F1 projects, Dallara’s investments in high-tech equipment (including several advanced race simulators and wind tunnels) has furthered his lucrative consulting business. He has offered his services in the development of supercars and race cars, including the McLaren MC12, Bugatti Veyron, Audi R8 LMP, and Lamborghini Huracan GT3. That know-how helped Dallara venture into designing and building his small-batch supercar, a project which kicked off in 2013. Gian Paolo Dallara’s work has spanned decades and influenced countless cutting-edge projects, helping push the bleeding edge of supercar design and engineering. Still going strong in an industry that is known for mercurial change and shifting approaches, Dallara has had tremendous staying power, which might have something to do with his unusual combination of forward-looking engineering and enterprising industriousness.
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GLOSSARY ANTI-LOCK BRAKES (ABS): Brakes that use modulated pulses, between fifteen and thirty times per second, to maintain control and prevent skidding during hard stopping maneuvers. CARBON CERAMIC BRAKES: A type of brake manufactured using a resin that fuses a composite of carbon and silicon and bakes it into a diamond-like silicon carbide material. The result is a highly specialized, lightweight brake rotor that can withstand and dissipate extreme temperatures, making it ideal for ultra high-performance applications. CARBON FIBER REINFORCED PLASTIC: CFRP, also known as carbon fiber reinforced polymer, is a strong, lightweight material that can be as much as one-fifth as light as an equally strong section of steel. ENGINE CONFIGURATION: The layout and count of cylinders that determines an engine’s packaging and proportions. Configurations include straight-eight, flat-twelves, V-12s, and others. FLAT CONFIGURATION: An engine configuration in which the cylinders are opposed to each other in a flat configuration. Also referred to as boxer engines. HYBRID POWERTRAIN: An engine configuration that combines more than one type of powerplant, often an internal combustion engine and an electric motor. MONOCOQUE: A type of vehicle construction in which the body is formed as part of the chassis, forming a strong, single unit. SIDEWALL: The section of a tire that flanks the flat contact patch on either side, connecting to the wheel via a bead. SIPING: Thin grooves between tread blocks that enhance traction in wet, sandy, or snowy surface conditions.
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STABILITY CONTROL: An electronic safety system that helps maintain vehicle stability by detecting a loss of traction and automatically adjusting engine power and/or applying individual brakes. SUPERCHARGING: A way of boosting power by using a crankshaft-driven turbine to enhance airflow into the engine. TRACTION CONTROL: An electronic system that detects wheel slippage and cuts engine power and/or applies brakes in order to maintain control of a vehicle. TREAD BLOCK: Sections of rubber that form a tire’s tread pattern. The spacing and shape of the tread block determines a tire’s wet and dry grip characteristics. TURBOCHARGER: A device that extracts more power from an engine by using an exhaust-driven turbine to pump a higher volume of air into the combustion chamber. V CONFIGURATION: An engine in which the cylinders are arrayed in a V layout—usually, at 60 degrees or 90 degrees in relation to each other. VULCANIZED RUBBER: A type of rubber that has undergone a process that combines natural rubber with an additive to make it more durable; all automotive, motorcycle, and bicycle rubber is vulcanized.
W CONFIGURATION: An engine configuration in which the cylinder banks are aligned in a shallow, or parallel, angle.
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MODERN MILESTONES Jaguar XJ220 McLaren F1 Porsche Carrera GT Ford GT Ferrari Enzo Lamborghini Aventador Bugatti Chiron Pagani Huayra Koenigsegg Agera RS Ferrari LaFerrari Porsche 918 Spyder McLaren P1 Enzo Ferrari Glossary
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MODERN MILESTONES JAGUAR XJ220 FUN FACT XJ220s featured a proprietary wheel/tire combination (by Speedline and Bridgestone, respectively) that put owners in a quandary when the original-spec rubber went out of production. For the car’s twenty-fifth anniversary in 2017, parts supplier Don Lawler partnered with Bridgestone to develop new tires, and Pirelli teamed with Jaguar’s heritage division to offer another alternative.
HISTORICAL TIDBIT The XJ220 was the offspring of Jaguar’s “Saturday Club” group of engineers who used off-hours to dream up special projects.
KEY PERSON The XJ220 was the baby of Jaguar chief engineer Jim Randle, who collaborated with Tom Walkinshaw (of TWR, a firm that had collaborated with Porsche and others on race car builds).
The year was 1988 and the concept seemed impossibly cool: a swoopy, V-12-powered Jaguar with scissor doors, all-wheel drive, and a model name that denoted a stunning top speed of 220 miles per hour. Fresh on the heels of the excess of the 1980s, the XJ220 seemed to have everything going for it: a mighty powerplant, drool-worthy looks, and a sense of superiority with the potential to redefine the very fabric of the Jaguar brand. Somewhere between concept and execution, however, the British manufacturer lost its mojo as the global economy suddenly flailed. Those shifts forced crucial changes to the production version of the once-alluring concept. Gone was the V-12, swapped for a humbler twin-turbo V-6. The all-wheel-drive system was traded for a rear-drive setup, and the scissor doors were dropped in favor of conventional portals. Not surprisingly, a good portion of the hundreds of deposit holders backed out, and some even took legal action against the manufacturer for what they considered a case of bait and switch. By the time the production XJ220 rolled out in 1992, naysayers didn’t really have a lot to complain about. Sure, the scissor doors would have been novel and there is considerable mystique in the V-12 configuration, but the final car was also lighter and nimbler than the all-wheel-drive concept, and produced more power: 542 horsepower, versus the promised 500. Produced until 1994, only 275 XJ220s were built—a bit less than the original production run estimate of 350. And while it was a milestone-setting performer for its time, launching to 60 miles per hour in 3.7 seconds and posting a top speed of 217 miles per hour (just shy of its promised 220-mile-per-hour terminal velocity), the XJ220 ultimately enjoyed the last laugh: not only has its swoopy design proven to stand the test of time, values of this still-attractive supercar have been trending upward, far surpassing the original MSRP.
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MODERN MILESTONES MCLAREN F1 FUN FACT Not all F1 owners have had the stomach for long-term ownership. Because key components “time out,” leading to a $50,000 per year cost of ownership whether or not the car is driven, many an owner has backed out of F1 ownership early on, well before its meteoric rise in value made the $50,000-a-year expense seem paltry in comparison.
HISTORICAL TIDBIT So formidable was the F1 GTR race car that it finished first in all but two of the endurance races it attempted; the road car was so potent, its speed had to be artificially limited to meet race rules.
KEY PERSON Designer Gordon Murray was the man behind the F1 myth, and the car could not have come together as completely as it did without his monomaniacal attention to detail.
In a world besotted with committees, compromises, and concessions, the McLaren F1 emerged in the early 1990s as a singular vision of aesthetic and functional purity. The brainchild of Gordon Murray, the F1 embraced a take-no-prisoners, spare-no-expense approach to speed. Every aspect of the F1—from its industry-first carbon fiber monocoque to its central seating position—was focused on delivering the ultimate sensory experience for the driver. And yet it wasn’t just a race car bearing a license plate: the F1’s cabin stayed cool thanks to real gold insulation surrounding the engine bay. Also aiding everyday usability was outstanding outward visibility and fold-out compartments that stowed fitted luggage. Targeting the goal of supreme performance made the F1 an exercise in both mechanical excess and rigorous control. Though it weighed a mere 2,500 pounds, its naturally aspirated 6.1-liter BMW V-12 produced a considerable 627 horsepower. That fearsome power-to-weight ratio enabled a 0–60-mile-per-hour time of 3.2 seconds and a record-smashing top speed of 240.1 miles per hour in a prototype car (production models clocked closer to 231 miles per hour). Aiding downforce were two Kevlar fans, which ensured high-speed stability by literally sucking the F1 closer to tarmac. So outrageously powerful was the F1 that when the race version was built, it actually had to be detuned to be eligible for competition at the 24 Hours of Le Mans. In 1995, a GTR race model won at Le Mans in its debut attempt, no small feat for any racer, let alone one that started life as a street car. Only 107 race and roadgoing F1s were built, making the F1 more coveted as time passes. That rarity has fueled its ever-escalating value, which most recently has climbed to the $15 million mark.
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MODERN MILESTONES PORSCHE CARRERA GT FUN FACT Despite its state-of-the-art carbon fiber chassis, the Carrera GT’s shift knob is constructed of layered birch and ash, an homage to the 917 race car’s balsa wood shifter.
HISTORICAL TIDBIT The Carrera GT’s V-10 was originally destined for racing but got shelved when Porsche chose to focus its resources instead on developing the Cayenne SUV.
KEY PERSON Racing and rally legend Walter Rörhl, who helped develop the Carrera GT, said it was “the first car in my life that I drive and I feel scared.” His feedback helped convince Porsche engineers to incorporate traction control into the production version of the car.
The rear-engine configuration—that is, the practice of hanging the powerplant aft of the rear axle—is the singular hallmark of the Porsche 911, the icon responsible for much of Porsche’s commercial success. But despite that stubbornly anachronistic setup, a few midengine Porsches earned their own legitimate notoriety, among them the radical Carrera GT. Developed using mechanical vestiges from the midengine GT1 and LMP1-98 Le Mans Prototype race cars, the Carrera GT was powered by a competition-derived V-10 that was detuned for public consumption. Even in its slightly milder road legal form, the V-10 was a screamer, revving to 8,000 rpm and churning 605 horsepower. It also wasn’t pushing much weight thanks to a carbon fiber monocoque that dropped the GT’s weight to just over 3,000 pounds. Compact, agile, and notoriously challenging to manage at the limit, the manual transmission-only Carrera GT was somewhat of an outlier compared to contemporaries such as the Ferrari Enzo and Mercedes SLR McLaren. Unlike its techy competitors, the Carrera GT embraced a more analog, reductionist approach that required more technique to drive fast. Gentle acceleration from a standstill demanded a careful approach, even for seasoned three-pedal enthusiasts: rather than feeding the accelerator, the ceramic clutch was designed to engage with a gentle release and no application of throttle. Hard launches were even more challenging since the engine’s lightweight flywheel sped up and slowed down quickly, putting the onus on the driver to maintain a strictly disciplined use of the gas pedal. With no stability control system in place, the Carrera GT’s only electronic interventions were anti-lock brakes and traction control. Along with its tricky handling characteristics, the GT, for better or worse, earned a reputation as a widowmaker, a notoriety that became reinforced when actor Paul Walker perished in a Carrera GT that lost control on a Southern California street.
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MODERN MILESTONES FORD GT FUN FACT While the 1966 and 2005-era Ford GTs had fixed suspensions, the latest $445,000 model incorporates an adaptive hydraulic system that physically drops the body 2 inches in its most aggressive setting, giving it a handling and aerodynamic advantage.
HISTORICAL TIDBIT The 2016 Ford GT, internally referred to as Project Phoenix, came to life as a last-minute way for the manufacturer to campaign at Le Mans after engineering projections revealed the then-new Mustang platform would likely not have been able to finish first in its class.
KEY PERSON If there is one living person who connects the half-century of history between Ford’s 1966 and 2016 Le Mans milestones it would be Edsel Ford II, who witnessed the original victory with his father Henry Ford II and the latter win with his son.
The 1960s-era Ford GT (often referred to as GT40 for its 40.5-inch height) was an actual race car with only a handful homologated for road duty. But the twenty-first century has seen two reiterations of the race-ready classic brought to life: a version produced from 2004 to 2006 that paid homage to the Le Mans–winning era, and a 2017 redux whose racing counterpart won its class at the 2016 24 Hours of Le Mans, the fiftieth anniversary of the original GT’s win. While the two modern cars took similarly unconventional approaches to styling, their functionality and commitment to performance differed dramatically. The first-generation car was styled by Camilo Pardo and bore a visual resemblance to the 1960s-era road and race cars. Though undoubtedly capable with its supercharged, 550-horsepower 5.4-liter supercharged V-8 and innovative aluminum spaceframe chassis, the first modern GT was built as a tribute to Ford’s centennial, making it more of a high-speed street car with aspirations to competition than a race car cloaked in a street car’s body. Interestingly, it was among the last supercars to lack traction control, which, not surprisingly, led to more than a few of these torquey two-seaters swapping ends on public roads. The third iteration was literally born from racing: following Ford’s last-minute decision to campaign an all-new car at the 2016 24 Hours of Le Mans, the fiftieth anniversary of the manufacturer’s historic 1-2-3 finish, a skunkworks team fast tracked an ultra high-performance vehicle that could satisfy homologation requirements and work both as a racer and a road car. The result was a carbon chassis, 647-horsepower beast motivated by a twin-turbo V-6 and managed by an advanced, adaptive pushrod suspension. The newest Ford GT was not only a fearsome street machine with a top speed of 216 miles per hour, its racing iteration proved to have the right stuff, finishing first, third, and fourth in its class at Le Mans on the fiftieth anniversary of Ford’s original victory.
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MODERN MILESTONES FERRARI ENZO FUN FACT Of the initial 400 Enzos built, one was earmarked for Pope John Paul II, who later auctioned it with the funds of just under $1 million dollars going as relief for 2004’s southeast Asian tsunami. The same car was auctioned again in 2015 for $6 million.
HISTORICAL TIDBIT Drawing from Enzo DNA was the FXX, which spun off as a track variant. Maserati’s MC12 followed with twenty-five units, which were built to satisfy homologation rules.
KEY PERSON The Ferrari Enzo was developed with assistance from multiple world championship-winning driver Michael Schumacher, whose recommendations included lowering the level of traction control intervention.
It takes a special vehicle to sit atop the Ferrari lineup, and a truly monumental one to inherit the company founder’s name. The Ferrari Enzo arrived in 2002 with jagged looks and a broad, imposing stance that a delivered a sharper visual impact than its predecessor, the swoopy F50. It was a look guided more by the wind tunnel than the whimsies of the styling house responsible for the design, Pininfarina. Pundits had expected it to be named F60, but the Enzo’s name revealed that the new package was more than just an F50 sequel. Single-mindedly focused on performance, the Enzo featured the counterintuitive combination of a carbon fiber chassis, trick outwardly opening doors, and stripped-down Formula 1-derived aerodynamics, but the lack of modern amenities such as power windows. The Enzo was the last Ferrari flagship to be powered by a naturally aspirated engine without the assistance of a hybrid system. The all-new engine was a 6.0-liter V-12 that screamed its way to an 8,200-rpm rev limiter, producing 650 horsepower and 485 lb-ft of torque. More significantly, the powerplant was mated to an automated six-speed transmission actuated by paddle shifters, the then-nascent technology that would make its way into every Ferrari and, eventually, every supercar. The aggressive aerodynamics came from front flaps, a rear spoiler, and two rear diffusers that produced as much as 1,709 pounds of downforce at 186 miles per hour. That downforce tapered off to 1,290 pounds by the time it reached its top speed of 221 miles per hour. Reversing that speed were then-revolutionary carbon fiber brakes that had only previously been used on race cars. The unfortunate reality with the Enzo (along with virtually every other ultra-limited production supercar) is that despite the extensive race-derived engineering, climbing values have relegated most examples to languish undriven in the garages of collectors.
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MODERN MILESTONES LAMBORGHINI AVENTADOR FUN FACT While the Aventador is inarguably powered by a V-12, its powerplant doesn’t always run on all twelve cylinders; when it’s not under load, a cylinder deactivation system imperceptibly switches off half the cylinders to boost fuel efficiency, transforming the V-12 into an inline-six.
HISTORICAL TIDBIT The Aventador is only the fifth wedge-shaped Lamborghini flagship in history, preceded by the Miura, Countach, Diablo, and Murcielago.
KEY PERSON While the Aventador was penned by designer Filippo Perini, its radical mechanical underpinnings were spearheaded by engineering and R&D boss Maurizio Reggiani, who took on the arguably more crucial task of propelling the Italian brand into the twenty-first century.
An all-new V-12-powered Lamborghini flagship doesn’t come along every day, and with a lineage that includes the gorgeous Miura and iconic Countach, the prism of that supercar history made the Aventador a particularly daunting challenge. The Aventador debuted in 2011 as a radical leap for Lamborghini, which was now under ownership by Volkswagen’s Audi group. Adhering to the brand’s signature wedge philosophy, but incorporating a slew of advanced hardware, the Aventador no longer trailed the supercar pack, it led. Carbon fiber chassis? Check. Race-inspired inboard suspension? Absolutely. Innovative automated single-clutch transmission? Why not? A closer look revealed some elements that worked better than others. While the independent shift rod (ISR) transmission saved precious pounds, it proved jerky and violent. The pushrod suspension was novel, but it did not mask the Aventador’s bulk. At least the massive, naturally aspirated 6.5-liter V-12 was a thing of visceral beauty, bellowing its way to 60 miles per hour in under three seconds and to a 217-mile-per-hour top speed. Limited-production models, such as the SV, boosted the Aventador’s street cred and ultra-exclusive spinoffs, such as the Centenario (twenty coupes and twenty roadsters) and Veneno (only three units built total), enhanced the model’s specialness. It wasn’t until 2017’s Aventador S that its essential architecture saw significant upgrades that addressed some of the earlier criticisms. By adding four-wheel steering, the Aventador delivered enhanced low-speed maneuverability and high-speed stability; improvements to the chassis made the whole package flow better and become more of a driver’s car. While its driving dynamics have seen significant improvements, road presence might arguably be what ensures the Aventador’s place in the supercar hall of fame. Menacing, pointy, and appropriately badass, the Aventador furthers the legend of Lamborghini’s wedge.
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MODERN MILESTONES BUGATTI CHIRON FUN FACT The original Veyron concept featured an eighteen-cylinder engine, while the production car was downsized to only sixteen.
HISTORICAL TIDBIT The Veyron was named after Pierre Veyron, the French driver who was hired by Bugatti as a test driver and later won the 24 Hours of Le Mans for the manufacturer in 1939. The Chiron earned its moniker after Louis Alexandre Chiron, a prolifically successful driver who raced for Bugatti, Alfa Romeo, Mercedes-Benz, and Maserati, among others.
KEY PERSON Ferdinand Piëch was the modern-day savior of the Bugatti brand, but the originating force was Ettore Bugatti, the Italian-born designer and founder of Bugatti. Bugatti’s motto was “Nothing is too beautiful and nothing is too expensive.”
Volkswagen’s Bugatti brand has targeted nothing less than the ultimate extremes in supercars. Resuscitating the French nameplate in 1998 was the brainchild of VW boss Ferdinand Piëch. The famously imperious leader pressed his team with three objectives at the project’s launch: an excess of 1,000 horsepower, 0–60 miles per hour in under three seconds, and sufficient elegance to not embarrass its occupants when arriving at the opera. The result was the Veyron, a boundary-busting, 253-mile-per-hour, seven-figure hypercar whose technological advances made it unlike anything that preceded it. Unfortunately, its debut coincided with a global recession. The brand survived, though it took a decade to sell all 450 Veyrons and open the door to a sequel. The Veyron’s follow-up materialized in 2017. The second time around the performance escalated further: more power (1,500 horsepower versus 1,001), a higher top speed (261 miles per hour, with room left on the table for future variants to uncork), and a more graceful silhouette that made the Veyron look downright chunky. Though Piëch was no longer the boss, the Chiron’s updated looks promised even more dramatic appearances at the opera. Enabling the Chiron’s hyper performance is a quad-turbocharged sixteen-cylinder engine with 95 percent new parts compared to the Veyron. Thanks to 68 percent larger turbos that operate sequentially, a flat torque curve commences at only 2,000 rpm and doesn’t diminish until 6,000 rpm, offering a tugboat-like 1,180 lb-ft of torque. The result is immediate acceleration that seems to propel the Chiron through time and space at warp speed—the arc-shaped two-seater can hit 200 miles per hour faster than it takes some cars to break the speed limit. Carbon ceramic brakes, working in conjunction with the rear spoiler deployed as an air brake, haul it all down. As supercars go, few if any cars, past or present, exude the sheer excess of the Bugatti Chiron. While simpler, louder, less refined rides with a more obvious impact may resonate with purists, the Chiron will long stand as a monument to the marriage of engineering and brawn.
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MODERN MILESTONES PAGANI HUAYRA FUN FACT Pagani models are usually obscurely named and difficult to pronounce; the Huayra (pronounced why-rah) was named after the Andean god of wind.
HISTORICAL TIDBIT Though Horacio Pagani says he loves his brand’s creations like children, he has an open affection for other brands. Among his personal collection is a Porsche 918 Spyder and a Ferrari F12 TDF.
KEY PERSON Horatio Pagani’s vision for his eponymous firm came during his time working as an engineer at Lamborghini, where he failed to convince company brass of the benefits of carbon fiber, which he employed heavily with his creations.
Horacio Pagani, after defecting from Lamborghini, emerged as a supercar builder with a rare combination of aesthetic discernment and engineering prowess. His debut car, the Zonda, wowed enthusiasts and startled mainstream competitors with its exquisite design and jaw-dropping brawn. With the supercar pump primed, Pagani struck even harder with his sophomore effort, the Huayra. The shockingly styled outlier was a visual menagerie of complex curves and finely finished details wrapped around a unique carbon and titanium tub that frames a six-liter, 700-horsepower twin-turbo V-12. The engine, sourced from Mercedes-Benz’s AMG performance division, offered the reassurance of mechanical reliability, while the Huayra’s styling recalled some of the most outlandish cues this side of an H. R. Giger illustration. Huayra packed a startling amount of technology beneath its carbon fiber skin. Though the engine mated to a relatively crude automated single clutch transmission, an array of imaginative features distinguished it from higher volume exotics. For starters, the suspension utilized a fully adjustable inboard setup also featured in race cars. Making its supercar debut was a novel active aerodynamic package that used computer algorithms to actuate four flaps. Depending on the vehicle’s dynamics, the flaps move in order to optimize downforce and aid cornering stability. Adding to the car’s mechanical mystique are origami-like doors and clamshell panels that articulate with delicately sculpted hardware. Despite its sculptural refinements, the Huayra delivers a surprisingly raw driving experience, with a cacophony of exhaust burbles, wastegate whirs, and drivetrain drones suggesting a mechanical character that plays foil to its smooth visual features. Though small-batch manufacturers such as Pagani may never compete with the founding fathers of the supercar scene in terms of volume production, their imaginative engineering and wholly original designs continue to satisfy the world’s exotic car enthusiasts that march to the beat of their own drums.
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MODERN MILESTONES KOENIGSEGG AGERA RS FUN FACT Power-to-weight ratio is a strong selling point with Koenigsegg models; the One: 1, a predecessor to the Agera RS, achieved a one-to-one powerto-weight ratio of 1,360 metric horsepower to 1,360 kilograms.
HISTORICAL TIDBIT A Koenigsegg Agera RS made history in 2017 when it became the world’s fastest car with an average 277.9-mile-per-hour speed during two runs on a closed Nevada highway
KEY PERSON Christian von Koenigsegg is the driving force behind the brand and is responsible for many of the technological innovations featured in his forward-thinking cars.
Of the very rare outsider supercar manufacturers who have carved out a viable niche for themselves, Koenigsegg managed to distinguish themselves through novel engineering and idiosyncratic design. First introduced in 2011, the Agera model featured a twin-turbocharged V-8 producing 927 horsepower. The 1,160-horsepower Agera RS followed up as a track-focused special, offering aero features including underbody flaps and an active wing that could produce nearly 1,000 pounds of downforce. A 1-megawatt option increased engine power to a mind-boggling 1,341 horsepower. Whereas Horacio Pagani’s creations appear to be based on a careful consideration of aesthetic balance with the benefit of unique engineering solutions, Koenigsegg works the other way around, beginning with outright performance and power-to-weight ratios that are achieved through clever engineering. Koenigsegg is also distinguished by the fact that their engines are developed in-house, as opposed to Pagani, who sources their powerplants from Mercedes-AMG. Christian von Koenigsegg’s apparent obsession with numerical milestones has led to numerous record-setting achievements, among them acceleration and top speed figures that have beat big company players, such as Bugatti. But the (arguably) more magnetic charm of cars such as the Agera RS is the intricacy of their engineering and the boldness of their mission. Features such as their dihedral syncrohelix door actuation system, which uses a balletic gliding, sliding motion to remotely open and shut the doors, harken to the early age of supercars when a sense of mechanical wonderment was applied to the unlikeliest of places. But perhaps most compelling for Koenigsegg customers is the extreme rarity of their custom-made creations: as with the vast majority of Koenigseggs, Agera RSs were built to spec for twenty-five customers, making them among the scarcest supercars on the planet.
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MODERN MILESTONES FERRARI LAFERRARI FUN FACT The LaFerrari was the first car in four decades not to be designed by the styling house of Pininfarina.
HISTORICAL TIDBIT Just when fans think the ultimate supercar has come around, a race-ready variant (or two) spins off and ups the ante; in this case, the FXX-K, then FXX-K Evo, redefined the edges of the LaFerrari’s limits.
KEY PERSON One of the many unsung supercar heroes at Ferrari is Raffaele de Simone, a test driver who has played a crucial role in developing many modern-era Ferraris.
Not only is the founder’s name incorporated into this flagship Ferrari’s nomenclature, it is labeled as the Ferrari, suggesting a quintessence to the flagship that challenged the McLaren P1 and Porsche 918 Spyder. While the British and Germans used V-8 engines in their hybrid powertrains, Ferrari went full-bore with a naturally aspirated 6.3-liter V-12. The sonorous engine worked in conjunction with an electric motor and F1-style KERS (kinetic energy recovery system), which regenerated energy lost in brake heat. With 789 horsepower from the engine and 161 horsepower from an electric motor, the LaFerrari produced a total of 950 horsepower. The $1.4-million LaFerrari looked and felt different than any Ferrari before and for good reason: with old man Enzo gone, there was no debating that the brand needed to embrace change in its most radical form. As such, this race-inspired road car took bold chances on a future that involved a different design language and mechanical methodology. Although Ferrari was, in a way, sticking to their naturally aspirated soul by avoiding the use of turbochargers, the hybridized powerplant was still a dramatic departure from how things used to be done. But the performance was undeniable: with 0–60-mile-per-hour acceleration in the mid-two-second range and a top speed of 218 miles per hour, the LaFerrari broke new ground for the brand and helped push the brand into a new stratosphere of technological achievement. A total of 500 LaFerraris were sold, the final car being auctioned for $7 million, which made it the most valuable contemporary car sold at auction. Fewer Aperta open-air models were built, with one breaking the auction record again with the final example commanding $10 million.
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MODERN MILESTONES PORSCHE 918 SPYDER FUN FACT Porsche utilized the model name’s numerology to great effect when they launched the Spyder in 2013: 918 units were built, and production commenced on September 18.
HISTORICAL TIDBIT The battle for Nürburgring supremacy is an ongoing saga, and the crown has been stolen from the 918 Spyder several times over—most recently by the Lamborghini Huracán Performante and the Porsche 911 GT2 RS.
KEY PERSON Wolfgang Hatz was Porsche’s R&D head who embraced hybrid technology and championed cars such as the 918 Spyder and Le Mans–winning 919 Hybrid. His early career highlights included developing the engine for the first BMW M3.
The big idea behind Porsche’s 918 Spyder (as with its contemporaries, the Ferrari LaFerrari and McLaren P1) was the combination of good old-fashioned internal combustion and hybrid electric power. Unlike its peers, however, Porsche incorporated a sophisticated all-wheel-drive system that directed power to all four wheels. By leveraging the instant torque from electric motors, the 918 could accelerate and slow down individual wheels, creating a torque vectoring effect that helped it seemingly defy the laws of physics by gliding through corners with preternatural ease. Also aiding low-speed agility and high-speed stability was a rear axle steering system, as well as a symphony of no fewer than fifty electronic control units orchestrating various dynamic functions. The 918’s extreme athleticism made it equally exceptional on the racetrack, most notably at the legendary Nürburgring Nordschleife, where it clocked a record-breaking lap time of six minutes, fifty-seven seconds. But the milestone wasn’t without its controversies: purists claimed the 918’s all-wheel-drive system was a form of cheating, since it distributed power to all four wheels and made it far easier to drive fast. Some of Porsche’s notoriously orthodox fanatics were also suspicious of hybrid technology and the car’s electric steering system, insisting an element of purity was removed from the driving experience. Regardless of the early critics, history has been rather kind to the 918, particularly because of how its advanced electronics have trickled into a fair number of Porsche’s high-performance hybrid street cars. And though its $845,000 price seemed steep when the cars were sold new, values have more than doubled just a few years since, making the 918 Spyder a surefire future collectible.
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MODERN MILESTONES MCLAREN P1 FUN FACT The P1 GTR was developed as a response from customer feedback saying the standard P1 was too mild and approachable.
HISTORICAL TIDBIT Because the P1 was not subject to the rules and regulations of the Formula 1 technology from which it was derived, its powertrain exceeded some of the parameters of McLaren’s race cars.
KEY PERSON McLaren CEO Ron Dennis transformed founder Bruce McLaren’s eponymous brand from a Formula 1 upstart to a key player in the racing and road car world. Dennis sold his shares in the company in 2017, ending a thirty-seven-year relationship.
It took thirteen years for McLaren Automotive division to return to road car building following the brand’s first venture, the monumental F1. But as crucial as the 2011’s MP4-12C debut was to the brand’s twenty-first-century existence, the revival wasn’t truly complete until McLaren presented a properly over-the-top hypercar. The arms race to create halo product supercars had escalated by 2013, with established players Ferrari and Porsche on the verge of releasing exclusive offerings at stratospheric seven-figure price points. While the Italians and Germans produced the LaFerrari and 918 Spyder, McLaren’s take on the ultra high-performance hybrid was the bulbous P1. Lurking beneath its curved and slatted bodywork was a 3.8-liter twin-turbo V-8 from McLaren’s shared platform producing 727 horsepower, working in tandem with an electric motor for a total output of 903 horsepower. The cab-forward cockpit, framed by a carbon fiber monocoque, was positioned with a prime view of the road ahead. Active aerodynamic manipulation was a key component of the P1’s formula for speed; the large rear wing was capable of producing as much as 1,322 pounds of downforce or using a Formula 1–style drag reduction system to slip through the air more easily. An advanced hydro-pneumatic suspension system was capable of tripling the stiffness of the spring rates while also altering ride height and roll/pitch control. With the total run of 375 models sold out, McLaren went on to build 58 track-only P1 GTRs, and even fewer special order P1 LM competition cars. As for the historical significance of McLaren’s entry into this rarified air, the P1 marks a return to the levels of innovation that marked the brand as a special breed within the microcosm of highly specialized supercars. Though it is unlikely to earn the long-term notoriety of the mighty F1, the P1 was a significant achievement that proved McLaren can build a worthy competitor to the best from Ferrari and Porsche.
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ENZO FERRARI By the time he passed away in 1988 at age ninety, Enzo Ferrari’s life had accumulated enough drama to fill several operas, leaving a trail of intrigue that became the stuff of automotive legend. Born in Modena, Italy, in 1898, Enzo Anselmo Ferrari had an appetite for speed, triggered when he witnessed his first race in 1908. Still, he didn’t dive into that world until he was twenty and working for Construzioni Meccaniche National, where he wrenched on race cars and eventually took the wheel. He later joined Alfa Romeo, where he formed his own racing team, Scuderia Ferrari. So great was his love of racing that he only started building road cars in 1947 at the urging of his accountants. Ferrari’s early road cars earned notoriety because they seemed to share their tempestuous nature with the brand’s race cars (not to mention their maker). Prime example: After Ferruccio Lamborghini, a successful tractor manufacturer from neighboring Sant’Agata, had bought several Ferraris, he grew so frustrated by their failing clutches and Enzo’s disdainful treatment that he started his own car company. Enzo’s street cars may have started life to fund his racing efforts, but the symbiotic relationship between the racetrack and the road became a crucial differentiator for the brand. Despite some of the obvious technology trickle-down from race cars, Enzo still often resisted change. He was so convinced of the supremacy of front-engine/non-independent suspension designs that it wasn’t until most of his competitors had adopted the superior midengine/independent construction that he finally capitulated. He also proclaimed that “aerodynamics are for people who can’t build engines,” a belief he eventually rescinded. Enzo also famously went to war with Henry Ford II in 1963 following negotiations to sell his company to the American brand. After reading a contract clause that would have signed away the motorsports division, Enzo furiously balked at the deal, triggering Ford to retaliate by building the Ford GT, which eventually beat Ferrari (and the world) at Le Mans in 1966. Enzo’s death in 1988 triggered speculation that the company might fold, but it was resurrected by Luca di Montezemolo, who took the reins of Ferrari from 1991 until his resignation in 2014. Il Commendatore’s inimitable spirit lives on in a generation of race and road cars that were born during his forty-year reign.
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GLOSSARY AUTOMATED GEARBOX: A manually operating gearbox that has been fitted with a system to change gears without the need for physically moving a gearshift lever.
DIHEDRAL DOORS: A more mechanically complex version of scissor doors in which the door structure moves outwards and away from the body.
KEVLAR: A synthetic fiber used in aeronautic and high-end automotive applications for its strength and heat resistance.
PADDLE SHIFTERS: Flat tabs positioned behind the steering wheel used to trigger gearshifts; the left paddle triggers downshifts, and the right paddle triggers upshifts.
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SCISSOR DOORS: Upwardly opening doors that came to be one of the defining features of the supercar genre.
SPACEFRAME CHASSIS: A body structure in which a core structure, not the outlying surfaces, are for load bearing.
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SACRED GROUND Modena Sant’Agata Bolognese Stuttgart Nardo Ehra-Leissen Nürburgring Nordschleife Ferdinand Piëch Glossary
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SACRED GROUND MODENA FUN FACT Despite its industrious roots, Modena has become a haven for exotic car enthusiasts seeking a glimpse behind the supercar curtain, which has led the region’s cottage industry of supercar rental businesses to flourish.
HISTORICAL TIDBIT Modena is known for countless automotive claims to fame, but the region is also home to a twelfth-century cathedral and Ghirlandina tower. These cultural influences helped earn it status as a UNESCO World Heritage Site.
KEY PERSON Titans of the supercar industry rule the Modenese area, but the late local businessman Umberto Panini stands out for his extensive collection of Maseratis and motorcycles, which manages to attract crowds to an idyllic farmhouse just outside of town.
It’s no secret the land of Puccini and pasta has been a historical hotbed for supercar culture. But one particular region in Italy has played host to a statistically unlikely array of manufacturers known for outlandish automotive creations. Modena, a municipality within Italy’s northern region of Emilia-Romagna, is home to some of the nation’s most legendary supercar movers and shakers. Perhaps most famously, Enzo Ferrari was born in Modena in 1898 and eventually laid roots there that would attract some of the world’s top supercar brands. Young Enzo’s most formative memories were forged in the area; for instance, he attended his first race in nearby Bologna at the age of ten, and impressions from that afternoon later inspired him to enter the world of motorsports. Though he moved to Milan in 1919 to work for Costruzioni Meccaniche Nazionali, he returned to Modena in 1929 to found his racing firm, Scuderia Ferrari, from which his road car company evolved. When the Italian government’s forced decentralization of businesses came about during World War II, Enzo relocated his manufacturing plant to nearby Maranello, affording him more space to expand the footprint of his business and build the famous Fiorano circuit, a 1.9-mile-long track used to develop the company’s Formula 1 and road cars. In the intervening years, Modena became populated by a number of other brands; Maserati moved from Bologna to Modena in 1937; De Tomaso was formed there in 1959; Dallara set up shop in neighboring Varano de Melegari in 1972; and Pagani was founded in nearby San Cesario sul Panaro in 1992. Along with those nameplates came countless suppliers who settled in nearby to provide many of the cutting-edge components essential to supercar construction. Though its agrarian roots remain in the surrounding countryside, the region remains the epicenter for supercar production, earning nicknames such as “Motor Valley.”
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SACRED GROUND SANT’AGATA BOLOGNESE FUN FACT Locals still revel at the sight of Lamborghini test cars blasting past on country roads; the factory uses neighborhood streets to validate just-built road cars and develop future models.
HISTORICAL TIDBIT The Volkswagen Group’s purchase of Automobili Lamborghini in 1998 led to a dramatic makeover and modernization of the brand’s factory and processes, leading to streamlining and greater efficiency.
KEY PERSON Old man Ferruccio was the reason for Sant’Agata Bolognese becoming more than just a farm town on the outskirts of Bologna. But the town was originally named for Saint Agatha of Sicily, a Christian saint who was martyred in the year 251.
A short thirty-minute drive from Modena is Sant’Agata Bolognese, a tiny rural suburb of Bologna that was put on the map by Ferruccio Lamborghini. Born in nearby Renazzo, Lamborghini found success in the tractor business, which enabled him the means to purchase several Ferrari 250s. Those gave him enough grief to require constant jaunts back and forth to Ferrari’s headquarters in Modena. When he finally tired of Enzo Ferrari’s attitude and gave up on his own modifications to the prancing horse cars, Lamborghini formed Automobili Lamborghini in 1963. Inspired by the brutal beauty of Spanish fighting bulls, Lamborghini’s beastly logo is a graphic reflection of the manufacturer’s rebellious nature. While Ferrari was the world’s supercar maker of record, Lamborghini became the challenger brand bold enough to deliver an edgier, wilder style. If Ferrari was the establishment that attracted other supercar brands to set up shop in the area, Lamborghini was the bad boy from across the way, pitching an alternate take on blindingly quick, high-dollar sleds. As Lamborghini’s business grew so did its footprint on the countryside, expanding its car-making facilities to meet the global demand for its products. Ownership under the Volkswagen Group’s Audi division in 1998 saw significant renovations, as well as the addition of an Advanced Composites Research Center to the campus. Building the center led to greater amounts of carbon fiber being used in the brand’s road cars. The production of Lamborghini’s first SUV in decades, the Urus, promises to double the manufacturing output of the Sant’Agata plant. Though Lamborghini’s factory now employs some 1,200 workers, Urus should help boost that number by nearly 50 percent. In spite of the company’s internal growth, however, Sant’Agata will likely remain a predominantly agricultural outpost that retains a scrappy spirit when compared to neighboring Modena and Maranello.
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SACRED GROUND STUTTGART FUN FACT The 1,000-plus-horsepower Project One supercar debuted at the 2017 Frankfurt Motor Show being driven onto the stage by AMG’s F1 driver Lewis Hamilton.
HISTORICAL TIDBIT Though AMG started as a hardcore performance brand, the badge eventually trickled down to all manner of Mercedes-Benz vehicles— from small roadsters to large SUVs. To keep the brand’s performance focus, AMG lately has focused on developing a hypercar, dubbed the Project One. It would transfer Formula 1 technology into a limited production road car.
KEY PERSON Hans Werner Aufrecht and Manfred Schiek formed AMG, but it was Daimler chairman Dieter Zetsche who was responsible for making the tuning shop an in-house component of Mercedes-Benz.
Germans may be known for their pragmatic engineering solutions and reliable lock on the luxury car market, but a mean streak in the Teutonic DNA helped make Stuttgart occasionally as relevant as Italy’s supercar-dense Emilia-Romagna region. The earliest German supercar was arguably the Mercedes-Benz 300 SL Gullwing, a Stuttgart-built halo car whose racing-derived DNA defied the world’s expectations of what a road car could achieve. While the 300 SL proved that a mainstream German manufacturer was capable of creating a radically aggressive sports car, Mercedes-Benz officially withdrew from motorsports following the horrific 1955 24 Hours of Le Mans endurance race in which eighty-three spectators and one driver were killed. The unplanned side effect of that departure was that two Daimler engineers, Hans Werner Aufrecht and Manfred Schiek, left the manufacturer to form a company of their own using a combination of their initials and the ‘G’ from Grossaspach, the town just thirty minutes outside of Stuttgart where they set up their small workshop. Their engine expertise proved deep enough help to claim no fewer than ten German Touring Car race victories in 1965. After forming the Aufrecht Melcher Grossaspach engineering firm—AMG— in 1967, they used their prowess for building fast, reliable machines to make the company one that Mercedes, in 1999, took a majority stake in and then fully acquired in 2005. AMG’s greatest hits include the monstrous Red Pig, a 6.8-liter V-8powered sedan that scored a class-winning, second overall finish at the 24 Hours of Spa; the 1980s-era Hammer based on the E-Class coupe; the SLS, a modern reinterpretation of the 300 SL; and the GT S, the brand’s latest halo car. While Germany’s southern region of Bavaria has been responsible for world-renowned tuning brands, such as Alpina and Ruf, it’s Stuttgart— and more specifically, the neighboring town of Affalterbach (where AMG is based), where Germany continues to prove that supercars can indeed hail from large-scale carmakers.
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SACRED GROUND NARDO FUN FACT The Nardo Ring’s 7.8-mile circular track is so massive it’s visible from space.
HISTORICAL TIDBIT The Nardo Technical Center has seen numerous top speed records broken, among them the Jaguar XJ220’s 217.1-mileper-hour run by Martin Brundle, which was beat by a McLaren F1 driven to 231 miles per hour.
KEY PERSON Porsche’s move to purchase Nardo was executed under the leadership of then-President and CEO Matthias Müller, who went on to become the Volkswagen Group’s CEO in 2015.
On July 1, 1975, a proving ground owned by Fiat near the coastal town of Nardo, Italy, opened its doors. Though the so-called Società Autopiste Sperimentale Nardò offered more than twenty test tracks for chassis and suspension development, it was the facility’s massive 7.8-mile-long “ring” that earned the location favor among automakers—and more specifically, supercar manufacturers interested in testing and developing the upper limits of their car’s performance envelopes. With a massive 52-foot-wide surface and banked construction that enables a “neutral” speed (i.e., not having to turn the steering wheel) of 149 miles per hour, the Nardo Ring is among the world’s fastest test circuits and one of the only closed tracks where a carmaker can safely test a supercar’s handling traits at or near top speed. Its open spaces have seen everything from six-wheeled Formula 1 cars to experimental cars and endurance record-breakers. Unlike handling courses that measure traits such as a car’s transitional response when cornering, a banked oval is designed for high-speed and top-speed runs, which put unique strains on a vehicle’s engine and suspension components. By testing a car’s behavior at triple-digit speeds (which often surpass 200 miles per hour in a supercar), engineers are able to document variables such as aerodynamic drag and downforce, engine cooling, and directional stability. Things can quickly go south at these speeds, and mishaps such as blown tires or engine failures can have dramatic effects that make a closed circuit preferable to other areas where some supercars are tested. Porsche has owned the circuit since 2012 and sometimes rents to other automakers. While other test tracks also offer high-speed validation, few, if any, possess the sheer scale of Nardo’s facility. However, one of the downsides of a banked oval is that beyond 149 miles per hour, a vehicle encounters tire scrub, which can reduce its top speed by up to 3 percent; for ultimate topspeed testing conditions, a car must be driven in a straight line.
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SACRED GROUND EHRA-LEISSEN FUN FACT The 5.6-mile straight at Ehra-Leissen is so long that the curvature of the Earth prevents the entirety of its length from being seen end to end.
HISTORICAL TIDBIT Volkswagen averted the prying eyes of aerial photographers by locating the track near the East German border, but satellite imagery (not to mention the fall of Germany’s wall) has made those efforts obsolete.
KEY PERSON Much of Volkswagen’s motivation for speed records came from Ferdinand Piëch, an engineering-intensive executive and company scion who acted as Chairman and CEO of the Volkswagen Group for nearly three decades.
Germany’s Ehra-Leissen test track has been shrouded in secrecy since its construction in 1968, and for good reason: the Volkswagen-owned complex is where the automaker develops some of its most top-secret projects long before they are introduced into the marketplace. Built near the then-border of East Germany because it was a no-fly zone that prevented the possibility of aerial spying, the complex offers a variety of handling courses. But most notable is its high-speed track, which uses two 5.6-mile straightaways linked by banked corners at either end. Unlike Nardo’s constant radius, banked configuration, which sacrifices some of a car’s top speed due to tire scrub, Ehra-Leissen’s lengthy 5.6-mile straightway is the only closed circuit on earth that enables true top speed testing– making it ideal for ultimate bragging rights. Ironically, Volkswagen does not allow outside manufacturers to use the course, choosing to focus instead on its own product portfolio. But that wasn’t always the case: in 1998, a McLaren F1 driven by Andy Wallace achieved a stunning 240.14-mile-per-hour average at the track. The doors shut on outside manufacturers when Volkswagen began developing its über powerful, quad-turbocharged, sixteen-cylinder Veyron. With a prototype running in 2003, the Veyron was developed into a 1,000-horsepower beast that eventually shattered the F1’s record with a 253.81-mile-per-hour top speed in 2005. The 1,200-horsepower Veyron Super Sport further annihilated that figure with a 267.856-mile-per-hour average top speed in 2010. Bugatti’s production car record has since been broken by the 1,380-horsepower Koenigsegg Agera RS’s two-way top speed run on a Nevada highway, which saw an average of 277.9 miles per hour. But the fight isn’t over yet; future iterations of the 1,500-horsepower Bugatti Chiron, the follow-up to the Veyron, promise even higher figures.
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SACRED GROUND NÜRBURGRING NORDSCHLEIFE FUN FACT The “flugplatz,” or “airport,” section is notorious for its tendency to send vehicles airborne: a Nissan GT-R Nismo launched end-over-end during an endurance race in 2015, killing a spectator and injuring several after it flew into a grandstand.
HISTORICAL TIDBIT Formula 1 racing abandoned the famed circuit when Niki Lauda was nearly killed there in a fiery crash in 1976.
KEY PERSON The all-time record at the ‘Ring was achieved by racer Stefan Bellof in 1980 during a qualification lap for the 1983 Nürburgring 1,000-kilometer endurance race. His lap time of 6:11.13 was achieved in a Porsche 956 race car, earning a corner to be named after him at the 10.5-mile mark, the spot where he impacted a guardrail at 160 miles per hour shortly after his record-setting lap.
The 12.9-mile Nürburgring Nordschleife climbs, dives, and banks its way through Germany’s Eifel mountain range, offering a rollercoaster ride for racers and test drivers who tackle its 187 corners. Constructed between 1925 and 1927, the circuit earned the title of “Grüne Hölle,” or “Green Hell,” from three-time Formula 1 champion Sir Jackie Stewart, who was both mesmerized and daunted by its series of seemingly un-learnable bends. A small group of some of the world’s most elite drivers have, indeed, learned the challenging course, though it takes hundreds of laps to fully comprehend the nuanced camber shifts, elevation changes, and blind corners that define some of the trickier sections of the track. The Nordschleife earned its challenging reputation not only because of its vast length and complexity, but because its footprint creates significant temperature and weather spreads at different spots on the track; it may be sunny and dry along one stretch while snowing at another. Also adding to its lore is little to no runoff in certain spots, which elevates the fear factor for ‘Ring driving thrill seekers. The Nürburgring has become a favored spot for vehicle development testing because it combines a wide variety of surface conditions and dynamic scenarios, from the bumpy patchwork of the banked “Karussell” (carousel), which challenges the damping capability of a car’s suspension, to a total of 1,000 feet in elevation changes that tax a vehicle’s weight distribution, and a straight that tests high-speed stability. Nürburgring Nordschleife lap times have become a bragging point for carmakers wishing to boast of their road car’s performance prowess, which has created an ongoing war of numbers. Street-legal supercars have managed to pull off increasingly impressive lap times, the most recent of which was a 6:47.25 run achieved by the Porsche 911 GT2 RS. However, one lap time unlikely to go contested any time soon is the outright record of the Porsche 956 race car, which lapped the circuit in an amazing 6:11.13.
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CaracciolaKarussell Eschbach
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FERDINAND PIËCH Few automaker executives have left as indelible an impression on the industry as Ferdinand Piëch, the grandson of Porsche founder Ferdinand Porsche. A relentlessly focused engineer and businessman, Piëch began his executive career at Porsche’s racing division, where he famously spearheaded the groundbreaking 917 race car that scored the brand’s first victory at the 24 Hours of Le Mans in 1970. That win established the brand’s reputation as a racing powerhouse. When he left for Audi, he steered the Ingolstadt-based brand into success by pioneering the Quattro branding strategy, which established a distinct identity amidst luxury competitors such as BMW and Mercedes-Benz. Piëch later became CEO of the Volkswagen Group in 1993 and rescued the conglomerate from bankruptcy not only through the improvement of core Volkswagen products, but also by purchasing iconic global brands, including Bentley from Britain, Bugatti from France, and Lamborghini from Italy. The transformation of those ultra-luxury brands enabled the Volkswagen Group to transcend its original vision as “The People’s Car,” entering the stratosphere of ultra-premium products. By revitalizing those brands from dormancy and/or extremely limited production, Piëch contributed to a modern renaissance that fueled competition among other high-end nameplates, including Fiat-owned Ferrari and BMW-owned Rolls-Royce. The crown jewel of Piëch’s tenure was arguably the complex and ambitious Veyron, which was powered by a sixteen-cylinder, quad-turbocharged engine capable of propelling it to a record-breaking top speed of 267 miles per hour. The Veyron was succeeded by the Chiron, whose future variants promise even greater top speeds. The breathtaking arc of Piëch’s career was cut short by Volkswagen’s diesel scandal, which saw the colorful leader willfully resign in 2015 while pointing a finger at foe Martin Wintekorn, who also later resigned. In 2017, Piëch sold the bulk of his 14.7 percent stake in Porsche SE, the holding company that controls Volkswagen, for over a billion dollars in cash. Ruthless and brilliant, Piëch will be remembered not just for the pioneering vehicles he was responsible for but also the trail of chaos and intrigue left by his departure from the business.
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GLOSSARY APEX: The sharpest angle, or the point at the inside edge, of a corner at a racetrack. The apex is the single most crucial point that helps a driver determine his or her racing line.
TEST DRIVER: A driver employed by a carmaker to use his or her impressions to deliver feedback and guidance that helps evolve a vehicle from the prototype to production stage.
BANKING: An angled section of road or track that enables higher speeds due to the centrifugal force of the vehicle against a more vertical plane.
CAMBER: The slight tilt of a road or track surface that can boost or hurt a car’s grip; off-camber surfaces lean away from the apex of a corner, forcing slower speeds, while on-camber corners enable higher speeds.
QUALIFICATION LAP: A timed lap prior to a race in which the order of the starting grid is determined. Qualifying lap times are often quicker than race laps because cars are allowed to use stickier compound tires and are unfettered from race traffic.
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RACING LINE: The path of a vehicle through a corner, which can be broken down into three stages: entry, corner, and exit.
RUNOFF: The area outside of a racetrack’s edges intended to allow a car to safely slide in case it loses control at speed.
TIRE SCRUB: Friction created by a tire during cornering. Ideal top speed testing scenarios require driving in a straight line, not a corner, to eliminate speed-sapping tire scrub.
V-MAX: Another term to describe terminal velocity, or top speed.
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INDIE SPIRIT Gumpert SSC Hennessey Saleen Noble Cizeta Christian Von Koenigsegg Glossary
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INDIE SPIRIT GUMPERT FUN FACT The Apollo Arrow will be built by an Italian firm MAT (Manifattura Automobili Torino), the same company who used their expertise in carbon fiber construction in collaboration with Scuderia Cameron Glickenhaus (SCG).
HISTORICAL TIDBIT Gumpert was based on Roland Gumpert’s collaboration with former Audi engineer Roland Mayer, who founded MTM (Motoren-Technik-Mayer), a performance tuning company.
KEY PERSON Gumpert was originally founded by Roland Gumpert, who racked up no fewer than twenty-five World Rally Championship victories and four championships while he worked at Audi before he formed the supercar company.
Gumpert Sportwagenmanufaktur GmbH emerged on the supercar scene in 2004 led by Roland Gumpert, who first made his name as a director at Audi Sport. Fittingly, the upstart’s debut model employed an Audi-sourced twin-turbocharged 4.2-liter V-8 that was modified to three specs, producing between 641 and 789 horsepower. Wrapped in a molybdenum spaceframe chassis and carbon fiber, the Apollo had clunky styling that polarized critics, though its track capabilities proved more than able to win them over thanks to lightweight construction and sharp dynamics. The Apollo also created enough downforce to enable it, theoretically, to drive upside at speeds above 190 miles per hour. Unlike many independent supercars with big claims, the Apollo Gumpert actually delivered jaw-dropping performance. The Sport version posted a record lap on the Top Gear test track, and the Nürburgring Nordschleife lap record was set in 2009 with a time of 7:11.57. The Tornante model was announced as a follow-up in 2010, offering a more luxurious and spacious interior, a 220-mile-per-hour top speed, and a sleek body from legendary Italian coachwork firm Touring Superleggera. A mockup of the car was unveiled at the Geneva Motor Show in 2011, but it never went to production. More extreme versions of the Apollo materialized in 2012, including the 780-horsepower Apollo Enraged and the 860-horsepower Apollo R, but the momentum wasn’t enough to sustain the company; Gumpert filed for insolvency in 2012. As with many indie supercar projects, Gumpert rose from the ashes again, promising a more accessible model in 2014 (dubbed the Explosion). But the company was eventually taken over by a conglomerate of Hong Kong investors in 2016, the same group that bought the De Tomaso earlier the same year. Dissociating the brand from its founder, the manufacturer was renamed Apollo Automobil GmbH and unveiled a strikingly angular, flowing design dubbed Titan. Later renamed Arrow, the V-12-powered car debuted in early 2018, promising to relaunch the latest iteration of the company.
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INDIE SPIRIT SSC FUN FACT Jerod Shelby started his automotive career by building Ferrari 355 replicas from Pontiac Fieros. The knowledge he gained from constructing a spaceframe for a fake Lamborghini Diablo helped him engineer the chassis for his first SSC-branded venture.
HISTORICAL TIDBIT The Bugatti Veyron Super Sport briefly stole the top speed crown from the SSC Ultimate Aero with a 267.8-mileper-hour record in 2010, but the title was revoked when it was learned that Bugatti had deactivated the production car’s speed limiter, which returned the record to SSC.
KEY PERSON Company founder Jerod Shelby isn’t related to Carroll Shelby, but his car broke the speed record set by the elder Shelby’s Ford GT some forty years earlier.
SSC (Shelby SuperCars) is the brainchild of Jerod Shelby, a medical device entrepreneur who bore no relation to Carroll Shelby. Shelby raced go karts as a kid, which triggered a lingering obsession with supercars. He eventually went down the improbable path of not only building his own street-legal production car but surpassing Bugatti’s production car speed record—a real-life David-and-Goliath outcome. SSC’s first venture was the Ultimate Aero, a low-slung two-seater that combined an outrageously powerful engine with a forgettable body design. The Ultimate Aero’s carbon fiber body bore more than a passing resemblance to the Lamborghini Diablo, which is not surprising given Shelby’s previous exploits as a supercar replica builder. The body offered a low coefficient of aerodynamic drag and outwardly opening doors that offered a small consolation for the otherwise bland styling. More crucial to speed was the Ultimate Aero’s powerplant, a pushrod-operated 6.3-liter Corvette V-8, which utilized two large turbochargers to deliver a robust 1,183 horsepower and a staggering 1,094 lb-ft of torque. The goal of the $650,000 SSC Ultimate Aero was to shake up the supercar industry by breaking the Guinness World Record for the fastest production car, a title held at the time by the Bugatti Veyron’s top recorded speed of 253.8 miles per hour. Unlike the Volkswagen Group’s seven-figure hypercar, the SSC was rear-wheel drive not all-wheel drive, making it harder to lay its power down to the road. The Ultimate Aero also lacked traction and stability control systems, making it more potentially dangerous to speed seekers. On September 13, 2007, along a closed stretch of Washington highway, the Ultimate Aero achieved a record-breaking two-way average of 256.18 miles per hour, barely edging out the Bugatti’s top run. The Ultimate Aero took its place in the history books as the first American carmaker to claim a speed record since the Ford GT’s title in 1967, and though SSC’s follow-up model dubbed Tuatara was announced in 2011, the car remains under development.
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INDIE SPIRIT HENNESSEY FUN FACT The Venom GT’s 270.49-mileper-hour run was achieved at Kennedy Space Center’s shuttle landing strip. To inspire his crew while they fine-tuned the car, Hennessey played excerpts of John F. Kennedy Jr.’s famously inspirational “We choose to go to the moon” speech.
HISTORICAL TIDBIT Though many details on the forthcoming F5 supercar have yet to be revealed, Hennessey suggests the 1,600-horsepower car might be the first production vehicle to break the 300-mile-per-hour barrier.
KEY PERSON While everything about John Hennessey may appear to be larger-than-life, the Texan tuner seems to approach his endeavors with an air of casual nonchalance, taking a “because it’s there” rationale to building ever faster automobiles.
Aftermarket speed merchants just can’t resist striving for seemingly unreachable numbers. John Hennessey, a Texas-based tuner, is a prime example of this innately American desire for brash style and outsized power. Hennessey got his start racing a modified Mitsubishi 3000GT and a tuned Dodge Viper at places such as Pikes Peak and the Bonneville Salt Flats. He later went into business serving the seemingly redundant role of boosting the horsepower of already mighty V-10-powered Vipers into the quadruple digits. His twin-turbocharged Hennessey Venom 1000 sent shockwaves through the enthusiast community by scoring the top spot in Road & Track magazine’s 2007 “Speed Kings” issue, beating established models such as the Bugatti Veyron by sprinting from 0 to 200 miles per hour in 20.3 seconds. That spirit of conquest inspired Hennessey to take on a far more lightweight platform and endow it with otherworldly power, with the goal of setting a production car speed record. The search for a wispy donor car led the Texas firm to the Lotus Exige, whose bonded aluminum chassis contributed to a total mass of just over 2,000 pounds. The donor car’s modest four-cylinder engine, however, was supplanted by a twin-turbocharged 7-liter V-8 that produced an astounding 1,244 horsepower, transforming the wide-bodied Frankenstein car into nothing short of an earthbound-guided missile. The subsequent creation was dubbed the Venom GT, and it embarked on a series of record-seeking runs between 2013 and 2014 that resulted in a Guinness book-verified 0 to 300 kilometer-per-hour (186-mile-per-hour) time of 13.63 seconds and an unofficial, one-way top speed run of 270.49 miles per hour. Only thirteen Venom GTs were sold in total, including a “Final Edition” model for $1.25 million. While Hennessey continues his sports car and truck tuning business, he is working on his own midengine supercar, the F5. A prototype was unveiled at the SEMA show in Las Vegas in 2017.
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INDIE SPIRIT SALEEN FUN FACT Saleen dabbled in aftermarket electric car tuning when it altered the Tesla Model S. Rather than meddling with the sophisticated sedan’s electronics, select components were modified, such as gear ratios, brake hardware, and aerodynamics.
HISTORICAL TIDBIT Though the S7 defined Saleen’s venture into the supercar realm, the manufacturer announced a more modest vehicle at the 2017 Los Angeles Auto Show. Labeled the S1, the new car is expected to cost closer to $100,000 and features a 450-horsepower turbocharged four-cylinder engine.
KEY PERSON Southern California native Steve Saleen’s car career began when he entered club racing, which escalated to Formula Atlantic and SCCA Trans-Am. He founded Saleen Autosport in 1983 and departed the company in 2007, only to rejoin again 2012.
Steve Saleen took a deep dive into the aftermarket game in the 1980s and 1990s, producing go-fast parts, such as superchargers and suspension components, for cars such as the Ford Mustang. But it wasn’t until 2000 that Saleen took the ultimate leap by entering the supercar fray with a ground-up car of his own. His $400,000 midengine creation was dubbed the S7, which distinguished itself visually with a plethora of scoops, louvers, and extractors accenting the carbon fiber and aluminum honeycomb-trimmed body. Saleen claimed that the S7 was the most aerodynamically efficient road car on the planet and created so much downforce it could drive upside-down at speeds above 160 miles per hour. Powered by an aluminum, naturally aspirated 7.0-liter V-8 derived from a Ford 351 Windsor small-block engine, the S7 produced 550 horsepower and 525 lb-ft of torque. Coupled with the car’s sub-2,900-pound curb weight, the S7 was capable of a claimed 0 to 60-mile-per-hour time of 2.8 seconds and a top speed of 248 miles per hour. Complementing the S7 road cars were S7-R competition models that earned legitimate race successes, including no fewer than seven GT racing championships. In 2005, the $585,000 S7 Twin Turbo debuted with a twin-turbocharged setup derived from the S7-R race car that extracted 750 horsepower from the big, pushrod-actuated V-8. By modifying the rear spoiler and diffuser for even more aggressive aerodynamics, the S7 Twin Turbo delivered even greater downforce; unfettered by restrictions from racing regulations, the street car managed to outperform the race car in several respects. The S7 was reborn yet again in 2017 when Saleen announced the S7 Le Mans Edition, which would be limited to seven examples commemorating the race car’s competition successes. Featuring the twin-turbo 7-liter V-8 and further enhancements to aerodynamics, the latest S7 is also saddled with a definitively twenty-first-century asking price of $1 million.
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INDIE SPIRIT NOBLE FUN FACT Lee Noble’s return to automotive normalcy was manifest with the cheekily-named Exile Bug:R, a $25,000 beach buggy-style, offroad-ready sports car that borrows heavily from the Ford Mondeo parts bin.
HISTORICAL TIDBIT Though the Bug:R departs from the supercar formula, Lee Noble’s Specialized Sporting Vehicles firm is also building the high-strung Exile sports car, which promises an astounding 522 horsepower per ton.
KEY PERSON Lee Noble created balanced, finely tuned cars that offered outstanding feedback. Interestingly, entrepreneur Peter Dyson’s takeover of the company offered a similar yet more intensely focused sensibility: high-powered engines and tightly engineered chassis without the intrusion of electronic intervention.
Though independent supercar manufacturers tend to crash the scene with a stratosphere-punching, headline-grabbing debut model, Noble Automotive Limited was founded in Leeds, England, by Lee Noble, who possessed more, ahem, noble aspirations. The British native was steeped in the supercar world in the early 1980s when he developed cars such as the Ultima Mk1, a radically styled two-seater, which, at first glance, appeared to have more in common with a race car than a street-legal machine. Noble later sold the company in 1992 and, after collaborating with Ascari on their track-focused supercars, Lee set out on his own in 1999 by building the more terrestrial M10, which quickly evolved into the punchier M12. Though a low-volume production model, the M12 was an immediate hit, attracting attention for its finely tuned chassis and overall usability. Utilizing a tuned Ford Duratec V-6 powerplant, the M12 had modest underpinnings but surprising performance thanks to an outstanding powerto-weight ratio; 0–60 miles per hour could be achieved in a supercar-like, low three-second range, and a top speed approached 170 miles per hour. The South Africa–built M400 was produced in 2004 and upped the ante with more potent performance and a top speed of 187 miles per hour. The model was imported to the United States by Ohio-based 1G Racing under the Rossion nameplate. With his brand’s cars becoming increasingly expensive and performance-oriented, Lee Noble departed his eponymous company in 2008 in order to focus on building more attainable cars. American entrepreneur Peter Dyson bought the company and produced an altogether more ambitious, supercar-like Noble M600 in 2009. Boasting a carbon fiber chassis, a 650-horsepower twin-turbo V-8, and a 225-mile-per-hour top speed, the M600 was conceived as a sort of spiritual successor to the Ferrari F40. Though its $290,000 price tag far eclipsed that of any Noble before it, the British creation finally hit the numerical benchmarks that qualified it as a bonafide supercar.
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INDIE SPIRIT CIZETA FUN FACT The V-16 engine’s transverse (i.e., sideways) position contributed to the Cizeta’s enormous 81-inch girth, making it one of the widest production cars in history.
HISTORICAL TIDBIT Though Zampolli’s supercars went the way of the dodo bird in the 1990s, Cizeta reappeared in the news in 2009 when US Immigration and Customs Enforcement agents seized a V16T after it overstayed its welcome in the States.
KEY PERSON Cizeta was named after the sound of Claudio Zampolli’s initials in Italian, but the company was originally named Cizeta-Moroder after musician and disco pioneer Giorgio Moroder’s financial contributions to, and 50 percent stake in, the company. Prior to Moroder’s partnership, film actor Sylvester Stallone was poised to be a stakeholder in the company.
In many ways, the Cizeta V16T was the Lamborghini that wasn’t, a one-off whose concept and execution pushed far beyond the bounds of reason to make it an exceptionally excessive supercar. Founded by Claudio Zampolli, a Los Angeles exotic car dealer and former Lamborghini engineer, the Cizeta was based on Zampolli’s decade-long ambition to build a car espousing his “more is more” philosophy. The V16T was styled by the legendary Marcello Gandini, father of the modern wedge car, using the original design study for the Lamborghini Diablo. With four popup headlights, a broad stance, and straked air intakes on the hood, haunches, and door pillar, the V16T utilized the sharper lines that Lamborghini’s then owners, the Chrysler Group, had deemed too aggressive for the production Diablo. Lamborghini engineers were responsible for the V16T’s mechanicals, which featured a 6.0-liter sixteen-cylinder engine essentially consisting of two flat-plane V-8 powerplants sourced from a Lamborghini Urraco and fused together. The massive V-16 dispatched 540 horsepower and 400 lb-ft of torque through a five-speed manual transmission to the rear wheels and was capable of revving to 8,000 rpm. Contrary to the drivetrain’s supernumerary configuration, the interior gauges were much reduced, a feature Zampolli felt was essential to the purity of the driving experience. With only two gauges—a speedometer and tachometer—additional information was conveyed with warning lights that displayed in increasingly alarming colors that culminated in flashing red. Manufactured in Modena, the Cizeta V16T premiered at the Los Angeles Auto Show in 1989. Though originally estimated to cost $300,000—roughly a third more than a Lamborghini Diablo or Ferrari 512TR–by 2002 the V16T was saddled with a dizzying $649,000 price tag. Only nine cars were delivered by the halt of production in 1995, long after co-founder Giorgio Moroder departed the company. Though a roadster concept was revealed at Monterey’s Concorso Italiano event in 2003, the nine production coupes marked the end of the line for Zampolli’s dream.
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CHRISTIAN VON KOENIGSEGG Supercar superheroes sometimes hail from the unlikeliest of places. In the case of Koenigsegg founder Christian von Koenigsegg, that place is the Scandinavian country of Sweden. Exhibiting a fascination with cars since a young age, Koenigsegg nurtured his passion and started his self-named car company at the age of twenty-two with the goal of building advanced, lightweight supercars. It took eight years for Koenigsegg to sell his first car, but only one more year for the Guinness Book of World Records to recognize the CC8S as the world’s most powerful production car, with its modified, midmounted supercharged 4.7-liter Ford engine. Only six examples were built, but the CC8S’s notoriety helped further Koenigsegg’s momentum in conceptualizing technologically advanced supercars that ventured far beyond the engineering limits encountered by conventional carmakers. Using advanced materials, 3D parts printing, and novel details such as a multi-hinged door assembly using a so-called dihedral syncro-helix actuation system, Koenigsegg stood apart from bigger companies by offering cars that delivered a singular interpretation of innovation and modernity. While Koenigsegg achieved supercar landmarks such as the One:1, which offered a landmark 1:1 horsepower-per-kilogram ratio, his most buzzworthy accomplishment to date involves an Agera RS, a lonely 12-mile stretch of closed-off Nevada highway, and an afternoon in which a red and black supercar broke five world records. The most notable among those was an average two-way speed of 277.9 miles per hour, shattering the Bugatti Veyron Super Sport’s 267.8-mile-per-hour speed. While the usage of carbon fiber, high-powered engines, and advanced features such as active aerodynamics and novel construction techniques are not exclusive to this Swedish manufacturer, Christian von Koenigsegg’s risk taking and boundary pushing approaches are what separate him from other brands that take a more conservative approach to supercars. By tackling the future with blue-sky thinking and a healthy combination of science and optimism in the power of technology, Koenigsegg is helping fuel excitement in an industry that can use every ounce of competition that comes its way.
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GLOSSARY BONDED ALUMINUM CHASSIS: A style of chassis that fuses extrusions, or die-cut sections of aluminum, together using glue. This structure distributes loads more evenly and strongly than welded aluminum.
BONNEVILLE SALT FLATS: A 40 square-mile stretch of salt deposits in northwestern Utah that serves as a mecca for top-speed record-setting runs.
FLAT-CRANK: A type of engine crank that is smaller and lighter, producing crank throws at 180-degree intervals, which creates a distinctively loud exhaust note.
MOLYBDENUM: A strong metal alloy used in chassis tube construction.
PUSHROD-ACTUATED ENGINE: An engine configuration in which pushrods link to a camshaft that is not positioned overhead; this is contrary to an overhead cam engine (OHC) or dual overhead cam engine (DOHC).
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STRAKES: Slats on the otherwise flat surface of an air intake. The lines often serve the purpose of preventing large objects from entering the engine, though they can also be used decoratively as well.
TWO-WAY AVERAGE SPEED: Part of the Guinness Book of World Records testing rules require a car to make a top-speed run in opposite directions within a one-hour period. The goal is to prove that mitigating factors such as wind and elevation change are balanced out during an attempt to break a top-speed record.
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INDEX A
AC Ace, 65 Cobra, 38 active aerodynamics, 80–81 Acura NSX, 74 aerodynamics, 30, 34, 46 Agassi, Andre, 58 Agnelli, Gianni, 56 Alfa Romeo, 104, 117 Carabo, 32 Allards, 65 AMG, 126 GT S, 126 Hammer, 126 Red Pig, 126 SLS, 126 anti-lock brakes (ABS), 78, 88 apex, 136 Apollo Automobil GmbH, 140 Arrow, 140 Titan, 140 Ascari, 148 Aston Martin, 42, 65 Lagonda, 32 Audi, 38, 102, 124, 135 Quattro SI, 52 R8 LMP, 87 Sport, 38, 140 Aufrecht, Hans Werner, 126 automated gearbox, 118
B
banking, 136 Becker, Roger, 62 Bellof, Stefan, 132 Bentley, 135 Bentayga SUV, 42 Bernoulli, Daniel, 34, 46 Bernoulli’s principle, 34, 46
Bertone, Nuccio, 20, 32 biomimicry, 40–41, 46 Bizzarrini, Giotto, 12, 50 BMW, 94, 135 E28 M5, 60 M1, 60–61 M3, 112 M635CSi, 60 bonded aluminum chassis, 154 Bonneville Salt Flats, 65, 154 Bosch, Robert, 78 Bott, Helmet, 52 boxer engines, 88 Brabham racing team, 45, 76 Bridgestone, 92 Brock, Pete, 65 Brundle, Martin, 128 Brussels Motor Show, 42 Büchi, Alfred, 74 Bugatti, 38, 108, 135, 142 Chiron, 70, 74, 104–105, 130, 135 Veyron, 74, 87, 104, 130, 135, 142, 144 Veyron Super Sport, 84, 130, 142, 153 Bugatti, Ettore, 104
C
camber, 136 Cannonball Baker Sea-toShining-Sea Memorial Trophy Dash (Cannonball Run), 18 carbon ceramic brakes, 76–77, 88 carbon fiber, 66 carbon fiber construction, 72–73 carbon fiber reinforced plastic, 88 Chapman, Colin, 62, 80
Chevrolet Corvette, 142 Chiron, Louis Alexandre, 104 Chrysler, 150 Airflow, 40 Cizeta, 150–151 V16T, 150 Cizeta-Moroder, 150 coefficient of drag, 46 computational fluid dynamics, 46 Costruzioni Meccaniche Nazionali, 117, 122 Courage, Piers, 87 curves, dangerous, 30–31 cylinder count, 70
D
da Vinci, Leonardo, 40 Daimler, 126 Dakar Rally, 52 Dallara, 16, 122 Dallara, Gian Paolo, 16, 50, 87 Davis, David E., 70 De Tomaso, 122, 140 Pantera, 32 Dennis, Ron, 114 DeTomaso, Alejandro, 87 diffuser, 46 dihedral doors, 38, 118 direct injection, 26 Dodge Viper, 144 downforce, 36–37, 46, 80 ducts, 34–35 Dunlop, John Boyd, 84 Dyson, Peter, 148
E
Ehra-Leissen, 130–131 engine configurations, 70–71, 88 Exile Bug:R, 148
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F
Ferrari, 14, 42, 50, 65, 74, 76, 87, 124, 135 250 GTO, 12–13, 30, 36 275 GTB, 38 288 GTO, 52 365 GTB/4 Daytona, 18–19 512M, 56 512S Berlinetta, 32 512S Modulo, 32 512TR, 56, 150 Aperta, 110 Berlinetta Boxer, 16, 18, 56 Daytona Spyder, 18 Enzo, 96, 100–101 F12 TDF, 106 F40, 34, 52, 54–55, 56, 72, 74, 148 F50, 100 FXX, 100 FXX-K, 110 FXX-K Evo, 110 LaFerrari, 72, 82, 110–111, 112, 114 Testarossa, 56–57, 70 Ferrari, Enzo, 6, 12, 14, 16, 18, 25, 30, 54, 56, 87, 117, 122, 124 FIA (Fédération Internationale de l’Automobile), 12, 26, 66 Fiat, 128, 135 500, 25 fiberglass, 66 Fiorano circuit, 122 Fioravanti, Leonardo, 20 fitted luggage, 38 flap, 46 flat configuration, 70, 88 flat-crank, 154 Ford, 65, 148 GT, 65, 70, 78, 98–99, 117, 142 GT40, 14–15, 36 GT350R, 65
GT500KR, 65 Mark I GT 40, 14 Mustang, 146 Ford, Edsel, II, 98 Ford, Henry, II, 14, 98, 117 form versus function, 38–39 Frankfurt Motor Show, 32, 52, 126 Frère, Paul, 22 Fuhrmann, Ernst, 22
Hennessey, John, 144 homologation, 26 hybrid drivetrain, 82–83 hybrid powertrain, 88
I
Ickx, Jacky, 87 independent shift rod (ISR) transmission, 102
J
G
Gandini, Marcello, 16, 20, 32, 150 Gates, Bill, 52 Geneva Motor Show, 140 Giugiaro, Giorgetto, 20 GM Hydramatic, 66 Goodyear, Charles, 84 Group 4/5 World Championship, 60 Group B, 52, 54, 66, 74 Gruppo Bertone, 16 gullwing doors, 10 Gumpert, 140 Apollo, 140 Apollo Enraged, 140 Apollo R, 140 Explosion, 140 Tornante, 140 Gumpert, Roland, 140 Gurney, Dan, 18, 46 Gurney flap, 46
Jaguar, 76 C-Type, 30 E-Type, 6, 30 XJ220, 70, 92–93, 128 Jenkinson, Denis, 26 John Paul II, Pope, 100
K
kambako, 47 Kamm, Wunibald, 36, 47 Kammback, 36 Kamm-tail, 36 KERS (kinetic energy recovery system), 110 Kevlar, 67, 118 Koenigsegg, 72, 74 Agera RS, 108–109, 130, 153 CC8S, 153 One:1, 108, 153 Koenigsegg, Christian Von, 108, 153
L
H
Hall, Jim, 80 Hamilton, Lewis, 126 Hatz, Wolfgang, 112 Hennessey, 144–145 Venom 1000, 144 Venom GT, 144
Lamborghini, 38, 60, 72, 135, 150 350 GT, 87 Aventador, 32, 102–103 Aventador S, 102 Centenario, 102
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Cheetah, 42 Countach, 32, 56, 102 Countach Evoluzione, 72 Countach LP400, 20–21, 32 Countach LP500S, 50–51 Diablo, 58, 102, 142, 150 Espada, 87 Gallardo, 42 Huracan, 32 Huracan GT3, 87 Huracan LP640-4 Performante, 80 Huracan Performante, 112 LM001, 42 LM002, 42 M12, 58 Marzal, 32 Miura, 6, 16–17, 30, 87, 102 Murcielago, 102 Urus, 42, 74, 124 Veneno, 102 Lamborghini, Ferruccio, 16, 25, 50, 117, 124 Lancia Stratos, 32 Stratos HF Zero, 32 Lauda, Niki, 60, 132 Lawler, Don, 92 Le Mans, 12, 14, 22, 52, 60, 65, 76, 94, 98, 104, 117, 126, 135 Lola, 14 Los Angeles Auto Show, 146, 150 Lotus, 80 79 Formula 1, 80 Esprit, 32, 62, 70 Esprit Turbo, 62–63 Exige, 144
M
Marchionne, Sergio, 42 Martin, Paolo, 32 Maserati, 16, 65, 104, 122 Birdcage, 87 Cooper-Maserati, 87 MC12, 100
MAT (Manifattura Automobili Torino), 140 Apollo Arrow, 140 Mayer, Roland, 140 Mazda Miata, 45, 72 McLaren, 38, 40 F1, 45, 72, 76, 94–95, 128, 130 MC12, 87 MP4/1, 72 P1, 40, 82, 110, 112, 114–115 P1 GTR, 114 McLaren, Bruce, 114 MegaTech, 58 Mercedes-AMG, 108 SLS, 30 Mercedes-Benz, 104, 106, 126, 135 300 SL Gullwing, 6, 10–11, 126 C-111, 32 Silver Arrows, 74 SLR, 72 SLR McLaren, 45, 96 Michelin, 84 Mille Migla, 10, 25, 26 Mitsubishi 3000GT, 144 Modenda, 122–123 molybdenum, 154 monocoque, 88 Montezemolo, Luca di, 117 Moroder, Giorgio, 150 Mosley, Max, 82 Moss, Stirling, 10, 12, 26 MTM (Motoren-Technik-Mayer), 140 Müller, Matthias, 128 Murray, Gordan, 45, 76, 94 Musk, Elon, 62
N
Nardo, 128–129 Nardo Ring, 128 National Advisory Committee for Aeronautics, 34 naturally aspirated, 26 Neerpasch, Jochen, 60 Nissan GT-R Nismo, 132
Noble, 148–149 M10, 148 M12, 148 M400, 148 M600, 148 Noble, Lee, 148 Nürburgring Nordschliefe, 80, 112, 132–133, 140
O
oversteer, 26
P
paddle shifters, 118 Pagani, 74, 122 Huayra, 106–107 Zonda, 106 Pagani, Horatio, 72, 106, 108 Pannini, Umberto, 122 Pardo, Camilo, 98 Paris Motor Show, 32 Perenti, Massimo, 50 Perini, Filippo, 102 Perspex, 18 Piëch, Ferdinand, 104, 130, 135 Pininfarina, 100, 110 Pininfarina, Sergio, 18, 32, 56 Piquet, Nelson, 60 Pirelli, 92 Pontiac Fiero, 142 Porsche, 128 911, 42, 70, 96 911 GT2, 76 911 GT2 RS, 112, 132 918 Spyder, 80, 82, 106, 110, 112–113, 114 919 Hybrid, 112 930 Turbo Carrera, 22–23 956, 132 959, 52–53, 54, 56, 80 Carrera GT, 96–97 Cayenne, 42, 96 Porsche, Ferdinand, 82, 135 power-to-weight ratio, 67 Procar, 60 Project Phoenix, 98
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Prost, Alain, 45 pushrod-actuated engine, 154
Q
qualification lap, 136
R
racing line, 137 Randle, Jim, 92 Range Rover, 42 Reggiani, Maurizio, 102 Rolls-Royce, 42, 135 Rörhl, Walter, 96 Rossion, 148 runoff, 137
S
Saleen, 146–147 S1, 146 S7, 146 S7 Le Mans Edition, 146 S7 Twin Turbo, 146 S7-R, 146 Saleen, Steve, 146 Sant’Agata Bolognese, 124–125 Sapino, Filippo, 32 Sayer, Malcolm, 30 Scaglietti, Sergio, 12 Schiek, Manfred, 126 Schumacher, Michael, 100 scissor doors, 38, 50, 119 scoop, ducts and vents, 34–35 Scuderia Cameron Glickenhaus (SCG), 140 Scuderia Ferrari, 117, 122 Seinfeld, Jerry, 52 SEMA show, 144 Senna, Ayrton, 45 Shelby Cobra, 65 Cobra 427, 30 Daytona Cobra Coupe, 36, 65 Shelby, Carroll, 14, 65 Shelby, Jerod, 142 Shelby-American, 65
Shutz, Peter, 52 sidewall, 88 Simone, Raffaele de, 110 siping, 88 skirt, 47 Società Autopiste Sperimentale Nardò, 128 spaceframe chassis, 119 Speedline, 92 splitter, 47 spoiler, 47 SSC (Shelby SuperCars), 142–143 Tuatara, 142 Ultimate Aero, 142 stability control, 89 Stallone, Sylvester, 42, 150 Stanzani, Paolo, 16, 50 Stephenson, Frank, 40 Stewart, Jackie, 132 strakes, 155 Stuttgart, 126–127 supercharging, 89 SUVs, 42–43 syncromesh, 12, 27
T
Targa Florio, 12 Tesla Model S, 146 test driver, 136 Thompson, Robert W., 84 throttle response, 67 tifosi, 27 tire scrub:friction, 137 tires, 84–85 Tour de France, 12 Touring Superleggera, 140 Toyota Prius, 82 traction control, 78–79, 89 tread block, 89 tube chassis, 27 turbocharger, 89 turbocharging, 22, 27, 74–75 Turin Auto Show, 16, 32 two-way average speed, 155
U
Uhlenhaut, Rudolf, 10 Ultima Mk1, 148 unibody, 47
V
V configuration, 70, 89 Vector W8, 58–59 vents, 34–35, 47 Veyron, Pierre, 104 V-max, 137 Volkswagen, 102, 104, 124, 128, 130, 135, 142 vulcanized rubber, 89
W
W configuration, 89 Walker, Paul, 96 Walkinshaw, Tom, 92 Wallace, Andy, 130 Wallace, Bob, 50 wedge, 32–33, 102 Wenham, Francis Herbert, 34 Wiegert, Jerry, 58 Williams, Frank, 87 wind tunnel, 27, 34, 47, 87 wing, 47 Winkelmann, Stephan, 38 Wintekorn, Martin, 135 Wolf, Walter, 50 Wolf Spoiler, 50 Wright, Peter, 80
Y
Yates, Brock, 18
Z
Zampolli, Claudio, 150 Zetsche, Dieter, 126
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SPEED READ F1 Stuart Codling ISBN: 9780760355626
SPEED READ CAR DESIGN Tony Lewin ISBN: 9780760358108
SPEED READ MUSTANG Donald Farr ISBN: 9780760360422
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SPEED READ FERRARI Preston Lerner ISBN: 9780760360408
SPEED READ PORSCHE 911 Wayne Dempsey ISBN: 9780760360422
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