3-axis shot

Toronto, Ontario

http://vimeo.com/1025348

This is a quick and dirty demo of my video synthesizer. It is basically an FPGA board connected to an old CRT display. It is meant for live performance. The images were recorded using a webcam. No fancy effects or editing, just cut and paste.

The synthesizer's inputs are:

-4 switches

-4 push buttons

-1 knob

-1 keyboard

These are used to control the color, size, rotation and complexity of the polygons.

Output:

-640x480 @ 60Hz, 8-color VGA

Yes, eight fabulous colors.

How does it work?

It basically renders a wire frame model. The vertices of the model can be moved around using the keyboard. You don't really have much control over the shape. The keyboard is sort of a "random data source", which means the user just bashes the keyboard like a monkey until something pretty shows up on the screen ;). More precise controls could be easily implemented, but I am happy with them as they are now.

Having a cheap webcam to "post-process" the video is very important. It is the key overcome the 8-color limitation imposed by the FPGA board. The digital-to-analog-to-digital conversion process helps to soften the colors, and makes the resultant images look better. The colored dots you see are actually the phosphor sub-pixels of the CRT display. The camera I used was a Microsoft LifeCam VX-3000.

The actual digital circuit that's the core of the synthesizer started out as a school project. It took me about 3 weeks to develop. Then I modified it so I could have more control over the image, and to make sure there were glitches everywhere :).

If you want any more info (VHDL code even!), please contact me. My email is: checo22 {at} google's email service.

MUSIC BY ORVONTON (available as a free download)

myspace.com/orvonton

I perform with these guys:

emulacionaleatoria.com

More info on the FPGA board here:

xilinx.com/s3estarter

The Gumpert Apollo is the perfect synthesis between road vehicle and racing car. It exceeds all expectations with its passion and maximum driving fun. 650 HP, up to 360 km/h top-speed and an acceleration of 0 to 100 km/h in just 3.0 seconds make it a full-blooded super sports car to which there is no alternative. The complete package is available at a cost-performance ratio unequalled in this exclusive vehicle class.

The production process is the one part of the manufacture philosophy in which exclusivity and precision are paramount to speed. Gumpert Sportwagenmanufaktur associates the term ‚manufacture' with it's the commitment to achieve quality and luxury by means of craftsmanship and hand-made production.

Roland Gumpert, founder, managing director and the driving force behind Sportwagenmanufaktur, has created a manufacturing environment that combines engineering excellence with a broad automotive and racing competence. Experts within the motorsports scene are all familiar with the name Gumpert: In the mid 1970s, the long-standing Audi manager was the driving force behind the development of the four-wheel drive "Iltis", the original predecessor of today's "Quattro". In 1979 he not only succeeded in preparing the gnarled four-wheel drive "Iltis" for the Paris-Dakar rally, but also achieved victory. In the years that followed under his management, Audi Sport won a total of 25 World Rally Championship races and was the 4-time winner of the World Rally Championship. Gumpert's professional success is distinguished by his ability to combine innovative ideas with proven technology effectively and successfully.

Gumpert Apollo (2008)

2008 Gumpert Apollo

A team of automotive and motor sports specialists joined forces to pool their enthusiasm and energy into developing and creating the Gumpert Apollo. Their abilities create the space for the finest workmanship and utmost individuality, with the use of high-tech processes and integration of proven standard components securing the technical basis.

With the Gumpert Apollo we are providing a select clientele of ambitious sports drivers and car enthusiasts with the opportunity of experiencing the unique synergy between hand-made high-end components optimised for performance on the road and the track, and of distinguishing themselves from the remainder of the world of sports cars. Up to 100 vehicles will leave the factory each year - just enough to ensure that these exceptional vehicles retain their exclusive status.

Gumpert Sportwagenmanufaktur is an independent, privately financed company. The financial stability of the company is being secured by well-known investors. Their operative commitment will also promote the international sales and distribution of Gumpert Apollo.

The challenge was to develop an exceptional design that combined the extreme aerodynamic requirements of a performance-oriented, purist super sports car with the aesthetic design of an exclusive vehicle. We wanted to achieve the perfect synthesis of design and function. Without compromising. And we have succeeded with Gumpert Apollo: Its silhouette, optimised in numerous wind tunnel tests, reflects its by far superior capabilities.

In its profile, the Gumpert Apollo dynamic appearance is further enhanced by its dimensions (4.46 m length, almost 2 m width and 1.24 m height) and its streamlined, long and wide shoulder lines. The mid-engine layout is emphasised by the cockpit, which is clearly located toward the front of the vehicle, and the long wheel base; both factors ensure optimum driving qualities. Massive air inlets and outlets in the front and on the side in front of and behind the doors leave no doubt about its potency. Above all, though, they supply the two turbo-chargers and the high-performance braking system with enough fresh air to ensure optimum operation for the duration of a race. The high-set air intake for the engine is reminiscent of Formula 1 vehicles and emphasises Gumpert Apollo racing character. The dominant rear provides a view of the diffuser and the underbody, encased completely in carbon, - which, combined with the front diffuser and flow channels, achieves an exceptionally high negative lift for a road vehicle.

Gumpert Apollo leaves a lasting impression on anyone who sees it: It symbolises unusual power, dynamism and sportiness. It reflects above-average performance capability paired with timeless elegance, and even when it is not moving, shows that the design can only adhere to function: driving dynamics.

The secret of Gumpert Apollo is an innovative design concept from racing car engineering. The base and symbolic backbone of Gumpert Apollo consists a round tube frame made of top-quality and highly stable chrome-molybdenum-steel with an integrated monocoque safety cell made of high quality carbon fibre screwed directly onto the frame. The 161 kg (355 lbs.) construction design is so effective, so torsion proof and bend resistant that it complies with both the specifications of the European MOT approval and the international manufacture specifications of motor sports (see annex J of the FIA regulations). Gumpert Apollo succeeds in combining low weight with the rigidity of a racing car, finest driving dynamics and maximum safety. The Gumpert Apollo is one of the safest and most agile vehicles of its class.

PERFORMANCE IN A NEW DIMENSION

The Gumpert Apollo is not the only sports car on the market; however its concept is so unique and realised so consistently that it aspires to redefine the standard for this vehicle class. The Gumpert Apollo has more to offer:

•Approved both for use on the road and on the track

•Maximum safety in accordance with the international motor racing standards

•Low curb weight of below 1,200 kg (2,645 lbs.)

•Perfect road-holding and ultra-precise handling

•Maximum driving pleasure and unbeatable driving performance

•Excellent aerodynamic efficiency and driving dynamics

•Synthesis of reliable racing and series technology

•Unique, futuristic, and striking design

•Best cost-benefit ratio

Despite the series production process, every Gumpert Apollo is unique. It is customized to the owner's wishes and needs and proudly bears his touch. We can also offer you:

•Luxury package with air conditioning, navigation radio with DVD/CD-Player and backwards facing camera with rear-view mirror function

•Car body made of fibreglass (GFK) or carbon-fibre (CFK)

•Carbon fibre for various components and car body parts

•Design variants created by use of different air intakes for the engine

•Carbon rear wing (optional available)

•Engine variants with 650 / 700 / 800 HP output

In addition to these different options and equipment packages, we can of course also accommodate any other special requests made by our customers. Just talk to us.

The consistent achievement of maximum driving dynamics and uncompromising functionality is also visible in the interior design: Every detail was designed according to functional viewpoints equivalent to those of a racing car, yet without neglecting the required amount of comfort and quality.

TAILOR-MADE PURISM AND LUXURY

Light weight was the top priority and has been achieved through the exclusive use of high-tech materials. The instrument panel, like the monocoque it is integrated into, is made of carbon fibre. The seat buckets, too, are fitted into the monocoque - although you will not find seats in the conventional meaning in the Gumpert Apollo. The seat position is adjusted to each customer individually, using padding, upholstery, adjustable pedals, and the steering column. Yet you are not required to forgo proven technology in the Gumpert Apollo: air conditioning, high-end navigation system with an integrated reverse camera, CD/DVD player and much more are available.

The Gumpert Apollo is a tailor-made sports car, and individual masterpiece. In line with this principle, customers can design the interior to meet their preferences, be it pure performance or somewhat more luxurious. Decide the colours and designs yourself, whether leather, seams or embroideries are concerned. We guarantee you a car that will fulfil all of your requirements. Just talk to us.

READY FOR RACETRACK

A sports car's supremacy is not defined by pure engine power alone: only a car that can put this power on the asphalt and create a balance between all occurring internal and external forces will leave the contestants behind, on the road and the race track. The chassis is the key to this supremacy - and Gumpert Apollo has already proven itself spectacularly under the toughest testing conditions on various test tracks, public roads and real racing tracks such as Hockenheim, Imola and the historical "Nordschleife".

The Gumpert Apollo is built as a racing car according to FIA GT and ACO regulations upon request.

Success is one of Gumpert Sportwagenmanufaktur's clearly defined objectives in racing. Naturally the factory benefits from the years of experience in motor sports and the remarkable successes of company owner Roland Gumpert.

The Gumpert Apollo made a great third place with the Belgian racing driver, Ruben Maes, in the cockpit at its racing debut at the Divinol Cup in Hockenheim in April 2005.

PROVEN PERFORMANCE IN A NEW DIMENSION

The impressive power of the high-performance eight cylinder engine is based on proven V8-high-performance aggregates from Audi. In the standard configuration this engine is optimised for use in racing and road vehicles and produces 650 HP as a Biturbo engine. Weighing only 196 kg (432 lbs.), it plays a major role in ensuring the ideal weight and fascinating driving dynamics of Gumpert Apollo. An angle of 90° between the two cylinder banks is a sign of a classic 8-cylinder engine. Efficient utilisation of its remarkable energy in the back wheels guarantees the fully-synchronised, sequential six-speed transmission that incorporates Formula 1 know-how. The short gear paths allow high speed gear changes. The arrangement of the gears in a longitudinal direction in the path of travel ensures a very low centre of gravity and optimum weight distribution. The characteristic sound of the double-flow exhaust system of the Gumpert Apollo with its 3-way catalytic converters says it best - the Gumpert Apollo is pure, unbeatable performance as reflected in the data. Like a comet, the Gumpert Apollo catapults its pilot from 0 to 100 km/h (0-62 mph) in just 3.0 seconds and only requires 8.9 seconds from 0 to 200 km/h (0-124 mph).

For connoisseurs form whom driving fun does not necessarily equal maximum motor performance and ultimate acceleration, the engine is also ideally suited for day-to-day driving at lower speeds.

DRIVING DYNAMICS REDEFINED

The Gumpert Apollo's suspension was developed to ideally complement the body's sophisticated aerodynamics. The resulting is unusual driving dynamics. The Gumpert Apollo is taut but not hard and provides driver and passenger with an extraordinar level of comfort for a car designed purely for performance. It demands the pilot's unswerving attention, yet due to its ultra-precise and predictable driving characteristics does not overwhelm, even at top speed.

An ideal weight balance of 42 to 58 percent between the front and rear axis rounds it off: It provides optimum traction during acceleration, whilst ensuring stable control even when braking in critical situations.

The Gumpert Apollo owes the finely tuned sensitivity of the suspension system and the optimised exertion of power to its double transverse control arm pushrod configuration at the front and back. The double transverse control arms ensure that the tires maintain optimum contact with the road surface, independent of the bound rate of suspension system. The suspension system allows the owner to seamlessly set the ground clearance in a range between 40 and 120 mm (1.57-4.72 in). Sealed uniball joints ensure that the forces are transferred precisely and with little friction. Stabilisers support the efficiency of the suspension and pitch compensation prevents the vehicle from diving during braking and lifting during accelerating. Despite its low trim, the Gumpert Apollo provides long wheel travel in compression and rebound, facilitating the finely-tuned and precise functioning of the absorbers and springs.

The high level of driving dynamics is supported by an agile electro-hydraulic power steering system that provides the driver with direct feedback. In order to securely transfer the 850 nm torque to the road, Gumpert Apollo has a traction control system (TCS) used in motor sports. Developed together with the company Racelogic, the permitted slip can be accurately set on the rear axle - according to the drivers wishes. An optional launch control, adjusted to the Gumpert Apollo especially, ensures swift starts like those of Formula 1. The Gumpert Apollo's driving performance is controlled with a 2-circuit high-performance braking system with adjustable 3-level Bosch-ABS, 378 mm (14.9 in) ventilated discs, and 6-piston callipers on the front and rear axle.

All of these are primary technical principles, the sportive orientation of which could not be clearer. Thanks to its suspension, the Gumpert Apollo proves itself in every curve: It redefines the term ‚driving dynamics'.

TECHNICAL SPECIFICATIONS

•DIMENSIONS◦Length 4,460 mm / 175.6"

◦Width 1,998 mm / 78.6"

◦Height 1,114 mm / 43.8"

◦Wheel base 2,700 mm / 106.3"

◦Wheel gauge ◾front: 1,670 mm / 65.7"

◾back: 1,598 mm / 62.9"

◦Boot volume: 100 l

•WEIGHT◦Kerb weight: below 1,200 kg / 2,645 lbs

◦Allowed total weight: 1,500 kg / 3,306 lbs

◦Approved axle load ◾front: 650 kg / 1,452 lbs

◾back: 900 kg / 1,984 lbs

•ENGINE◦Cylinders: 8

◦Type: 90° - V

◦Valves per cylinder: 5

◦Displacement: 4,163 cm3 / 254 in3

◦Stroke: 93 mm / 3.66"

◦Bore: 84.5 mm / 3.32"

◦Nominal output: 478 kW (650 HP) @ 6,500 rpm

◦Maximum torque: 850 Nm (626.9 lb-ft) @ 4,000 rpm [with 820 Nm @ 2700 rpm]

◦Maximum revs: 7,200 rpm

◦Compression ratio: 9,3

◦Recommended fuel type: 98 ROZ / 88 MOZ

◦Emission standard: Euro 4

•GEARBOX◦Sequential six-speed gear box with synchronisation and oil cooling

◦Twin plate clutch configuration (diameter 200 mm / 7.87" each)

◦Differential lock by Torsen

◦Custom-made gear ratios

•WHEELS◦Tire dimension ◾front: 255/35ZR19

◾back: 345/35ZR19

◦Wheel dimension ◾front: 10J x 19

◾back: 13J x 19

◦Wheel rim type: Aluminium cast wheels with centre lock

•PERFORMANCE◦Top speed: 360 km/h (224 mph)

◦0-100 km/h (0-62 mph): 3.0 s

◦0-200 km/h (0-124 mph): 8.9 s

Thank you Julie for those awesome pictures of the show! <3

Cimitero Monumentale di Milano. Snapped on The Impossible Project 600 color film with a Polaroid 636 Close-Up.

focus on bass shadow

The lab focuses on the synthesis of well-defined homopolymers and copolymers with complex macromolecular architecture by using combinations of all available polymerization methodologies.

©words drip from my mouth

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces displayed nearby in the Priory Visitors Centre). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, aftr all there are echoes of the gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, when all it's stained glass had been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days, but now charges an entry fee (a fix for recent financial worries; gone are the frequent days I used to wander around it in search of inspiration!)and sadly visitors are also encouraged to enter by the far end of the building, contrary to Spence's intentions.

For more see below:-

www.coventrycathedral.org.uk/

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces displayed nearby in the Priory Visitors Centre). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, afterall there are echoes of the gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, when all it's stained glass had been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days, but now charges an entry fee (a fix for recent financial worries; gone are the frequent days I used to wander around it in search of inspiration!)and sadly visitors are also encouraged to enter by the far end of the building, contrary to Spence's intentions.

For more see below:-

www.coventrycathedral.org.uk/

Westerbork, Drenthe province of Netherlands.

It is now a site of a powerful radio telescope (en.wikipedia.org/wiki/Westerbork_Synthesis_Radio_Telescope).

In WWII a transit concentration camp lied on this site

(en.wikipedia.org/wiki/Westerbork_transit_camp).

Synthesis of real and digital space: Space as a third participant in immersive theatre

The thesis explores various algorithmic processes to morph physical space in the dynamic medium of immersive theatre. The fourth wall in conventional theatre is eliminated in immersive theatre where the participant may be part of a performance, however the nature of space or architecture that surrounds it may be static. By actuating the enclosing space a new narrative may be created, therefore the research attempts to explore digital technologies and provide solutions to develop more interactive spaces and dramatic spaces.

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces were displayed nearby in the Priory Visitors Centre, sadly since closed). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, after all there are echoes of the Gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, all it's stained glass having been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days. For more see below:-

www.coventrycathedral.org.uk/

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces displayed nearby in the Priory Visitors Centre). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, afterall there are echoes of the gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, when all it's stained glass had been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days, but now charges an entry fee (a fix for recent financial worries; gone are the frequent days I used to wander around it in search of inspiration!)and sadly visitors are also encouraged to enter by the far end of the building, contrary to Spence's intentions.

For more see below:-

www.coventrycathedral.org.uk/

Synthesis projection lights up a large fig tree in The Royal Botanic Garden, Vivid Sydney 2016.

This is a version of the Synthesis Technology e350 Morphing Terrarium built in MOTM format for a friend. I used Dave Brown's excellent front panel design.

The Gumpert Apollo is the perfect synthesis between road vehicle and racing car. It exceeds all expectations with its passion and maximum driving fun. 650 HP, up to 360 km/h top-speed and an acceleration of 0 to 100 km/h in just 3.0 seconds make it a full-blooded super sports car to which there is no alternative. The complete package is available at a cost-performance ratio unequalled in this exclusive vehicle class.

The production process is the one part of the manufacture philosophy in which exclusivity and precision are paramount to speed. Gumpert Sportwagenmanufaktur associates the term ‚manufacture' with it's the commitment to achieve quality and luxury by means of craftsmanship and hand-made production.

Roland Gumpert, founder, managing director and the driving force behind Sportwagenmanufaktur, has created a manufacturing environment that combines engineering excellence with a broad automotive and racing competence. Experts within the motorsports scene are all familiar with the name Gumpert: In the mid 1970s, the long-standing Audi manager was the driving force behind the development of the four-wheel drive "Iltis", the original predecessor of today's "Quattro". In 1979 he not only succeeded in preparing the gnarled four-wheel drive "Iltis" for the Paris-Dakar rally, but also achieved victory. In the years that followed under his management, Audi Sport won a total of 25 World Rally Championship races and was the 4-time winner of the World Rally Championship. Gumpert's professional success is distinguished by his ability to combine innovative ideas with proven technology effectively and successfully.

Gumpert Apollo (2008)

2008 Gumpert Apollo

A team of automotive and motor sports specialists joined forces to pool their enthusiasm and energy into developing and creating the Gumpert Apollo. Their abilities create the space for the finest workmanship and utmost individuality, with the use of high-tech processes and integration of proven standard components securing the technical basis.

With the Gumpert Apollo we are providing a select clientele of ambitious sports drivers and car enthusiasts with the opportunity of experiencing the unique synergy between hand-made high-end components optimised for performance on the road and the track, and of distinguishing themselves from the remainder of the world of sports cars. Up to 100 vehicles will leave the factory each year - just enough to ensure that these exceptional vehicles retain their exclusive status.

Gumpert Sportwagenmanufaktur is an independent, privately financed company. The financial stability of the company is being secured by well-known investors. Their operative commitment will also promote the international sales and distribution of Gumpert Apollo.

The challenge was to develop an exceptional design that combined the extreme aerodynamic requirements of a performance-oriented, purist super sports car with the aesthetic design of an exclusive vehicle. We wanted to achieve the perfect synthesis of design and function. Without compromising. And we have succeeded with Gumpert Apollo: Its silhouette, optimised in numerous wind tunnel tests, reflects its by far superior capabilities.

In its profile, the Gumpert Apollo dynamic appearance is further enhanced by its dimensions (4.46 m length, almost 2 m width and 1.24 m height) and its streamlined, long and wide shoulder lines. The mid-engine layout is emphasised by the cockpit, which is clearly located toward the front of the vehicle, and the long wheel base; both factors ensure optimum driving qualities. Massive air inlets and outlets in the front and on the side in front of and behind the doors leave no doubt about its potency. Above all, though, they supply the two turbo-chargers and the high-performance braking system with enough fresh air to ensure optimum operation for the duration of a race. The high-set air intake for the engine is reminiscent of Formula 1 vehicles and emphasises Gumpert Apollo racing character. The dominant rear provides a view of the diffuser and the underbody, encased completely in carbon, - which, combined with the front diffuser and flow channels, achieves an exceptionally high negative lift for a road vehicle.

Gumpert Apollo leaves a lasting impression on anyone who sees it: It symbolises unusual power, dynamism and sportiness. It reflects above-average performance capability paired with timeless elegance, and even when it is not moving, shows that the design can only adhere to function: driving dynamics.

The secret of Gumpert Apollo is an innovative design concept from racing car engineering. The base and symbolic backbone of Gumpert Apollo consists a round tube frame made of top-quality and highly stable chrome-molybdenum-steel with an integrated monocoque safety cell made of high quality carbon fibre screwed directly onto the frame. The 161 kg (355 lbs.) construction design is so effective, so torsion proof and bend resistant that it complies with both the specifications of the European MOT approval and the international manufacture specifications of motor sports (see annex J of the FIA regulations). Gumpert Apollo succeeds in combining low weight with the rigidity of a racing car, finest driving dynamics and maximum safety. The Gumpert Apollo is one of the safest and most agile vehicles of its class.

PERFORMANCE IN A NEW DIMENSION

The Gumpert Apollo is not the only sports car on the market; however its concept is so unique and realised so consistently that it aspires to redefine the standard for this vehicle class. The Gumpert Apollo has more to offer:

•Approved both for use on the road and on the track

•Maximum safety in accordance with the international motor racing standards

•Low curb weight of below 1,200 kg (2,645 lbs.)

•Perfect road-holding and ultra-precise handling

•Maximum driving pleasure and unbeatable driving performance

•Excellent aerodynamic efficiency and driving dynamics

•Synthesis of reliable racing and series technology

•Unique, futuristic, and striking design

•Best cost-benefit ratio

Despite the series production process, every Gumpert Apollo is unique. It is customized to the owner's wishes and needs and proudly bears his touch. We can also offer you:

•Luxury package with air conditioning, navigation radio with DVD/CD-Player and backwards facing camera with rear-view mirror function

•Car body made of fibreglass (GFK) or carbon-fibre (CFK)

•Carbon fibre for various components and car body parts

•Design variants created by use of different air intakes for the engine

•Carbon rear wing (optional available)

•Engine variants with 650 / 700 / 800 HP output

In addition to these different options and equipment packages, we can of course also accommodate any other special requests made by our customers. Just talk to us.

The consistent achievement of maximum driving dynamics and uncompromising functionality is also visible in the interior design: Every detail was designed according to functional viewpoints equivalent to those of a racing car, yet without neglecting the required amount of comfort and quality.

TAILOR-MADE PURISM AND LUXURY

Light weight was the top priority and has been achieved through the exclusive use of high-tech materials. The instrument panel, like the monocoque it is integrated into, is made of carbon fibre. The seat buckets, too, are fitted into the monocoque - although you will not find seats in the conventional meaning in the Gumpert Apollo. The seat position is adjusted to each customer individually, using padding, upholstery, adjustable pedals, and the steering column. Yet you are not required to forgo proven technology in the Gumpert Apollo: air conditioning, high-end navigation system with an integrated reverse camera, CD/DVD player and much more are available.

The Gumpert Apollo is a tailor-made sports car, and individual masterpiece. In line with this principle, customers can design the interior to meet their preferences, be it pure performance or somewhat more luxurious. Decide the colours and designs yourself, whether leather, seams or embroideries are concerned. We guarantee you a car that will fulfil all of your requirements. Just talk to us.

READY FOR RACETRACK

A sports car's supremacy is not defined by pure engine power alone: only a car that can put this power on the asphalt and create a balance between all occurring internal and external forces will leave the contestants behind, on the road and the race track. The chassis is the key to this supremacy - and Gumpert Apollo has already proven itself spectacularly under the toughest testing conditions on various test tracks, public roads and real racing tracks such as Hockenheim, Imola and the historical "Nordschleife".

The Gumpert Apollo is built as a racing car according to FIA GT and ACO regulations upon request.

Success is one of Gumpert Sportwagenmanufaktur's clearly defined objectives in racing. Naturally the factory benefits from the years of experience in motor sports and the remarkable successes of company owner Roland Gumpert.

The Gumpert Apollo made a great third place with the Belgian racing driver, Ruben Maes, in the cockpit at its racing debut at the Divinol Cup in Hockenheim in April 2005.

PROVEN PERFORMANCE IN A NEW DIMENSION

The impressive power of the high-performance eight cylinder engine is based on proven V8-high-performance aggregates from Audi. In the standard configuration this engine is optimised for use in racing and road vehicles and produces 650 HP as a Biturbo engine. Weighing only 196 kg (432 lbs.), it plays a major role in ensuring the ideal weight and fascinating driving dynamics of Gumpert Apollo. An angle of 90° between the two cylinder banks is a sign of a classic 8-cylinder engine. Efficient utilisation of its remarkable energy in the back wheels guarantees the fully-synchronised, sequential six-speed transmission that incorporates Formula 1 know-how. The short gear paths allow high speed gear changes. The arrangement of the gears in a longitudinal direction in the path of travel ensures a very low centre of gravity and optimum weight distribution. The characteristic sound of the double-flow exhaust system of the Gumpert Apollo with its 3-way catalytic converters says it best - the Gumpert Apollo is pure, unbeatable performance as reflected in the data. Like a comet, the Gumpert Apollo catapults its pilot from 0 to 100 km/h (0-62 mph) in just 3.0 seconds and only requires 8.9 seconds from 0 to 200 km/h (0-124 mph).

For connoisseurs form whom driving fun does not necessarily equal maximum motor performance and ultimate acceleration, the engine is also ideally suited for day-to-day driving at lower speeds.

DRIVING DYNAMICS REDEFINED

The Gumpert Apollo's suspension was developed to ideally complement the body's sophisticated aerodynamics. The resulting is unusual driving dynamics. The Gumpert Apollo is taut but not hard and provides driver and passenger with an extraordinar level of comfort for a car designed purely for performance. It demands the pilot's unswerving attention, yet due to its ultra-precise and predictable driving characteristics does not overwhelm, even at top speed.

An ideal weight balance of 42 to 58 percent between the front and rear axis rounds it off: It provides optimum traction during acceleration, whilst ensuring stable control even when braking in critical situations.

The Gumpert Apollo owes the finely tuned sensitivity of the suspension system and the optimised exertion of power to its double transverse control arm pushrod configuration at the front and back. The double transverse control arms ensure that the tires maintain optimum contact with the road surface, independent of the bound rate of suspension system. The suspension system allows the owner to seamlessly set the ground clearance in a range between 40 and 120 mm (1.57-4.72 in). Sealed uniball joints ensure that the forces are transferred precisely and with little friction. Stabilisers support the efficiency of the suspension and pitch compensation prevents the vehicle from diving during braking and lifting during accelerating. Despite its low trim, the Gumpert Apollo provides long wheel travel in compression and rebound, facilitating the finely-tuned and precise functioning of the absorbers and springs.

The high level of driving dynamics is supported by an agile electro-hydraulic power steering system that provides the driver with direct feedback. In order to securely transfer the 850 nm torque to the road, Gumpert Apollo has a traction control system (TCS) used in motor sports. Developed together with the company Racelogic, the permitted slip can be accurately set on the rear axle - according to the drivers wishes. An optional launch control, adjusted to the Gumpert Apollo especially, ensures swift starts like those of Formula 1. The Gumpert Apollo's driving performance is controlled with a 2-circuit high-performance braking system with adjustable 3-level Bosch-ABS, 378 mm (14.9 in) ventilated discs, and 6-piston callipers on the front and rear axle.

All of these are primary technical principles, the sportive orientation of which could not be clearer. Thanks to its suspension, the Gumpert Apollo proves itself in every curve: It redefines the term ‚driving dynamics'.

TECHNICAL SPECIFICATIONS

•DIMENSIONS◦Length 4,460 mm / 175.6"

◦Width 1,998 mm / 78.6"

◦Height 1,114 mm / 43.8"

◦Wheel base 2,700 mm / 106.3"

◦Wheel gauge ◾front: 1,670 mm / 65.7"

◾back: 1,598 mm / 62.9"

◦Boot volume: 100 l

•WEIGHT◦Kerb weight: below 1,200 kg / 2,645 lbs

◦Allowed total weight: 1,500 kg / 3,306 lbs

◦Approved axle load ◾front: 650 kg / 1,452 lbs

◾back: 900 kg / 1,984 lbs

•ENGINE◦Cylinders: 8

◦Type: 90° - V

◦Valves per cylinder: 5

◦Displacement: 4,163 cm3 / 254 in3

◦Stroke: 93 mm / 3.66"

◦Bore: 84.5 mm / 3.32"

◦Nominal output: 478 kW (650 HP) @ 6,500 rpm

◦Maximum torque: 850 Nm (626.9 lb-ft) @ 4,000 rpm [with 820 Nm @ 2700 rpm]

◦Maximum revs: 7,200 rpm

◦Compression ratio: 9,3

◦Recommended fuel type: 98 ROZ / 88 MOZ

◦Emission standard: Euro 4

•GEARBOX◦Sequential six-speed gear box with synchronisation and oil cooling

◦Twin plate clutch configuration (diameter 200 mm / 7.87" each)

◦Differential lock by Torsen

◦Custom-made gear ratios

•WHEELS◦Tire dimension ◾front: 255/35ZR19

◾back: 345/35ZR19

◦Wheel dimension ◾front: 10J x 19

◾back: 13J x 19

◦Wheel rim type: Aluminium cast wheels with centre lock

•PERFORMANCE◦Top speed: 360 km/h (224 mph)

◦0-100 km/h (0-62 mph): 3.0 s

◦0-200 km/h (0-124 mph): 8.9 s

Thank you Julie for those awesome pictures of the show! <3

If you want to get started in DIY eurorack, this is a good place to start. Not necessarily this particular module, but a passive multiple like this. It's just a few jacks you solder into place. After my more complicated kits, this one took more time to set up, test, and take down, than to actually put together.

Shown here are the upcoming E340 Cloud Generator and E350 Morphing Terrarium modules by Synthesis Technology (best known for their MOTM line of synth modules). Synthesis Technology is now venturing into Eurorack with the forthcoming release of these two modules in December. They should both be out about the same time. The Cloud Generator contains 8 VCOs with voltage-controlled spread, chaos and chaos bandwidth, amongst other features. The Morphing Terrarium is a wavetable oscillator with two glitch-free outputs and extensive voltage control. Photo credit: Kwote, from the 11/14/09 AH Bay Area Gathering. LINK: kwotemusic.blogspot.com/ .

Global Maritime Forum Annual Summit 2021

synthesis of CsPbI perovskite materials and imaging in TEM

Courtesy of Mr. Durga Prasad Muvva , UGC-Networking Resource Centre, School of Chemistry and The Centre for Nanotechnology, University of Hyderabad

Image Details

Instrument used: Tecnai

Magnification: 71kx

Horizontal Field Width: 2

Voltage: 200kV

Spot: 1

Working Distance: 3

Detector: ccd

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces displayed nearby in the Priory Visitors Centre). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, afterall there are echoes of the gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, when all it's stained glass had been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days, but now charges an entry fee (a fix for recent financial worries; gone are the frequent days I used to wander around it in search of inspiration!)and sadly visitors are also encouraged to enter by the far end of the building, contrary to Spence's intentions.

For more see below:-

www.coventrycathedral.org.uk/

The Gumpert Apollo is the perfect synthesis between road vehicle and racing car. It exceeds all expectations with its passion and maximum driving fun. 650 HP, up to 360 km/h top-speed and an acceleration of 0 to 100 km/h in just 3.0 seconds make it a full-blooded super sports car to which there is no alternative. The complete package is available at a cost-performance ratio unequalled in this exclusive vehicle class.

The production process is the one part of the manufacture philosophy in which exclusivity and precision are paramount to speed. Gumpert Sportwagenmanufaktur associates the term ‚manufacture' with it's the commitment to achieve quality and luxury by means of craftsmanship and hand-made production.

Roland Gumpert, founder, managing director and the driving force behind Sportwagenmanufaktur, has created a manufacturing environment that combines engineering excellence with a broad automotive and racing competence. Experts within the motorsports scene are all familiar with the name Gumpert: In the mid 1970s, the long-standing Audi manager was the driving force behind the development of the four-wheel drive "Iltis", the original predecessor of today's "Quattro". In 1979 he not only succeeded in preparing the gnarled four-wheel drive "Iltis" for the Paris-Dakar rally, but also achieved victory. In the years that followed under his management, Audi Sport won a total of 25 World Rally Championship races and was the 4-time winner of the World Rally Championship. Gumpert's professional success is distinguished by his ability to combine innovative ideas with proven technology effectively and successfully.

Gumpert Apollo (2008)

2008 Gumpert Apollo

A team of automotive and motor sports specialists joined forces to pool their enthusiasm and energy into developing and creating the Gumpert Apollo. Their abilities create the space for the finest workmanship and utmost individuality, with the use of high-tech processes and integration of proven standard components securing the technical basis.

With the Gumpert Apollo we are providing a select clientele of ambitious sports drivers and car enthusiasts with the opportunity of experiencing the unique synergy between hand-made high-end components optimised for performance on the road and the track, and of distinguishing themselves from the remainder of the world of sports cars. Up to 100 vehicles will leave the factory each year - just enough to ensure that these exceptional vehicles retain their exclusive status.

Gumpert Sportwagenmanufaktur is an independent, privately financed company. The financial stability of the company is being secured by well-known investors. Their operative commitment will also promote the international sales and distribution of Gumpert Apollo.

The challenge was to develop an exceptional design that combined the extreme aerodynamic requirements of a performance-oriented, purist super sports car with the aesthetic design of an exclusive vehicle. We wanted to achieve the perfect synthesis of design and function. Without compromising. And we have succeeded with Gumpert Apollo: Its silhouette, optimised in numerous wind tunnel tests, reflects its by far superior capabilities.

In its profile, the Gumpert Apollo dynamic appearance is further enhanced by its dimensions (4.46 m length, almost 2 m width and 1.24 m height) and its streamlined, long and wide shoulder lines. The mid-engine layout is emphasised by the cockpit, which is clearly located toward the front of the vehicle, and the long wheel base; both factors ensure optimum driving qualities. Massive air inlets and outlets in the front and on the side in front of and behind the doors leave no doubt about its potency. Above all, though, they supply the two turbo-chargers and the high-performance braking system with enough fresh air to ensure optimum operation for the duration of a race. The high-set air intake for the engine is reminiscent of Formula 1 vehicles and emphasises Gumpert Apollo racing character. The dominant rear provides a view of the diffuser and the underbody, encased completely in carbon, - which, combined with the front diffuser and flow channels, achieves an exceptionally high negative lift for a road vehicle.

Gumpert Apollo leaves a lasting impression on anyone who sees it: It symbolises unusual power, dynamism and sportiness. It reflects above-average performance capability paired with timeless elegance, and even when it is not moving, shows that the design can only adhere to function: driving dynamics.

The secret of Gumpert Apollo is an innovative design concept from racing car engineering. The base and symbolic backbone of Gumpert Apollo consists a round tube frame made of top-quality and highly stable chrome-molybdenum-steel with an integrated monocoque safety cell made of high quality carbon fibre screwed directly onto the frame. The 161 kg (355 lbs.) construction design is so effective, so torsion proof and bend resistant that it complies with both the specifications of the European MOT approval and the international manufacture specifications of motor sports (see annex J of the FIA regulations). Gumpert Apollo succeeds in combining low weight with the rigidity of a racing car, finest driving dynamics and maximum safety. The Gumpert Apollo is one of the safest and most agile vehicles of its class.

PERFORMANCE IN A NEW DIMENSION

The Gumpert Apollo is not the only sports car on the market; however its concept is so unique and realised so consistently that it aspires to redefine the standard for this vehicle class. The Gumpert Apollo has more to offer:

•Approved both for use on the road and on the track

•Maximum safety in accordance with the international motor racing standards

•Low curb weight of below 1,200 kg (2,645 lbs.)

•Perfect road-holding and ultra-precise handling

•Maximum driving pleasure and unbeatable driving performance

•Excellent aerodynamic efficiency and driving dynamics

•Synthesis of reliable racing and series technology

•Unique, futuristic, and striking design

•Best cost-benefit ratio

Despite the series production process, every Gumpert Apollo is unique. It is customized to the owner's wishes and needs and proudly bears his touch. We can also offer you:

•Luxury package with air conditioning, navigation radio with DVD/CD-Player and backwards facing camera with rear-view mirror function

•Car body made of fibreglass (GFK) or carbon-fibre (CFK)

•Carbon fibre for various components and car body parts

•Design variants created by use of different air intakes for the engine

•Carbon rear wing (optional available)

•Engine variants with 650 / 700 / 800 HP output

In addition to these different options and equipment packages, we can of course also accommodate any other special requests made by our customers. Just talk to us.

The consistent achievement of maximum driving dynamics and uncompromising functionality is also visible in the interior design: Every detail was designed according to functional viewpoints equivalent to those of a racing car, yet without neglecting the required amount of comfort and quality.

TAILOR-MADE PURISM AND LUXURY

Light weight was the top priority and has been achieved through the exclusive use of high-tech materials. The instrument panel, like the monocoque it is integrated into, is made of carbon fibre. The seat buckets, too, are fitted into the monocoque - although you will not find seats in the conventional meaning in the Gumpert Apollo. The seat position is adjusted to each customer individually, using padding, upholstery, adjustable pedals, and the steering column. Yet you are not required to forgo proven technology in the Gumpert Apollo: air conditioning, high-end navigation system with an integrated reverse camera, CD/DVD player and much more are available.

The Gumpert Apollo is a tailor-made sports car, and individual masterpiece. In line with this principle, customers can design the interior to meet their preferences, be it pure performance or somewhat more luxurious. Decide the colours and designs yourself, whether leather, seams or embroideries are concerned. We guarantee you a car that will fulfil all of your requirements. Just talk to us.

READY FOR RACETRACK

A sports car's supremacy is not defined by pure engine power alone: only a car that can put this power on the asphalt and create a balance between all occurring internal and external forces will leave the contestants behind, on the road and the race track. The chassis is the key to this supremacy - and Gumpert Apollo has already proven itself spectacularly under the toughest testing conditions on various test tracks, public roads and real racing tracks such as Hockenheim, Imola and the historical "Nordschleife".

The Gumpert Apollo is built as a racing car according to FIA GT and ACO regulations upon request.

Success is one of Gumpert Sportwagenmanufaktur's clearly defined objectives in racing. Naturally the factory benefits from the years of experience in motor sports and the remarkable successes of company owner Roland Gumpert.

The Gumpert Apollo made a great third place with the Belgian racing driver, Ruben Maes, in the cockpit at its racing debut at the Divinol Cup in Hockenheim in April 2005.

PROVEN PERFORMANCE IN A NEW DIMENSION

The impressive power of the high-performance eight cylinder engine is based on proven V8-high-performance aggregates from Audi. In the standard configuration this engine is optimised for use in racing and road vehicles and produces 650 HP as a Biturbo engine. Weighing only 196 kg (432 lbs.), it plays a major role in ensuring the ideal weight and fascinating driving dynamics of Gumpert Apollo. An angle of 90° between the two cylinder banks is a sign of a classic 8-cylinder engine. Efficient utilisation of its remarkable energy in the back wheels guarantees the fully-synchronised, sequential six-speed transmission that incorporates Formula 1 know-how. The short gear paths allow high speed gear changes. The arrangement of the gears in a longitudinal direction in the path of travel ensures a very low centre of gravity and optimum weight distribution. The characteristic sound of the double-flow exhaust system of the Gumpert Apollo with its 3-way catalytic converters says it best - the Gumpert Apollo is pure, unbeatable performance as reflected in the data. Like a comet, the Gumpert Apollo catapults its pilot from 0 to 100 km/h (0-62 mph) in just 3.0 seconds and only requires 8.9 seconds from 0 to 200 km/h (0-124 mph).

For connoisseurs form whom driving fun does not necessarily equal maximum motor performance and ultimate acceleration, the engine is also ideally suited for day-to-day driving at lower speeds.

DRIVING DYNAMICS REDEFINED

The Gumpert Apollo's suspension was developed to ideally complement the body's sophisticated aerodynamics. The resulting is unusual driving dynamics. The Gumpert Apollo is taut but not hard and provides driver and passenger with an extraordinar level of comfort for a car designed purely for performance. It demands the pilot's unswerving attention, yet due to its ultra-precise and predictable driving characteristics does not overwhelm, even at top speed.

An ideal weight balance of 42 to 58 percent between the front and rear axis rounds it off: It provides optimum traction during acceleration, whilst ensuring stable control even when braking in critical situations.

The Gumpert Apollo owes the finely tuned sensitivity of the suspension system and the optimised exertion of power to its double transverse control arm pushrod configuration at the front and back. The double transverse control arms ensure that the tires maintain optimum contact with the road surface, independent of the bound rate of suspension system. The suspension system allows the owner to seamlessly set the ground clearance in a range between 40 and 120 mm (1.57-4.72 in). Sealed uniball joints ensure that the forces are transferred precisely and with little friction. Stabilisers support the efficiency of the suspension and pitch compensation prevents the vehicle from diving during braking and lifting during accelerating. Despite its low trim, the Gumpert Apollo provides long wheel travel in compression and rebound, facilitating the finely-tuned and precise functioning of the absorbers and springs.

The high level of driving dynamics is supported by an agile electro-hydraulic power steering system that provides the driver with direct feedback. In order to securely transfer the 850 nm torque to the road, Gumpert Apollo has a traction control system (TCS) used in motor sports. Developed together with the company Racelogic, the permitted slip can be accurately set on the rear axle - according to the drivers wishes. An optional launch control, adjusted to the Gumpert Apollo especially, ensures swift starts like those of Formula 1. The Gumpert Apollo's driving performance is controlled with a 2-circuit high-performance braking system with adjustable 3-level Bosch-ABS, 378 mm (14.9 in) ventilated discs, and 6-piston callipers on the front and rear axle.

All of these are primary technical principles, the sportive orientation of which could not be clearer. Thanks to its suspension, the Gumpert Apollo proves itself in every curve: It redefines the term ‚driving dynamics'.

TECHNICAL SPECIFICATIONS

•DIMENSIONS◦Length 4,460 mm / 175.6"

◦Width 1,998 mm / 78.6"

◦Height 1,114 mm / 43.8"

◦Wheel base 2,700 mm / 106.3"

◦Wheel gauge ◾front: 1,670 mm / 65.7"

◾back: 1,598 mm / 62.9"

◦Boot volume: 100 l

•WEIGHT◦Kerb weight: below 1,200 kg / 2,645 lbs

◦Allowed total weight: 1,500 kg / 3,306 lbs

◦Approved axle load ◾front: 650 kg / 1,452 lbs

◾back: 900 kg / 1,984 lbs

•ENGINE◦Cylinders: 8

◦Type: 90° - V

◦Valves per cylinder: 5

◦Displacement: 4,163 cm3 / 254 in3

◦Stroke: 93 mm / 3.66"

◦Bore: 84.5 mm / 3.32"

◦Nominal output: 478 kW (650 HP) @ 6,500 rpm

◦Maximum torque: 850 Nm (626.9 lb-ft) @ 4,000 rpm [with 820 Nm @ 2700 rpm]

◦Maximum revs: 7,200 rpm

◦Compression ratio: 9,3

◦Recommended fuel type: 98 ROZ / 88 MOZ

◦Emission standard: Euro 4

•GEARBOX◦Sequential six-speed gear box with synchronisation and oil cooling

◦Twin plate clutch configuration (diameter 200 mm / 7.87" each)

◦Differential lock by Torsen

◦Custom-made gear ratios

•WHEELS◦Tire dimension ◾front: 255/35ZR19

◾back: 345/35ZR19

◦Wheel dimension ◾front: 10J x 19

◾back: 13J x 19

◦Wheel rim type: Aluminium cast wheels with centre lock

•PERFORMANCE◦Top speed: 360 km/h (224 mph)

◦0-100 km/h (0-62 mph): 3.0 s

◦0-200 km/h (0-124 mph): 8.9 s

Single In - 2024.09.13

HD Pentax DA 35 2.8 macro Limited

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces displayed nearby in the Priory Visitors Centre). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, aftr all there are echoes of the gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, when all it's stained glass had been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days, but now charges an entry fee (a fix for recent financial worries; gone are the frequent days I used to wander around it in search of inspiration!)and sadly visitors are also encouraged to enter by the far end of the building, contrary to Spence's intentions.

For more see below:-

www.coventrycathedral.org.uk/

Brief synthesis

The Ħal Saflieni Hypogeum (underground cemetery) was discovered in 1902 on a hill overlooking the innermost part of the Grand Harbour of Valletta, in the town of Paola. It is a unique prehistoric monument, which seems to have been conceived as an underground cemetery, originally containing the remains of about 7,000 individuals. The cemetery was in use throughout the Żebbuġ, Ġgantija and Tarxien Phases of Maltese Prehistory, spanning from around 4000 B.C. to 2500 B.C.

Originally, one entered the Ħal Saflieni Hypogeum through a structure at ground level. Only a few blocks of this entrance building have been discovered, and its form and dimensions remain uncertain. The plan of the Hypogeum itself is a series of three superimposed levels of chambers cut into soft globigerina limestone, using only chert, flint and obsidian tools and antlers. The earliest of the three levels is the uppermost, scooped out of the brow of a hill. A number of openings and chambers for the burial of the dead were then cut into the sides of the cavity.

The two lower levels were also hewn entirely out of the natural rock. Some natural daylight reached the middle level through a small opening from the upper level, but artificial lighting must have been used to navigate through some of the middle level chambers and the lowest level, which is 10.60 m below the present ground level.

One of the most striking characteristics of the Ħal Saflieni Hypogeum is that some of the chambers appear to have been cut in imitation of the architecture of the contemporary, above-ground megalithic temples. Features include false bays, inspired by trilithon doorways, and windows. Most importantly, some of the chambers have ceilings with one ring of carved stone overhanging the one below to imitate a roof of corbelled masonry. This form echoes the way in which some of the masonry walls of the contemporary above-ground temple chambers are corbelled inwards, suggesting that they too were originally roofed over.

Some of the walls and ceilings of the chambers were decorated with spiral and honey-comb designs in red ochre, a mineral pigment. These decorations are the only prehistoric wall paintings found on the Maltese Islands. In one of these decorated chambers, there is a small niche which echoes when someone speaks into it. While this effect may not have been created intentionally, it may well have been exploited as part of the rituals that took place within the chambers.

Excavation of the Ħal Saflieni Hypogeum produced a wealth of archaeological material, including numerous human bones, which suggests that the burial ritual had more than one stage. It appears that bodies were probably left exposed until the flesh had decomposed and fallen off. The remaining bones and what appear to be some of the personal belongings were then gathered and buried within the chambers together with copious amounts of red ochre. The use of ochre seems to have been a part of the ritual, perhaps to infuse the bones with the colour of blood and life. Individuals were not buried separately, but piled onto each other.

Artefacts recovered from the site include pottery vessels decorated in intricate designs, shell buttons, stone and clay beads and amulets, as well as little stone carved animals and birds that may have originally been worn as pendants. The most striking finds are stone and clay figurines depicting human figures. The most impressive of these figures is that showing a woman lying on a bed or ‘couch’, popularly known as the ‘Sleeping Lady’. This figure is a work of art in itself, demonstrating a keen eye for detail.

Criterion (iii): The Ħal Saflieni Hypogeum is a unique monument of exceptional value. It is the only known European example of a subterranean ‘labyrinth’ from about 4,000 B.C. to 2,500 B.C. The quality of its architecture and its remarkable state of preservation make it an essential prehistoric monument.

Integrity

The Ħal Saflieni Hypogeum is one of the best preserved and most extensive environments that have survived from the Neolithic. With the exception of the fragmentary remains of the above-ground entrance, all the key attributes of the property, including the architectural details and painted wall decorations, have remained intact within the boundaries.

The main threats to the preservation of the Ħal Saflieni Hypogeum are the fluctuating temperature and relative humidity levels within the site, as well as water infiltration and biological infestations.

Authenticity

The Ħal Saflieni Hypogeum is one of the two most important prehistoric burial sites in the Maltese islands and is very well preserved, unlike the fragmentary remains that usually survive from the above-ground structures of this period.

The unusual preservation of the rock-cut chambers allows the study of a system of interconnecting spaces very much as they were conceived and experienced by a Neolithic mind. The imitation of the interior of a megalithic temple built above ground not only provides evidence on the corbelling system that was used to roof the temples, but is also important in terms of the development of human processes of cognition and representation.

The Ħal Saflieni Hypogeum has also yielded several important artefacts of great artistic significance. Foremost amongst these is the so-called ‘Sleeping Lady’, a miniature ceramic figurine that is widely held to be one of the great masterpieces of prehistoric anthropomorphic representation.

Protection and management requirements

The principal legal instrument for the protection of cultural heritage resources in Malta is the Cultural Heritage Act (2002), which provides for and regulates national bodies for the protection and management of cultural heritage resources. Building development and land use is regulated by the Environment and Development Planning Act (2010 and subsequent amendments), which provides for and regulates the Malta Environment and Planning Authority. The Ħal Saflieni Hypogeum is protected by a buffer zone, and both the Ħal Saflieni Hypogeum and its buffer zone are formally designated by the Malta Environment and Planning Authority as a Grade A archaeological site, which means they are subject to wide-ranging restrictions of building development.

A programme of monitoring and research, launched in order to understand the microclimate of the Hypogeum, was followed by a project for the conservation of the property, designed and implemented in the 1990s. Houses directly above the site were acquired and dismantled; light levels within the property are strictly controlled; and visitor numbers limited. These measures have helped to maintain stable temperature and humidity levels, which continue to be monitored closely.

This is a version of the Synthesis Technology e350 Morphing Terrarium built in MOTM format for a friend. I used Dave Brown's excellent front panel design.

a fun promo piece by ScienceBlogs...

Brief synthesis

The Ħal Saflieni Hypogeum (underground cemetery) was discovered in 1902 on a hill overlooking the innermost part of the Grand Harbour of Valletta, in the town of Paola. It is a unique prehistoric monument, which seems to have been conceived as an underground cemetery, originally containing the remains of about 7,000 individuals. The cemetery was in use throughout the Żebbuġ, Ġgantija and Tarxien Phases of Maltese Prehistory, spanning from around 4000 B.C. to 2500 B.C.

Originally, one entered the Ħal Saflieni Hypogeum through a structure at ground level. Only a few blocks of this entrance building have been discovered, and its form and dimensions remain uncertain. The plan of the Hypogeum itself is a series of three superimposed levels of chambers cut into soft globigerina limestone, using only chert, flint and obsidian tools and antlers. The earliest of the three levels is the uppermost, scooped out of the brow of a hill. A number of openings and chambers for the burial of the dead were then cut into the sides of the cavity.

The two lower levels were also hewn entirely out of the natural rock. Some natural daylight reached the middle level through a small opening from the upper level, but artificial lighting must have been used to navigate through some of the middle level chambers and the lowest level, which is 10.60 m below the present ground level.

One of the most striking characteristics of the Ħal Saflieni Hypogeum is that some of the chambers appear to have been cut in imitation of the architecture of the contemporary, above-ground megalithic temples. Features include false bays, inspired by trilithon doorways, and windows. Most importantly, some of the chambers have ceilings with one ring of carved stone overhanging the one below to imitate a roof of corbelled masonry. This form echoes the way in which some of the masonry walls of the contemporary above-ground temple chambers are corbelled inwards, suggesting that they too were originally roofed over.

Some of the walls and ceilings of the chambers were decorated with spiral and honey-comb designs in red ochre, a mineral pigment. These decorations are the only prehistoric wall paintings found on the Maltese Islands. In one of these decorated chambers, there is a small niche which echoes when someone speaks into it. While this effect may not have been created intentionally, it may well have been exploited as part of the rituals that took place within the chambers.

Excavation of the Ħal Saflieni Hypogeum produced a wealth of archaeological material, including numerous human bones, which suggests that the burial ritual had more than one stage. It appears that bodies were probably left exposed until the flesh had decomposed and fallen off. The remaining bones and what appear to be some of the personal belongings were then gathered and buried within the chambers together with copious amounts of red ochre. The use of ochre seems to have been a part of the ritual, perhaps to infuse the bones with the colour of blood and life. Individuals were not buried separately, but piled onto each other.

Artefacts recovered from the site include pottery vessels decorated in intricate designs, shell buttons, stone and clay beads and amulets, as well as little stone carved animals and birds that may have originally been worn as pendants. The most striking finds are stone and clay figurines depicting human figures. The most impressive of these figures is that showing a woman lying on a bed or ‘couch’, popularly known as the ‘Sleeping Lady’. This figure is a work of art in itself, demonstrating a keen eye for detail.

Criterion (iii): The Ħal Saflieni Hypogeum is a unique monument of exceptional value. It is the only known European example of a subterranean ‘labyrinth’ from about 4,000 B.C. to 2,500 B.C. The quality of its architecture and its remarkable state of preservation make it an essential prehistoric monument.

Integrity

The Ħal Saflieni Hypogeum is one of the best preserved and most extensive environments that have survived from the Neolithic. With the exception of the fragmentary remains of the above-ground entrance, all the key attributes of the property, including the architectural details and painted wall decorations, have remained intact within the boundaries.

The main threats to the preservation of the Ħal Saflieni Hypogeum are the fluctuating temperature and relative humidity levels within the site, as well as water infiltration and biological infestations.

Authenticity

The Ħal Saflieni Hypogeum is one of the two most important prehistoric burial sites in the Maltese islands and is very well preserved, unlike the fragmentary remains that usually survive from the above-ground structures of this period.

The unusual preservation of the rock-cut chambers allows the study of a system of interconnecting spaces very much as they were conceived and experienced by a Neolithic mind. The imitation of the interior of a megalithic temple built above ground not only provides evidence on the corbelling system that was used to roof the temples, but is also important in terms of the development of human processes of cognition and representation.

The Ħal Saflieni Hypogeum has also yielded several important artefacts of great artistic significance. Foremost amongst these is the so-called ‘Sleeping Lady’, a miniature ceramic figurine that is widely held to be one of the great masterpieces of prehistoric anthropomorphic representation.

Protection and management requirements

The principal legal instrument for the protection of cultural heritage resources in Malta is the Cultural Heritage Act (2002), which provides for and regulates national bodies for the protection and management of cultural heritage resources. Building development and land use is regulated by the Environment and Development Planning Act (2010 and subsequent amendments), which provides for and regulates the Malta Environment and Planning Authority. The Ħal Saflieni Hypogeum is protected by a buffer zone, and both the Ħal Saflieni Hypogeum and its buffer zone are formally designated by the Malta Environment and Planning Authority as a Grade A archaeological site, which means they are subject to wide-ranging restrictions of building development.

A programme of monitoring and research, launched in order to understand the microclimate of the Hypogeum, was followed by a project for the conservation of the property, designed and implemented in the 1990s. Houses directly above the site were acquired and dismantled; light levels within the property are strictly controlled; and visitor numbers limited. These measures have helped to maintain stable temperature and humidity levels, which continue to be monitored closely.

Brief synthesis

The Ħal Saflieni Hypogeum (underground cemetery) was discovered in 1902 on a hill overlooking the innermost part of the Grand Harbour of Valletta, in the town of Paola. It is a unique prehistoric monument, which seems to have been conceived as an underground cemetery, originally containing the remains of about 7,000 individuals. The cemetery was in use throughout the Żebbuġ, Ġgantija and Tarxien Phases of Maltese Prehistory, spanning from around 4000 B.C. to 2500 B.C.

Originally, one entered the Ħal Saflieni Hypogeum through a structure at ground level. Only a few blocks of this entrance building have been discovered, and its form and dimensions remain uncertain. The plan of the Hypogeum itself is a series of three superimposed levels of chambers cut into soft globigerina limestone, using only chert, flint and obsidian tools and antlers. The earliest of the three levels is the uppermost, scooped out of the brow of a hill. A number of openings and chambers for the burial of the dead were then cut into the sides of the cavity.

The two lower levels were also hewn entirely out of the natural rock. Some natural daylight reached the middle level through a small opening from the upper level, but artificial lighting must have been used to navigate through some of the middle level chambers and the lowest level, which is 10.60 m below the present ground level.

One of the most striking characteristics of the Ħal Saflieni Hypogeum is that some of the chambers appear to have been cut in imitation of the architecture of the contemporary, above-ground megalithic temples. Features include false bays, inspired by trilithon doorways, and windows. Most importantly, some of the chambers have ceilings with one ring of carved stone overhanging the one below to imitate a roof of corbelled masonry. This form echoes the way in which some of the masonry walls of the contemporary above-ground temple chambers are corbelled inwards, suggesting that they too were originally roofed over.

Some of the walls and ceilings of the chambers were decorated with spiral and honey-comb designs in red ochre, a mineral pigment. These decorations are the only prehistoric wall paintings found on the Maltese Islands. In one of these decorated chambers, there is a small niche which echoes when someone speaks into it. While this effect may not have been created intentionally, it may well have been exploited as part of the rituals that took place within the chambers.

Excavation of the Ħal Saflieni Hypogeum produced a wealth of archaeological material, including numerous human bones, which suggests that the burial ritual had more than one stage. It appears that bodies were probably left exposed until the flesh had decomposed and fallen off. The remaining bones and what appear to be some of the personal belongings were then gathered and buried within the chambers together with copious amounts of red ochre. The use of ochre seems to have been a part of the ritual, perhaps to infuse the bones with the colour of blood and life. Individuals were not buried separately, but piled onto each other.

Artefacts recovered from the site include pottery vessels decorated in intricate designs, shell buttons, stone and clay beads and amulets, as well as little stone carved animals and birds that may have originally been worn as pendants. The most striking finds are stone and clay figurines depicting human figures. The most impressive of these figures is that showing a woman lying on a bed or ‘couch’, popularly known as the ‘Sleeping Lady’. This figure is a work of art in itself, demonstrating a keen eye for detail.

Criterion (iii): The Ħal Saflieni Hypogeum is a unique monument of exceptional value. It is the only known European example of a subterranean ‘labyrinth’ from about 4,000 B.C. to 2,500 B.C. The quality of its architecture and its remarkable state of preservation make it an essential prehistoric monument.

Integrity

The Ħal Saflieni Hypogeum is one of the best preserved and most extensive environments that have survived from the Neolithic. With the exception of the fragmentary remains of the above-ground entrance, all the key attributes of the property, including the architectural details and painted wall decorations, have remained intact within the boundaries.

The main threats to the preservation of the Ħal Saflieni Hypogeum are the fluctuating temperature and relative humidity levels within the site, as well as water infiltration and biological infestations.

Authenticity

The Ħal Saflieni Hypogeum is one of the two most important prehistoric burial sites in the Maltese islands and is very well preserved, unlike the fragmentary remains that usually survive from the above-ground structures of this period.

The unusual preservation of the rock-cut chambers allows the study of a system of interconnecting spaces very much as they were conceived and experienced by a Neolithic mind. The imitation of the interior of a megalithic temple built above ground not only provides evidence on the corbelling system that was used to roof the temples, but is also important in terms of the development of human processes of cognition and representation.

The Ħal Saflieni Hypogeum has also yielded several important artefacts of great artistic significance. Foremost amongst these is the so-called ‘Sleeping Lady’, a miniature ceramic figurine that is widely held to be one of the great masterpieces of prehistoric anthropomorphic representation.

Protection and management requirements

The principal legal instrument for the protection of cultural heritage resources in Malta is the Cultural Heritage Act (2002), which provides for and regulates national bodies for the protection and management of cultural heritage resources. Building development and land use is regulated by the Environment and Development Planning Act (2010 and subsequent amendments), which provides for and regulates the Malta Environment and Planning Authority. The Ħal Saflieni Hypogeum is protected by a buffer zone, and both the Ħal Saflieni Hypogeum and its buffer zone are formally designated by the Malta Environment and Planning Authority as a Grade A archaeological site, which means they are subject to wide-ranging restrictions of building development.

A programme of monitoring and research, launched in order to understand the microclimate of the Hypogeum, was followed by a project for the conservation of the property, designed and implemented in the 1990s. Houses directly above the site were acquired and dismantled; light levels within the property are strictly controlled; and visitor numbers limited. These measures have helped to maintain stable temperature and humidity levels, which continue to be monitored closely.

Brief synthesis

The Ħal Saflieni Hypogeum (underground cemetery) was discovered in 1902 on a hill overlooking the innermost part of the Grand Harbour of Valletta, in the town of Paola. It is a unique prehistoric monument, which seems to have been conceived as an underground cemetery, originally containing the remains of about 7,000 individuals. The cemetery was in use throughout the Żebbuġ, Ġgantija and Tarxien Phases of Maltese Prehistory, spanning from around 4000 B.C. to 2500 B.C.

Originally, one entered the Ħal Saflieni Hypogeum through a structure at ground level. Only a few blocks of this entrance building have been discovered, and its form and dimensions remain uncertain. The plan of the Hypogeum itself is a series of three superimposed levels of chambers cut into soft globigerina limestone, using only chert, flint and obsidian tools and antlers. The earliest of the three levels is the uppermost, scooped out of the brow of a hill. A number of openings and chambers for the burial of the dead were then cut into the sides of the cavity.

The two lower levels were also hewn entirely out of the natural rock. Some natural daylight reached the middle level through a small opening from the upper level, but artificial lighting must have been used to navigate through some of the middle level chambers and the lowest level, which is 10.60 m below the present ground level.

One of the most striking characteristics of the Ħal Saflieni Hypogeum is that some of the chambers appear to have been cut in imitation of the architecture of the contemporary, above-ground megalithic temples. Features include false bays, inspired by trilithon doorways, and windows. Most importantly, some of the chambers have ceilings with one ring of carved stone overhanging the one below to imitate a roof of corbelled masonry. This form echoes the way in which some of the masonry walls of the contemporary above-ground temple chambers are corbelled inwards, suggesting that they too were originally roofed over.

Some of the walls and ceilings of the chambers were decorated with spiral and honey-comb designs in red ochre, a mineral pigment. These decorations are the only prehistoric wall paintings found on the Maltese Islands. In one of these decorated chambers, there is a small niche which echoes when someone speaks into it. While this effect may not have been created intentionally, it may well have been exploited as part of the rituals that took place within the chambers.

Excavation of the Ħal Saflieni Hypogeum produced a wealth of archaeological material, including numerous human bones, which suggests that the burial ritual had more than one stage. It appears that bodies were probably left exposed until the flesh had decomposed and fallen off. The remaining bones and what appear to be some of the personal belongings were then gathered and buried within the chambers together with copious amounts of red ochre. The use of ochre seems to have been a part of the ritual, perhaps to infuse the bones with the colour of blood and life. Individuals were not buried separately, but piled onto each other.

Artefacts recovered from the site include pottery vessels decorated in intricate designs, shell buttons, stone and clay beads and amulets, as well as little stone carved animals and birds that may have originally been worn as pendants. The most striking finds are stone and clay figurines depicting human figures. The most impressive of these figures is that showing a woman lying on a bed or ‘couch’, popularly known as the ‘Sleeping Lady’. This figure is a work of art in itself, demonstrating a keen eye for detail.

Criterion (iii): The Ħal Saflieni Hypogeum is a unique monument of exceptional value. It is the only known European example of a subterranean ‘labyrinth’ from about 4,000 B.C. to 2,500 B.C. The quality of its architecture and its remarkable state of preservation make it an essential prehistoric monument.

Integrity

The Ħal Saflieni Hypogeum is one of the best preserved and most extensive environments that have survived from the Neolithic. With the exception of the fragmentary remains of the above-ground entrance, all the key attributes of the property, including the architectural details and painted wall decorations, have remained intact within the boundaries.

The main threats to the preservation of the Ħal Saflieni Hypogeum are the fluctuating temperature and relative humidity levels within the site, as well as water infiltration and biological infestations.

Authenticity

The Ħal Saflieni Hypogeum is one of the two most important prehistoric burial sites in the Maltese islands and is very well preserved, unlike the fragmentary remains that usually survive from the above-ground structures of this period.

The unusual preservation of the rock-cut chambers allows the study of a system of interconnecting spaces very much as they were conceived and experienced by a Neolithic mind. The imitation of the interior of a megalithic temple built above ground not only provides evidence on the corbelling system that was used to roof the temples, but is also important in terms of the development of human processes of cognition and representation.

The Ħal Saflieni Hypogeum has also yielded several important artefacts of great artistic significance. Foremost amongst these is the so-called ‘Sleeping Lady’, a miniature ceramic figurine that is widely held to be one of the great masterpieces of prehistoric anthropomorphic representation.

Protection and management requirements

The principal legal instrument for the protection of cultural heritage resources in Malta is the Cultural Heritage Act (2002), which provides for and regulates national bodies for the protection and management of cultural heritage resources. Building development and land use is regulated by the Environment and Development Planning Act (2010 and subsequent amendments), which provides for and regulates the Malta Environment and Planning Authority. The Ħal Saflieni Hypogeum is protected by a buffer zone, and both the Ħal Saflieni Hypogeum and its buffer zone are formally designated by the Malta Environment and Planning Authority as a Grade A archaeological site, which means they are subject to wide-ranging restrictions of building development.

A programme of monitoring and research, launched in order to understand the microclimate of the Hypogeum, was followed by a project for the conservation of the property, designed and implemented in the 1990s. Houses directly above the site were acquired and dismantled; light levels within the property are strictly controlled; and visitor numbers limited. These measures have helped to maintain stable temperature and humidity levels, which continue to be monitored closely.

Outstanding Universal Value

Brief synthesis

Volubilis contains essentially Roman vestiges of a fortified municipium built on a commanding site at the foot of the Jebel Zerhoun. Covering an area of 42 hectares, it is of outstanding importance demonstrating urban development and Romanisation at the frontiers of the Roman Empire and the graphic illustration of the interface between the Roman and indigenous cultures. Because of its isolation and the fact that it had not been occupied for nearly a thousand years, it presents an important level of authenticity. It is one of the richest sites of this period in North Africa, not only for its ruins but also for the great wealth of its epigraphic evidence.

The archaeological vestiges of this site bear witness to several civilizations. All the phases of its ten centuries of occupation, from prehistory to the Islamic period are represented. The site has produced a substantial amount of artistic material, including mosaics, marble and bronze statuary, and hundreds of inscriptions. This documentation and that which remains to be discovered, is representative of a creative spirit of the human beings who lived there over the ages. The limit of the site is represented by the Roman rampart constructed in 168-169 AD. The features of the site reveal two topographic forms: a relatively flat sloping area in the North-Eastern part, the monumental sector and a part of the sector of the triumphal arch, where the Romans employed an urban hypodamian system, and a rougher hilly area covering the South and Western parts where a terraced plan was adopted. The vestiges bear testimony to diverse periods, from Mauritanian times when it was part of an independent kingdom, to the Roman period when it was a metropolis of the Roman province of Mauritania Tingitana, a period called the « dark ages » with towards the end a Christian era, and finally an Islamic period characterised by the founding of the dynasty of the Idrissids.

Criterion (ii): The archaeological site of Volubilis is an outstanding example of a town bearing witness to an exchange of influences since High Antiquity until Islamic times. These interchanges took place in a town environment corresponding to the boundary of the site, and in a rural area extending between the prerif ridges from Zerhoun and the Gharb Plain. These influences testify to Mediterranean, Libyan and Moor, Punic, Roman and Arab-Islamic cultures as well as African and Christian cultures. They are evident in the urban evolution of the town, the construction styles and architectural decorations and landscape creation.

Criterion (iii): This site is an outstanding example of an archaeological and architectural complex and of a cultural landscape bearing witness to many cultures (Libyco-Berber and Mauritanian, Roman, Christian and Arabo-Islamic) of which several have disappeared.

Criterion (iv): The archaeological site of Volubilis is an outstanding example of a focus for the different kinds of immigration, cultural traditions and lost cultures (Libyco-Berber and Mauritanian, Roman, Christian and Arabo-Islamic) since High Antiquity until the Islamic period.

Criterion (vi): The archaeological site of Volubilis is rich in history, events, ideas, beliefs and artistic works of universal significance, notably as a place that, for a brief period, became the capital of the Muslim dynasty of the Idrissids. The town of Moulay Idriss Zerhoun adjacent to the site houses the tomb of this founder and is the subject of an annual pilgrimage.

Integrity (2009)

The buffer zone (Decision 32 COM 8B.55) and the boundaries of the site (Decision 32 COM 8D) were clarified and approved by the World Heritage Committee in 2008. The boundaries of the property include all the preserved elements that belonged to the fortified town and its outer buildings.

The abandonment of the town for many centuries ensured that its ruins remained in an excellent state of conservation. The ruins should be the subject of long-term conservation programmes to preserve their authenticity.

Authenticity (2009)

Volubilis is remarkable for its urban conception (hypodamian plan and terraced plan), its execution according to well-defined architectural and defensive standards, its construction materials representing various geological aspects, its components reflecting a wealth of town facilities; all these features are still visible today. It is also characterised by its integration into a natural intact landscape and an original cultural environment.

Protection and management requirements (2009)

Protection measures principally concern the different laws for listing historic monuments and sites, in particular Law 22-80 (1981) regarding the conservation of Moroccan heritage. The management of the site is based on an Action Plan, which refers to a national and international legal statute as well as to the strategy of the Ministry of Culture and decisions of the World Heritage Committee. The management concerns conservation, preventive conservation, excavations, maintenance, security, restoration, presentation of the site and preservation of its protection area. The management plan is under preparation by the Conservation departement of Volubilis, the body responsible for the management of the site. Adoption of the protection zone, the establishment of land ownership of the property, the preparation of the cadastral plan and the development project being established by the Ministry of Culture, all constitute the basic elements of this document. The management plan should treat all new interventions at the site.

Limnes Mirabello

I don't wanna be the centre of anything, just a part of something bigger

Thank you Julie for those awesome pictures of the show! <3

This is a version of the Synthesis Technology e350 Morphing Terrarium built in MOTM format for a friend. I used Dave Brown's excellent front panel design.

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces were displayed nearby in the Priory Visitors Centre, sadly since closed). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, after all there are echoes of the Gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, all it's stained glass having been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days. For more see below:-

www.coventrycathedral.org.uk/

Coventry's Cathedral is a unique synthesis of old a new, born of wartime suffering and forged in the spirit of postwar optimism, famous for it's history and for being the most radically modern of Anglican cathedrals. Two cathedral's stand side by side, the ruins of the medieval building, destroyed by incendiary bombs in 1940 and the bold new building designed by Basil Spence and opened in 1962.

It is a common misconception that Coventry lost it's first cathedral in the wartime blitz, but the bombs actually destroyed it's second; the original medieval cathedral was the monastic St Mary's, a large cruciform building believed to have been similar in appearance to Lichfield Cathedral (whose diocese it shared). Tragically it became the only English cathedral to be destroyed during the Reformation, after which it was quickly quarried away, leaving only scant fragments, but enough evidence survives to indicate it's rich decoration (some pieces displayed nearby in the Priory Visitors Centre). Foundations of it's apse were found during the building of the new cathedral in the 1950s, thus technically three cathedrals share the same site.

The mainly 15th century St Michael's parish church became the seat of the new diocese of Coventry in 1918, and being one of the largest parish churches in the country it was upgraded to cathedral status without structural changes (unlike most 'parish church' cathedrals created in the early 20th century). It lasted in this role a mere 22 years before being burned to the ground in the 1940 Coventry Blitz, leaving only the outer walls and the magnificent tapering tower and spire (the extensive arcades and clerestoreys collapsed completely in the fire, precipitated by the roof reinforcement girders, installed in the Victorian restoration, that buckled in the intense heat).

The determination to rebuild the cathedral in some form was born on the day of the bombing, however it wasn't until the mid 1950s that a competition was held and Sir Basil Spence's design was chosen. Spence had been so moved by experiencing the ruined church he resolved to retain it entirely to serve as a forecourt to the new church. He envisaged the two being linked by a glass screen wall so that the old church would be visible from within the new.

Built between 1957-62 at a right-angle to the ruins, the new cathedral attracted controversy for it's modern form, and yet some modernists argued that it didn't go far enough, afterall there are echoes of the gothic style in the great stone-mullioned windows of the nave and the net vaulting (actually a free-standing canopy) within. What is exceptional is the way art has been used as such an integral part of the building, a watershed moment, revolutionising the concept of religious art in Britain.

Spence employed some of the biggest names in contemporary art to contribute their vision to his; the exterior is adorned with Jacob Epstein's triumphant bronze figures of Archangel Michael (patron of the cathedral) vanquishing the Devil. At the entrance is the remarkable glass wall, engraved by John Hutton with strikingly stylised figures of saints and angels, and allowing the interior of the new to communicate with the ruin. Inside, the great tapestry of Christ in majesty surrounded by the evangelistic creatures, draws the eye beyond the high altar; it was designed by Graham Sutherland and was the largest tapestry ever made.

However one of the greatest features of Coventry is it's wealth of modern stained glass, something Spence resolved to include having witnessed the bleakness of Chartres Cathedral in wartime, when all it's stained glass had been removed. The first window encountered on entering is the enormous 'chess-board' baptistry window filled with stunning abstract glass by John Piper & Patrick Reyntiens, a symphony of glowing colour. The staggered nave walls are illuminated by ten narrow floor to ceiling windows filled with semi-abstract symbolic designs arranged in pairs of dominant colours (green, red, multi-coloured, purple/blue and gold) representing the souls journey to maturity, and revealed gradually as one approaches the altar. This amazing project was the work of three designers lead by master glass artist Lawrence Lee of the Royal College of Art along with Keith New and Geoffrey Clarke (each artist designed three of the windows individually and all collaborated on the last).

The cathedral still dazzles the visitor with the boldness of it's vision, but alas, half a century on, it was not a vision to be repeated and few of the churches and cathedrals built since can claim to have embraced the synthesis of art and architecture in the way Basil Spence did at Coventry.

The cathedral is generally open to visitors most days, but now charges an entry fee (a fix for recent financial worries; gone are the frequent days I used to wander around it in search of inspiration!)and sadly visitors are also encouraged to enter by the far end of the building, contrary to Spence's intentions.

For more see below:-

www.coventrycathedral.org.uk/

The Gumpert Apollo is the perfect synthesis between road vehicle and racing car. It exceeds all expectations with its passion and maximum driving fun. 650 HP, up to 360 km/h top-speed and an acceleration of 0 to 100 km/h in just 3.0 seconds make it a full-blooded super sports car to which there is no alternative. The complete package is available at a cost-performance ratio unequalled in this exclusive vehicle class.

The production process is the one part of the manufacture philosophy in which exclusivity and precision are paramount to speed. Gumpert Sportwagenmanufaktur associates the term ‚manufacture' with it's the commitment to achieve quality and luxury by means of craftsmanship and hand-made production.

Roland Gumpert, founder, managing director and the driving force behind Sportwagenmanufaktur, has created a manufacturing environment that combines engineering excellence with a broad automotive and racing competence. Experts within the motorsports scene are all familiar with the name Gumpert: In the mid 1970s, the long-standing Audi manager was the driving force behind the development of the four-wheel drive "Iltis", the original predecessor of today's "Quattro". In 1979 he not only succeeded in preparing the gnarled four-wheel drive "Iltis" for the Paris-Dakar rally, but also achieved victory. In the years that followed under his management, Audi Sport won a total of 25 World Rally Championship races and was the 4-time winner of the World Rally Championship. Gumpert's professional success is distinguished by his ability to combine innovative ideas with proven technology effectively and successfully.

Gumpert Apollo (2008)

2008 Gumpert Apollo

A team of automotive and motor sports specialists joined forces to pool their enthusiasm and energy into developing and creating the Gumpert Apollo. Their abilities create the space for the finest workmanship and utmost individuality, with the use of high-tech processes and integration of proven standard components securing the technical basis.

With the Gumpert Apollo we are providing a select clientele of ambitious sports drivers and car enthusiasts with the opportunity of experiencing the unique synergy between hand-made high-end components optimised for performance on the road and the track, and of distinguishing themselves from the remainder of the world of sports cars. Up to 100 vehicles will leave the factory each year - just enough to ensure that these exceptional vehicles retain their exclusive status.

Gumpert Sportwagenmanufaktur is an independent, privately financed company. The financial stability of the company is being secured by well-known investors. Their operative commitment will also promote the international sales and distribution of Gumpert Apollo.

The challenge was to develop an exceptional design that combined the extreme aerodynamic requirements of a performance-oriented, purist super sports car with the aesthetic design of an exclusive vehicle. We wanted to achieve the perfect synthesis of design and function. Without compromising. And we have succeeded with Gumpert Apollo: Its silhouette, optimised in numerous wind tunnel tests, reflects its by far superior capabilities.

In its profile, the Gumpert Apollo dynamic appearance is further enhanced by its dimensions (4.46 m length, almost 2 m width and 1.24 m height) and its streamlined, long and wide shoulder lines. The mid-engine layout is emphasised by the cockpit, which is clearly located toward the front of the vehicle, and the long wheel base; both factors ensure optimum driving qualities. Massive air inlets and outlets in the front and on the side in front of and behind the doors leave no doubt about its potency. Above all, though, they supply the two turbo-chargers and the high-performance braking system with enough fresh air to ensure optimum operation for the duration of a race. The high-set air intake for the engine is reminiscent of Formula 1 vehicles and emphasises Gumpert Apollo racing character. The dominant rear provides a view of the diffuser and the underbody, encased completely in carbon, - which, combined with the front diffuser and flow channels, achieves an exceptionally high negative lift for a road vehicle.

Gumpert Apollo leaves a lasting impression on anyone who sees it: It symbolises unusual power, dynamism and sportiness. It reflects above-average performance capability paired with timeless elegance, and even when it is not moving, shows that the design can only adhere to function: driving dynamics.

The secret of Gumpert Apollo is an innovative design concept from racing car engineering. The base and symbolic backbone of Gumpert Apollo consists a round tube frame made of top-quality and highly stable chrome-molybdenum-steel with an integrated monocoque safety cell made of high quality carbon fibre screwed directly onto the frame. The 161 kg (355 lbs.) construction design is so effective, so torsion proof and bend resistant that it complies with both the specifications of the European MOT approval and the international manufacture specifications of motor sports (see annex J of the FIA regulations). Gumpert Apollo succeeds in combining low weight with the rigidity of a racing car, finest driving dynamics and maximum safety. The Gumpert Apollo is one of the safest and most agile vehicles of its class.

PERFORMANCE IN A NEW DIMENSION

The Gumpert Apollo is not the only sports car on the market; however its concept is so unique and realised so consistently that it aspires to redefine the standard for this vehicle class. The Gumpert Apollo has more to offer:

•Approved both for use on the road and on the track

•Maximum safety in accordance with the international motor racing standards

•Low curb weight of below 1,200 kg (2,645 lbs.)

•Perfect road-holding and ultra-precise handling

•Maximum driving pleasure and unbeatable driving performance

•Excellent aerodynamic efficiency and driving dynamics

•Synthesis of reliable racing and series technology

•Unique, futuristic, and striking design

•Best cost-benefit ratio

Despite the series production process, every Gumpert Apollo is unique. It is customized to the owner's wishes and needs and proudly bears his touch. We can also offer you:

•Luxury package with air conditioning, navigation radio with DVD/CD-Player and backwards facing camera with rear-view mirror function

•Car body made of fibreglass (GFK) or carbon-fibre (CFK)

•Carbon fibre for various components and car body parts

•Design variants created by use of different air intakes for the engine

•Carbon rear wing (optional available)

•Engine variants with 650 / 700 / 800 HP output

In addition to these different options and equipment packages, we can of course also accommodate any other special requests made by our customers. Just talk to us.

The consistent achievement of maximum driving dynamics and uncompromising functionality is also visible in the interior design: Every detail was designed according to functional viewpoints equivalent to those of a racing car, yet without neglecting the required amount of comfort and quality.

TAILOR-MADE PURISM AND LUXURY

Light weight was the top priority and has been achieved through the exclusive use of high-tech materials. The instrument panel, like the monocoque it is integrated into, is made of carbon fibre. The seat buckets, too, are fitted into the monocoque - although you will not find seats in the conventional meaning in the Gumpert Apollo. The seat position is adjusted to each customer individually, using padding, upholstery, adjustable pedals, and the steering column. Yet you are not required to forgo proven technology in the Gumpert Apollo: air conditioning, high-end navigation system with an integrated reverse camera, CD/DVD player and much more are available.

The Gumpert Apollo is a tailor-made sports car, and individual masterpiece. In line with this principle, customers can design the interior to meet their preferences, be it pure performance or somewhat more luxurious. Decide the colours and designs yourself, whether leather, seams or embroideries are concerned. We guarantee you a car that will fulfil all of your requirements. Just talk to us.

READY FOR RACETRACK

A sports car's supremacy is not defined by pure engine power alone: only a car that can put this power on the asphalt and create a balance between all occurring internal and external forces will leave the contestants behind, on the road and the race track. The chassis is the key to this supremacy - and Gumpert Apollo has already proven itself spectacularly under the toughest testing conditions on various test tracks, public roads and real racing tracks such as Hockenheim, Imola and the historical "Nordschleife".

The Gumpert Apollo is built as a racing car according to FIA GT and ACO regulations upon request.

Success is one of Gumpert Sportwagenmanufaktur's clearly defined objectives in racing. Naturally the factory benefits from the years of experience in motor sports and the remarkable successes of company owner Roland Gumpert.

The Gumpert Apollo made a great third place with the Belgian racing driver, Ruben Maes, in the cockpit at its racing debut at the Divinol Cup in Hockenheim in April 2005.

PROVEN PERFORMANCE IN A NEW DIMENSION

The impressive power of the high-performance eight cylinder engine is based on proven V8-high-performance aggregates from Audi. In the standard configuration this engine is optimised for use in racing and road vehicles and produces 650 HP as a Biturbo engine. Weighing only 196 kg (432 lbs.), it plays a major role in ensuring the ideal weight and fascinating driving dynamics of Gumpert Apollo. An angle of 90° between the two cylinder banks is a sign of a classic 8-cylinder engine. Efficient utilisation of its remarkable energy in the back wheels guarantees the fully-synchronised, sequential six-speed transmission that incorporates Formula 1 know-how. The short gear paths allow high speed gear changes. The arrangement of the gears in a longitudinal direction in the path of travel ensures a very low centre of gravity and optimum weight distribution. The characteristic sound of the double-flow exhaust system of the Gumpert Apollo with its 3-way catalytic converters says it best - the Gumpert Apollo is pure, unbeatable performance as reflected in the data. Like a comet, the Gumpert Apollo catapults its pilot from 0 to 100 km/h (0-62 mph) in just 3.0 seconds and only requires 8.9 seconds from 0 to 200 km/h (0-124 mph).

For connoisseurs form whom driving fun does not necessarily equal maximum motor performance and ultimate acceleration, the engine is also ideally suited for day-to-day driving at lower speeds.

DRIVING DYNAMICS REDEFINED

The Gumpert Apollo's suspension was developed to ideally complement the body's sophisticated aerodynamics. The resulting is unusual driving dynamics. The Gumpert Apollo is taut but not hard and provides driver and passenger with an extraordinar level of comfort for a car designed purely for performance. It demands the pilot's unswerving attention, yet due to its ultra-precise and predictable driving characteristics does not overwhelm, even at top speed.

An ideal weight balance of 42 to 58 percent between the front and rear axis rounds it off: It provides optimum traction during acceleration, whilst ensuring stable control even when braking in critical situations.

The Gumpert Apollo owes the finely tuned sensitivity of the suspension system and the optimised exertion of power to its double transverse control arm pushrod configuration at the front and back. The double transverse control arms ensure that the tires maintain optimum contact with the road surface, independent of the bound rate of suspension system. The suspension system allows the owner to seamlessly set the ground clearance in a range between 40 and 120 mm (1.57-4.72 in). Sealed uniball joints ensure that the forces are transferred precisely and with little friction. Stabilisers support the efficiency of the suspension and pitch compensation prevents the vehicle from diving during braking and lifting during accelerating. Despite its low trim, the Gumpert Apollo provides long wheel travel in compression and rebound, facilitating the finely-tuned and precise functioning of the absorbers and springs.

The high level of driving dynamics is supported by an agile electro-hydraulic power steering system that provides the driver with direct feedback. In order to securely transfer the 850 nm torque to the road, Gumpert Apollo has a traction control system (TCS) used in motor sports. Developed together with the company Racelogic, the permitted slip can be accurately set on the rear axle - according to the drivers wishes. An optional launch control, adjusted to the Gumpert Apollo especially, ensures swift starts like those of Formula 1. The Gumpert Apollo's driving performance is controlled with a 2-circuit high-performance braking system with adjustable 3-level Bosch-ABS, 378 mm (14.9 in) ventilated discs, and 6-piston callipers on the front and rear axle.

All of these are primary technical principles, the sportive orientation of which could not be clearer. Thanks to its suspension, the Gumpert Apollo proves itself in every curve: It redefines the term ‚driving dynamics'.

TECHNICAL SPECIFICATIONS

•DIMENSIONS◦Length 4,460 mm / 175.6"

◦Width 1,998 mm / 78.6"

◦Height 1,114 mm / 43.8"

◦Wheel base 2,700 mm / 106.3"

◦Wheel gauge ◾front: 1,670 mm / 65.7"

◾back: 1,598 mm / 62.9"

◦Boot volume: 100 l

•WEIGHT◦Kerb weight: below 1,200 kg / 2,645 lbs

◦Allowed total weight: 1,500 kg / 3,306 lbs

◦Approved axle load ◾front: 650 kg / 1,452 lbs

◾back: 900 kg / 1,984 lbs

•ENGINE◦Cylinders: 8

◦Type: 90° - V

◦Valves per cylinder: 5

◦Displacement: 4,163 cm3 / 254 in3

◦Stroke: 93 mm / 3.66"

◦Bore: 84.5 mm / 3.32"

◦Nominal output: 478 kW (650 HP) @ 6,500 rpm

◦Maximum torque: 850 Nm (626.9 lb-ft) @ 4,000 rpm [with 820 Nm @ 2700 rpm]

◦Maximum revs: 7,200 rpm

◦Compression ratio: 9,3

◦Recommended fuel type: 98 ROZ / 88 MOZ

◦Emission standard: Euro 4

•GEARBOX◦Sequential six-speed gear box with synchronisation and oil cooling

◦Twin plate clutch configuration (diameter 200 mm / 7.87" each)

◦Differential lock by Torsen

◦Custom-made gear ratios

•WHEELS◦Tire dimension ◾front: 255/35ZR19

◾back: 345/35ZR19

◦Wheel dimension ◾front: 10J x 19

◾back: 13J x 19

◦Wheel rim type: Aluminium cast wheels with centre lock

•PERFORMANCE◦Top speed: 360 km/h (224 mph)

◦0-100 km/h (0-62 mph): 3.0 s

◦0-200 km/h (0-124 mph): 8.9 s