Sunday, February 27, 2011

The DELL Studio XPS 435 Desktop Computer

Dell launched the Studio XPS 435 Desktop Computer in February 09. There is a lot of buzz about the all new Intel® Core™ i7 processors with Intel® Turbo Boost Technology and the Studio XPS 435 is powered by the i7 processor. The Studio XPS desktop comes fully equipped with discrete graphics to enable high performance for graphics and movie applications.
Dell Studio XPS 435 Desktop Computer
If you love that get-ahead technology, the XPS 435 is the perfect bet. Packed with the latest technology, parts and advanced design, it enhances the user’s experience overall. Whether it be rendering graphics, playing your favorite games or watching stunning clear movies, the Dell Studio XPS 435 does it all, better than any other computer.
Click here to buy the DELL XPS 435 desktop computer at a discount price at Amazon and also read consumer reviews.
The Dell Studio XPS 435 is extendable upto 24GB memory Tri-Channel DDR3 SDRAM at 1066MHz – 6 DIMMs (Dual Inline Memory Modules). Intel® Core™ i7-920 Processor powers up this desktop with a stunning 8MB L2 Cache at 2.66GHz. The Dell 24 inch Consumer™ S2409W Flat Panel monitor goes best with this destop. The monitor comes with an Adjustable Stand. Play your latest favorite games with the ATI Radeon HD 4670 512MB2 graphics card and crystal clear sound with the integrated 7.1 channel audio. The full-sized ATX tower means immense expandability for future technology upgrades including six DIMMs for up to 24GB tri-channel memory, three hard drive bays capable of up to 4.5TB2 of storage and dual optical options. Bold, distinctive design blends style and function for any room of the house – pure white and translucent black bezel accented with brilliant crimson orange trim; recessed media tray with 3 angled USB ports; top-mounted integrated 15-in-1media card reader; built-in infrared receiver; and optional Blu-Ray Disc™.
Dell Studio XPS 435 Chasis
The base price for owning a Dell Studio XPS 435 starts at $899. With this investment, you can forget about upgrading your computer for a couple of years because this desktop is designed with rooming in mind so that it is easily extendable to include more power and brains.

Dell Studio XPS 435 Technical Specification

Processor: Intel® Core i7
Chipset: Intel® X58 Chipset
Memory: Up to 24GB 1066 MHz Tri-Channel DDR3 SDRAM – 6 DIMMs
Hard Drive: Three hard drive bays capable of up to 4.5TB2Optical Drive Options: Blu-ray DiscTM and DVD +/- RW
Graphics Card: ATI Radeon HD 4670 512MB2Audio Card: Integrated Intel® 7.1 channel High Definition Audio
LAN: Integrated 10/100/1000 (Gigabit) Ethernet LAN
Front Ports:
Optical Drive ((DVD+/-RW, Blu-ray DiscTM ))
Mini (4-pin) IEEE 1394
Headphone port
Microphone / Line-in port
19-in-1 Card Reader(optional)
USB 2.0 (4)
Rear Ports:
IEEE 1394
RJ45 10/100/1000 Network port
Back L/R surround connector
Center/subwoofer connector
Line-in connector
Front L/R line-out connector
Microphone connector
Side L/R surround connector
USB 2.0 (4)
eSata
S/PDIF connector
External Connections: Additional drives can connect to eSATA, 1394 and/or USB 2.0 ports
Expansion Slots: PCIe x1: 3 Slot and PCIe x16 (Graphics): 1 Slot
Power: 360 Watts
Backup battery: 3-V CR2032 lithium coin cell
Dell Studio XPS 435 Rear
Since the graphics and video quality totally depend on the type of graphics card installed in a computer, it is advisable to have the ATI Radeon HD 4670 512MB2 to get the best viewing experience on your Dell Studio XPS 435. ATI are well known for best game playing experience, this desktop can render graphics at its full potential with this graphic card. Most of all, the price for this desktop is pretty affordable.


scour:http://www.devduff.com

A New Laptop - Notebook Computer

Tips for Buying A New Laptop - Notebook Computer buy Guide


Do you want to buy a Laptop but don’t know how to, don’t worry we’ll help you out. Buying a new Laptops or Notebook Computers might get difficult for you if you are not familiar with them.


You first have to decide if all the latest technology is important for you?

Do you really need all new notebook technology? But first you have to figure out why you want a Laptop? Why are you buying it? What tasks you want to perform on your laptop?
I you want a Notebook just for web browsing and emailing then a laptop made few years before will suitable for you and it will also cost you less.






Tips for Buying A New Laptop - Notebook Computer buy Guide

So what do you need the laptop for?
Do you need a lightweight portable laptop for business trips or meetings? Or you want a student notebook for classes? Or just want to replace your desktop computer with a Notebook that you can easily move around in your home?

In my case, I want to replace my desktop that I could easily move around my home and take out infrequent trips or vacations. Long battery life was not a major issue as I would be using it while plugging into an electrical outlet. Besides, the laptop I want would be 7 or 8 pounds and I have no problem carrying my Notebook around over any great distance.
As I work as a Full time Graphic Designer too so I need a machine with a lot of RAM, a Multi Drive DVD and a wide screen display are also important for some Entertainment. On other hand High quality graphics and sound are also a need.

RAM
RAM or Random Access Memory is perhaps the most important factor to consider when buying your laptop or any computer. The speed of your laptop or computer is greatly determined by RAM.
You must have to make sure that you have enough RAM so that it can process your tasks and graphics rapidly. You can now find many laptops pre-loaded with 1 Gig of RAM and capable of upgrading to 4 Gigs or more.
Also to mention that if you are gaming fan, Video RAM will be important and you need a top line Graphics Card which will increase your laptop’s cost. I advise you to buy a laptop with upgradeable memory - since new applications, multi windowed browsers, streaming video...of the very near future may place high demand on your laptop's RAM.
Dual Core Processors
CPU is the heart of your laptop and in this case you have Two Hearts - Intel Centrino Duo is most common today. However, AMD is also giving some tough competition for Intel in the dual core battle by launching Athlon™ 64 X2 dual core processor. You can choose between both of them.
Hard Drive
A 100 or 120 Giga Byte hard drive in laptops is now common. But if you don’t want that much you can choose a small one. I recommend you to choose a SATA hard drive with a high 5400 or 7200 RPM (Revolutions per minute).



Tips for Buying A New Laptop - Notebook Computer buy Guide

Weight or Size
A common reason to buy laptop is due to its weight or size and portability – otherwise you can save your money by buying a Desktop PC. A laptop offers portability you can move it anywhere tucking under your arm and cart it to class or your next business meeting. It is ideal to carry your information and work along with you anywhere. This portability is the main
selling feature of a laptop.

You can pick up a Laptop’s according to your requirement. Laptops are divided into different categories, here's a quick overview:
Tablet PC (smallest) Size of a paper tablet or notepad, less than 3 pounds.
Ultra Portable (small) <11" x <10" Less than 1.3 inches thick, less than 4 pounds.

Thin and Light (mid-size) 11-14" x <11" 1 to 1.4 inches thick, from 5 to 7 pounds.

Desktop Replacements (largest) >13" x >11" More than 1.5 inches, more than 7 pounds and up.
Price
Well it totally depends on your pocket and requirement the more technology you add, more you have to pay.

Warranties
Don’t ignore this feature , you must confirm extended warranties, If you do a lot of traveling, you might need insurance against thief and loss.

Dead Pixel
If you want to check your laptop screen for dead pixels, just do a search for the free 'Dead Pixel Buddy' software program and run it to check your laptop for dead pixels.


Search For Laptops Over Internet

You must shop and search around and check out the consumer reports on the different laptop makers and the different laptop products. You must also check out the service records/reputation of the major brand names.

Make A List Of Features
Creating a list of minimum requirements for your Notebook might help you getting your hands on your desired laptop:

For Example:
Intel Duo

2 Gig of RAM

150 Gig Hard Drive

15 Inch Screen

4 or 5 Hours Battery Life

DVD Writer/Burner

A Full and Final Checkout

You must fully checkout your laptop before purchase. Check the comfort of your Laptop keyboard. Try the touchpad, is it responsive? Open your favorite programs and check the processing speed of your laptop. Bring along a DVD and sample the sound and graphics.

If you consider and check out the factors listed above then you can have a good laptop for you. So, Do a little homework and you will easily find the perfect laptop for you.

Audi RSQ Concept Car

The futuristic film car Audi RSQ was presented to the public for the first time on April 7, 2004 at the New York International Automobile Show. Audi tackles its most ambitious product placement project ever: For the epic event motion picture „I, ROBOT“, Audi Design developed the spectacular vehicle, which helps leading actor Will Smith – a homicide detective in the year 2035 – solve a mystery that could have grave consequences for the human race. Fox releases “I, ROBOT“ in the U.S. on July 16; the film arrives in Germany in August.
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In the near future, technology and robots are a trusted part of everyday life. In „I, ROBOT“, that trust is broken and one man, alone against the system, sees it coming. The film employs spectacular visual effects innovations beyond any ever put on screen, to bring a world of robots to life. The film is directed
by Alex Proyas (Dark City, The Crow) and is set in a world created by famed science fiction writer Isaac Asimov in his short story collection “I, ROBOT“.
For the first time ever, Audi developed a car specifically for a major Hollywood motion picture. Audi engineers created a car for „I, ROBOT’s” incredible world of 2035.
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The resulting Audi RSQ sport coupe is a visionary interpretation of Audi’s typical design language. The most important thing was that despite its extreme character the car should still be recognized as an Audi. The cinemagoer will therefore see the new Audi front-end with the typical single-frame grille in the movie.
The RSQ includes special features suggested by movie director Alex Proyas. The mid-engined sports car operated by the story’s police department, races through the Chicago of the future not on wheels but on spheres. Its two doors are rear-hinged to the C-posts of the body and open according to the butterfly principle.
In addition to the RSQ concept car, Audi supplied further volume-production cars which appear – in disguised shapes – in the movie’s traffic scenes. Audi also supplied the interior mock-up used for interior car scenes.
With this project Audi opens up a new chapter in product placement. Previously, the brand with the four rings has always supplied volume-production cars to movie productions. In individual cases, such as “Mission: Impossible II,” these cars were even used in movies before their market launch. With „I, ROBOT“ and the systematic development of a “car of the future,” Audi goes far beyond its previous product placement activities.
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Audi has been participating as an automobile partner in major movie productions for several years. In addition to John Frankenheimer’s action classic “Ronin” with Jean Reno and Robert de Niro (1998), the brand with the four rings played the automobile lead in “The Insider” (1999) featuring Academy Award Winner Russell Crowe, “Mission Impossible II” (starring Tom Cruise, 2000), “The Mothman Prophecies” (starring Richard Gere, 2002), “About a Boy” (starring Hugh Grant, 2002) and Reese Witherspoon’s “Legally Blond 2“ (2003).


scour:http://robson.m3rlin.org

NEW TECHNOLOGY CARS







Many countries invented different types of cars in different technologies in this world. Cars are very important one in the human being. The sports cars are very beautiful. These cars names are 2010 Renault DEZIRR, SPR1R, and etc. The cars are classified into many types such as sports cars, concept cars, classic cars and electric cars.





How Nice Car For Future Technology:
This car will be mirror of future technology and world. When I see this car than I amazed. This car design is very latest and strong. This car has no engines, no drivers, no limits and no steering wheel. This car is surprise of the future. This car shapes is very different. The visibility is unpredictable, converging high fashion and high technology. The car very latest design that no engine, no steer wheel, and petroleum-free. The designers came out with really unique revolutionary ideas. It has minimum weight and perfect aerodynamics, low resistance mobility, and very efficient. After all, I like this car because it design, engine. Colors. Overall is very latest. It’s very fantastic.

Family Car 2020

The latest cool car concept that I found is this Hyundai Eco Car for this 2020. This Eco car is an electric car that features zero-emission technology.
hyundai-eco-cars-2020
Designed by Nicolas Stone, he believes that solar energy will become the future venture for car technology. So his design for Hyundai’s new family car is fully adopting the zero emission technology with their own fuel and on-board systems.
It’s basically inspired by nature, Nicolas concept the car to be able to generates “fuel” for itself by using only two basic elements – water and sunlight!
hyundai-eco-cars-2020-2
But the system looks pretty complicated because the engine should be able to divide hydrogen from the H2O (water) and leaving no other than a breathable oxygen. The Hydrogen will become the main “fuel” for the engine to produce electricity.
hyundai-eco-cars-2020-3
It looks like an expensive technology, but it will be a great electric car for greener future if the concept is applicable and inexpensive.


scour:www.hardwaresphere.com

Nike One Concept 2005

nike_one_10_1920-copy.jpg
At the much anticipated Tokyo release party for the driving simulator Gran Turismo 4, Polyphony president Kazunori Yamauchi stunned the attendees with the surprise announcement that GT4 and Nike had collaborated on the Nike ONE, signaling a new era in product development. Nike co-president Mark Parker joined Kazunori on stage for the ceremony, along with designers Phil Frank and Takuya Asano.
title.
The Nike ONE was designed by a small team led by Phil Frank,for the GT4/Nike collaboration. Frank is also responsible for the design of the legendary Saleen S7.nike_one_09_1920-copy.jpg
The dramatic and futuristic design of the Nike ONE with its athlete focus, stretched surfaces and less-is-more philosophy is directly inspired from the principles of Nike founder Bill Bowerman, explains Phil Frank, Principal Phil Frank Design, LLC.
We went to great lengths to understand what a Nike car should be, explains Frank. There were many discussions and concepts that evolved to ultimate solution, a very Nike solution for what a future performance vehicle should be?.
?As Nike is an athletic company, we understood there had to be more to the concept than just another fast car says Frank. ?The athlete is the critical part of this vehicle, so we designed from that perspective, taking our inspiration and learning from the human body, its motion and dynamics.
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You don’t just drive this vehicle, you are a part of it, explains Frank. There is much more required to master this vehicle than being a great driver, it is just as important to be at peak physical performance.
An athlete training to drive the Nike ONE uses a physical resistance simulator, that mimics the vehicle’s controls, along with the digital simulation within GT4 to train their muscles and mind for specific tracks and competition scenarios, explains Frank, it’s the ultimate in convergent technologies.
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The driver’s position is akin to a stretched out motorcycle rider’s, but with the added efficiency of clip-in pedals, says Frank, to accelerate/decelerate the athlete uses the large muscles of the leg and arms, thus the physical training that is needed to master the Nike ONE?
The unique drive train, chassis, suspension and wheel layout leverage the future of nano-technologies, explains Frank. When you are working in a blue sky environment it is always important to have one foot in reality and the other one as far forward as possible?.
Below is background on the conceptual evolution of the Nike ONE.
EMC2=Eletro-Magneto-cumunetics, Version 2: Nike Global Patent
GP-2022 3546453 D1BD97005 PP112565 Defined The super efficient transfer and storage of kinetic energy to usable electromagnetic energy. Service Release 2.
In 2012, The Nike Sports Research Lab developed the first so-called Spark Suit. Essentially a wearable generator, it used nano-ion pumps to convert any movement running, walking, even breathing, into usable electricity. A new generation of Microbatts and Microcaps made it possible to capture and store this electricity for later use. This technology has affected geo-politics worldwide and seen various applications in the sport world, especially as evidenced in a new vehicle called the Nike ONE.
The Spark Suit was essentially an accident. Originally developed as a training counterpart to Nike?s Swift Suit, it was designed to strategically impede movement. Internally called the Slow Suit, the idea was that strategic impedance would build muscle mass and improve coordination?Like the weights used by baseball players in an on-deck circle. This clothing would subtly and strategically strengthen and hone an athlete?s muscles.
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The year was 2002 and Nanotechnology was in its infancy. Perhaps the greatest design challenge that Nike faced was in bleeding off the charge that inevitably built up around the nano-ion pumps. These microscopic bio-machines convert kinetic energy (movement) into tiny charges that cross potassium-sodium pathways by the mech-version of saltatory action?basically a muscle cell in reverse. Muscle cells generate tremendous heat. Since our bodies have an incredibly sophisticated system for dissipating heat, the early versions of the Spark Suit tried to utilize the body?s natural mechanism for thermoregulation. They were brutally hot. As the effectiveness of the nano-pumps increased, the thermoregulation solutions had to keep pace. Nike designers experimented with a method that turned the electricity into light?hence the name Spark Suit. These versions were incredibly bright, as energy was bled off via fiber-optic pulses. 10 years in development, the Spark suit looked to be doomed to obscurity.
Fortunately, Nike?s research was synchronous with the development of ultra-efficient, superconducting batteries and capacitors?so-called Microbatts and Microcaps. When Nike designers made the connection that there was no need to dissipate the energy?that they could effectively store and transfer it?a revolution in product design was perhaps the smallest result.
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Within a few years, global energy policy was turned on its head. N.O.P.E.C, the New Organization of Power Exporting Countries quickly replaced O.P.E.C as petroleum reserves dwindled and extraction became too costly to justify. Any nation with an active populace could become a world power. The so-called ?sportocracies? gained prominence as countries slow to catch the EMC2 wave saw fossil-fuel powered industries fail against the comparatively cheap bio-lectricity. Even a small country with 300 million people could capture 20 terawatts per day, more than enough to power heavy industrial concerns like automotive manufacturing. As individuals became their own power source, obesity rates world-wide dropped drastically. Hypertension, hypercholesterolemia, and type 2 adult-onset diabetes were effectively eliminated.
Nike, while releasing intellectual property rights for the good of the planet, has stayed in the business of product design.
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Their new EMC2 vehicle?the Nike ONE, uses the next generation of the E-Suit combined with heel mounted Microcaps and internal Microbatts to power its HEP drive (Human Energy Potential) with speeds up to 230 MPH. Because the vehicle is powered solely by an individual?s personal energy reserves, transferred to the Microbatts from prior training sessions, combined with their ability to create energy on-the-fly, a new breed of athlete has arisen. Intense mental focus, combined with the need for tremendous physical stamina and a unique blend of fast/slow twitch muscle fibers, make those who master the Nike ONE amongst the most respected athletes on the planet.
Training to compete in the Nike ONE at an elite level is legendarily intense. Foundational methods follow the basic tenets now familiar to users of Nike?s EMC2 products. Specifically, focused neuromuscular control training to recruit adjacent/local muscle groups (plyometrics) combined with strategic high-load strength training. Intensive cardio work is recommended to improve the efficiency of aerobic respiration. Meanwhile, elite drivers of the Nike ONE have been known to pursue intensive regimens aimed at building tolerance to lactate, a harmful byproduct of anaerobic respiration. This is commonly referred to as pain-training, or PT, and is NOT RECOMMENDED for any but the most serious competitors. PT Methods include sitting against a wall for hours on end, repeated deep lunges while carrying enormous weights, and so-called micro-methods, like standing on the tips of your toes or hanging by the hands from a bar for hours at a time.
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Drivers of the Nike ONE describe it as a cross between wearing a machine and being a machine. Control, acceleration and braking is achieved with the large muscle groups of the legs and arms, similar to working on gym training equipment vs. traditional wrist and ankle movements. The driver controls are centered around a gyroscopic cyber-throttle which integrates cornering, acceleration and braking in a single mental motion. The mind-machine interface uses one non-invasive bio-port at each hand to connect neurotransmitters in the brain to neuro-tranceivers in the vehicle CPU. All controls feature the latest generation Supersensortm components enabling micro-resolute command-calls for maximum efficiency in breaking, acceleration and cornering. Drivers say it helps them make tiny adjustments in speed and direction, and contributes to their overall feeling of connection, power and oneness.
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The Nike ONE utilizes heads-up display with race line tracking, energy reserves, etc? NikeMax Optics Smart Glass that adjusts color to conditions for optimal contrast and clarity, Hub-less MMIW micro-motor-in-wheel, carbon/titainium weave flex frame/suspension, active aero, variable profile regrind tires (motorcycle-like strait line profile and racing slick-like cornering profile) combined with active camber/caster, Nike SHOX seat suspension to name a number of the high-end innovations.
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scour:http://robson.m3rlin.org/cars/nike-one-concept-2005/

Mercedes Arrow Is A Lightweight Two-Seater Vehicle Gives

This one-seater’s name is Mooovie and probably the designer, Han Jing, gave it this name due to it’s great functionality and designed it for the people who are always on the move and for those who think driving is everything. Driving is and will be the hobby of many motor fans whether now today or in the future. This interesting vehicle has two driving modes. First one has two wheels and helps the driver, due to the small body of the vehicle, to make his way through narrow streets, traffic jams, small offices, elevators or you name it. It’s so small you can take it everywhere, you can even use it as your own personal golf cart.
The driver is assisted by an intelligent  automatic drive mode which can calculate and control the distance between cars and keep the vehicle on the specified lane, making it safe and aware of the dangers on the road. The second driving mode is a three-wheel based vehicle and is mainly built for high-speed fun. The customers can choose whether they want this second version or not. The incredible features don’t end here. Mooovie is equipped with the latest Internet technology making it easy for the user to share messages with the other drivers and his/her friends. The wheels are rimless, so the traditional rim has been replaced with a digital display. On this display the driver can show images and messages, bonding the car and the driver’s personality.
Designer : Han Jing
personal-zero-emission-car
electric-personal-car






Futuristic eMX Car Concept by RSM Design

Renault Samsung Motors (RSM) has exposed their futuristic eMX car concept. eMX stands for eco Motoring eXperience, which is based on the platform of Renault Mégane and is powered by a 2.0-liter turbocharged four-cylinder engine along with some other solutions to improve the fuel efficiency. The main feature of the design includes detailed soft curves and graphics which is inspired by the nature and are intended at expressing an eco-friendly sense and cutting-edge technology. The organic and smooth curves of this concept car explores a new design technology that may adopt the company’s other small cars in future.
emx car concept
emx car concept

Mercedes Arrow Is A Lightweight Two-Seater Vehicle Gives You The Feeling Of Sliding With A Bobsleigh

Mercedes Arrow has been designed to draw a comparison with other recreational vehicles such as motorcycles, jetskis or personalized aircraft. This stunning vehicle gives its passengers the ride of their life. The bobsleigh shaped body, the lightweight materials and the sporty look enable it to shoot through heavy traffic like an arrow from a bow. This experience can only be enjoyed by two passengers, their seats are placed one in front of another. One of the stunning features this futuristic car has, is that it combines TANDEM with MAGLEV technology to take sharp corners. This innovative feature allows the body of the car to tilt left and right when the car is taking corners, thus minimizing the wheels tilt angle. There is an almost non-existing chance for the vehicle to slide out of control. Due to the slim body, the wheels cover the same space of tarmac, just as a contemporary car, eliminating the risk of the car flipping over. The designer, Felipe Palermo, found inspiration in the old Silver Arrows, the SLR McLaren and the 1954 Gull-Wing.
Designer : Felipe  Nogueria Palermo
Mercedes arrow concept6
Mercedes arrow concept7

scour:http://www.tuvie.com/search/future+technology+cars

Armin Strom bei Asprey, London


Die Armin Strom Regulator Water wird bald Ronnies Handgelenk schmücken!


Virgin Racing
Virgin Racing setzte sich gegen die starke Konkurrenz zahlreicher Mitbewerber durch und nahm 2010 zum ersten Mal an der Formel-1-Weltmeisterschaft der FIA teil. Mit diesem Neueinsteiger kündigt sich eine neue Ära in der Formel Eins an.
Das Team wurde ursprünglich von John Booth und Graeme Lowden gegründet, deren Organisation Manor Motorsport in Nordengland unvergleichliche Erfolge in der Formel 3 erzielte und eine bedeutende Rolle bei der Entwicklung einiger der grössten Talente des Rennsports spielte. Sie taten sich mit dem Konstrukteur Nick Wirth zusammen, der nach zehn Jahren der erfolgreichen Entwicklung von Fahrzeugen für Indy-Rennen und die Le-Mans-Sportwagenklasse zur Formel Eins zurückkehrte. Seine Stärke liegt im innovativen und kostengünstigen Konstruktionsansatz. Zusammen mit der Investitionskraft von Sir Richard Branson’s Virgin, einer der bekanntesten, erfolgreichsten und interessantesten Marken weltweit, kreierten sie ein neues Team-Konzept und profitierten dabei von der neuen wirtschaftlichen Aufbruchsstimmung in der Formel Eins und dem Resource-Restriction-Agreement, das den Rennsport neu definiert.
Das Debüt von Virgin Racing wurde ein wahrer Härtetest. Das Team hatte innerhalb von nur sechs Monaten ein komplett neues Auto entwickelt, das vollständig digital im CFD (Computational Fluid Dynamics)-Verfahren und ohne die sonst in der Formel Eins üblichen sehr kostenaufwendigen Windkanaltests konstruiert worden war. Gleichzeitig baute es einen neuen Stützpunkt in South Yorkshire und stellte eine Gruppe von Konstrukteuren, Ingenieuren und Mechanikern zusammen, die den Herausforderungen eines aufstrebenden Formel-Eins-Teams gewachsen waren.
In der ersten Saison kämpfte Virgin Racing hart mit seinem stärksten Konkurrenten Lotus Racing, wobei die beiden Teams sich häufig die Plätze der besten Neueinsteiger untereinander streitig machten. Im November 2010 sicherte sich der russische Sportwagenhersteller Marussia, der Virgin Racing während der gesamten ersten Saison gesponsert und die aufrichtige Entschlossenheit und das enormes Potenzial der Mitwirkenden erkannt hatte, einen bedeutenden Anteil an dem britischen Rennfahrerteam. Dadurch ist die langfristige Zukunft des Teams gesichert und gewährleistet, dass es seinen ehrgeizigen Zielen von Rennen zu Rennen näher kommt.









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