Weight-to-power, not power-to-weight
A heavy car can never deliver the dynamic attributes of a lighter car – even if it has the same power to weight ratio. While it is possible to disguise a heavy car's dynamic capabilities with complex active suspension and sophisticated electronics, the agility, responsiveness and reward of a lightweight vehicle cannot be matched. Professor Murray said: 'Today, the enjoyment of driving has been lost as so many supercars only come 'alive' at the upper-ends of their performance capabilities. Chasing a top speed only adds weight (notably through ever-more powerful engines), so the future of true performance cars lies in shedding weight intelligently.'
Weight kills dynamic performance
With a compact footprint of just 4,380mm (l) x 1,850mm (w), the T.50 is smaller than a Porsche 911 but offers comfortable space for three passengers and luggage. Its fully carbon fibre monocoque and body panels weigh less than 150kg in total. Inside, the three racing-inspired seats are also constructed using carbon fibre. The centrally-positioned driver's seat weighs less than 7kg, while the passenger seats that flank it to the rear each achieve a weight that is under 3kg. The T.50 is equipped with a naturally-aspirated V12 powerplant, the world's highest revving road car engine (12,100rpm), which produces 650bhp. Through exacting standards, innovative engineering and the expertise of Cosworth Powertrain engineers, the weight of the GMA 4-litre unit is less than 180kg. This makes it the lightest road-going V12 ever made and more than 60kg lighter than the BMW S70/2 V12 in the McLaren F1 – while generating more power. To minimise weight at every stage of development, GMA's senior design and engineering teams hold a weekly 'weight watchers' meeting to review the weight of the car and its components. Monitoring the weight of every part, down to nuts, bolts and washers, the team keeps close checks during every stage of the development process. This method has seen countless designs, revisions, trials and refinements of components large and small. Highlighting the team's fanatical mindset around minimising weight is the approach the engineers took to specifying the car's fixings (nuts, bolts, screws, etc). On many cars, these fixings are generic and far larger than they need to be. For the T.50, the diameter and length of each fixing (around 900 in total) was optimised by calculating the forces to which each would be exposed. For the Gordon Murray Automotive team, no saving in weight is considered insignificant. For example, the pedal box is 300g lighter than the F1's and the glazing is 28% thinner than usual while remaining a strong structural component. For the whole team, their lightweighting focus is unwavering, every innovation, test, and revision combines to deliver the purest, lightest, most driver-focused supercar ever.
Every component counts