Oracle Red Bull Racing, one of the world’s favorite motorsport organizations today, is going to have an exciting presence at this year’s Goodwood Festival of Speed. Along with it, Red Bull Advanced Technologies has brought forth engineering excellence that evolves the iconic name lightyears beyond the energy drink that is its origin. Alongside its decorated race cars, the Goodwood Festival of Speed will see an exciting appearance: the dynamic debut of the Red Bull RB17 hypercar.
The RB9, Red Bull’s 2013 championship-winning Formula 1 car, and the team’s F1 Academy car, will take part in demonstration runs at the festival, while the RB17 will partake in a series of demonstration runs, part of its ongoing testing and development program. The demonstration runs of the RB17 offer the public the first opportunity to see the car running, but the performance of the RB17 will be further tested on track in the near future. Behind the wheel of the anticipated hybrid hypercar will be a familiar and celebrated lineup of talented drivers: Isack Hadjar, Yuki Tsunoda, Alisha Palmowski, and the car’s designer, Adrian Newey.
Supplementing the demonstration runs will be a static display of Red Bull liveries from throughout the team’s history, and they help tell the story of how Formula 1 technology was translated to a groundbreaking hypercar in the form of the RB17. No restrictions curtail the RB17’s performance, and its combination of a bespoke naturally aspirated Cosworth V10 engine and a hybrid system make it fearsomely powerful. Its track-only status indicates its aim at unbridled performance potential, as well.
<- Gallery ->
With a display of cherished moments in its racing legacy, as well as the first look at its highly anticipated hypercar in motion, Oracle Red Bull Racing and Red Bull Advanced Technologies are bringing a heap of high-octane excitement to this year’s Goodwood Festival of Speed, and marking a milestone in their collective motorsport legacy.
View All Luxury & Exotic Cars For Sale
Image Source: Red Bull Technology