The Jaguar XKR-S is not only the fastest Jaguar ever, but also the most agile, responsive and driver-focused. The highlight of the XK range is based on information obtained from the supercharged XKR has been developed to expand the parameters of performance of the car. This new harder-edged character allows the enthusiast driver to explore the outer limits of the vehicle dynamics, without losing the elegance and ease of use for which Jaguar is renowned. The structural integrity of lightweight aluminum platform allows the suspension to be treated as components for greater rigidity, without a proportional loss in any refinement or legendary Jaguar ride comfort. A reworked aluminum front knuckles and revised rear suspension geometry are allied to the stiffer springs and dampers, forged alloy wheels and recalibrated the steering effort to minimize delays in response and produce a more connected driving experience and agile.
The performance of the Jaguar XKR-S is reflected in its interior and exterior design, featuring exclusive new paint colors that reflect the heritage of Jaguar Racing. As with the competence of the Jaguars the past, the exterior of the XKR-S adheres to the principle of form following function. In addition to lifestyle changes and in order that to reach 300kph, the XKR-S was the subject of extensive Computational Fluid Dynamics development. The resulting changes reduced front and rear elevation of more than one quarter and optimize the lateral aerodynamic stability.
The performance of the Jaguar XKR-S is reflected in its interior and exterior design, featuring exclusive new paint colors that reflect the heritage of Jaguar Racing. As with the competence of the Jaguars the past, the exterior of the XKR-S adheres to the principle of form following function. In addition to lifestyle changes and in order that to reach 300kph, the XKR-S was the subject of extensive Computational Fluid Dynamics development. The resulting changes reduced front and rear elevation of more than one quarter and optimize the lateral aerodynamic stability.
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