Tag: car racing data

McLaren GT1: Ferrari’s V12 Vantage is fast and aggressive

The McLaren GT series is in its sixth generation, and one of the highlights of the last decade has been the development of the V12-powered car.

The V12 was introduced in 2007, but by the time it was updated in 2015, the car had been redesigned to make it the most powerful car in the series, a feat that only the McLaren 650S GTE was capable of.

The new engine is still capable of producing 600bhp, but the new V12 delivers an even bigger peak torque of around 2,400Nm, more than doubling the performance of the outgoing model.

The car’s aerodynamics are also up to snuff thanks to a new wing, and its new brake ducts provide a new brake-to-wheel ratio that improves braking ability.

McLaren also introduced a new front splitter in 2018, which reduces drag and reduces the weight of the car, which means that the car’s downforce is better when compared to other F1 cars.

The new splitter has also been fitted to the McLaren P1, making the P1’s new front diffuser a more dramatic upgrade compared to the previous one.

Mclaren’s first GT-R was unveiled in 2019, and although it wasn’t as fast as its predecessor, it was still a formidable rival to Ferrari’s race cars.

It is currently a four-seater with a top speed of 250km/h (155mph) and can achieve speeds of up to 240km/hr (155 mph).

The new GT-Rs have also made significant gains in the area of acceleration.

With the V10 engine, the McLarens can reach a top acceleration of 8.3 seconds (4.9 seconds in a straight line) and a top-end top speed that is around 70km/hp (46.2mph).

The 2017 GT-Ryder was the first GT1 car to use the new carbon fibre-fibre body, which was made to the same standards as the Mercedes-AMG GT, which has already been used in several F1 races.

This means that it has improved aerodynamics, which are improved in particular thanks to the use of carbon fibre for the nose, which is now made of a new material called ‘lithium-cobalt’ instead of titanium.

The aerodynamics of the new car are also better than its predecessor thanks to improved airflow.

It is also important to note that the new McLaren GT-H is the first F1 car that has used the new ‘super carbon’ carbon-fiber, which allows it to retain the same weight of just 1,500kg compared to its predecessor.

The carbon-fabric is lighter and lighter, but its aerodynamics have also been improved compared to that of the previous generation.

The McLarens new car is still one of those cars that can be compared to Ferrari.

The design and engineering of the McLaren is almost identical to that employed by the current Ferrari FXX, but with a little more refinement.

It has a more powerful engine and a higher torque output than the previous model.

It also has a better rear suspension, which improves the stability of the rear wheel when cornering.

However, the suspension on the new GT1 is also much lighter, thanks to its new carbon-framed body.

Top cars in the world: 2017

Cars in the 2016 and 2017 editions of the FIA World Endurance Championship were powered by more than 200 different engines, a new record for the calendar year, the FIA said on Thursday.

The list of the most powerful engines at the start of each season included the Nissan GT-R Nismo GT3, the Porsche 911 RSR, and the BMW M3 GT3.

The next closest was the Ford GT, which has a base power of 258 horsepower, or 0.98 horsepower per liter.

The Maserati Emancipator and Aston Martin Vantage GT3R each have a base of 255 horsepower.

The world championship will resume on Dec. 12, when all 30-race season will end.

The FIA World Supercheap Auto Bathurst 12 Hour event will be hosted by the British F4 Academy in Bathurst, Australia.