Tale of the tape
The matchup
This matchup pits the legendary 2JZ-powered Toyota Supra Mk4 Turbo against the last of the Evolution series, the Mitsubishi Lancer Evo X. Both cars represent the pinnacle of their respective eras in performance tuning, with the Supra's iconic status and the Evo's AWD grip making for an interesting drag race. With similar 0-100 km/h times, it's all about which car can harness its power effectively on the strip.
Off the line
The Supra's RWD setup and robust torque delivery from the 2JZ should give it a solid launch, potentially allowing it to leap ahead in the first 60 feet. The Evo X, with its AWD, might have the advantage in traction off the line, but the Supra's power could help it recover quickly. Expect a fierce battle for the holeshot as both drivers aim to maximise their launches.
The back half
In the latter half of the quarter mile, the Supra's higher power-to-weight ratio could see it pull ahead, especially if it shifts smoothly through the gears. With a quarter-mile time of 13.4 seconds, it suggests a stronger top-end performance compared to the Evo's 13.5 seconds. The Evo might close the gap slightly due to its AWD system, but the Supra's extra kW could make the difference.
The x-factor
Driver skill is a key wildcard in this race; a perfect launch or shift can make all the difference. Additionally, track conditions, weather, and even the state of the cars' setups can influence the outcome. Keep an eye on how each driver manages their respective vehicles under pressure.
Check out the embedded video to see how this drag race unfolds without revealing the result.
Questions from the fence line
Which is faster in a drag race?
The Toyota Supra Mk4 Turbo is predicted to be faster with a quarter-mile time of 13.4 seconds compared to the Evo X's 13.5 seconds.
What are the power outputs of these cars?
The Toyota Supra Mk4 Turbo produces 239 kW while the Mitsubishi Lancer Evo X generates 217 kW.
How do their drivetrains compare?
The Supra is rear-wheel drive (RWD), while the Evo X features all-wheel drive (AWD), which affects traction and launch characteristics.