With just over a month to go until the start of the 2026 Formula 1 era, attention is firmly focused on the new technical regulations, which will be tested for the first time at the end of January on the Barcelona circuit. By analysing all the available data together with estimates produced by the FIA, it emerges that, contrary to popular belief, the next-generation cars will remain extremely fast. We are talking about only a very small performance deficit compared to the current ground-effect cars, a gap that is expected to be closed over the course of the season, potentially even surpassing the 2025 lap times by the end of the year. Here is why.
F1 2026: what performance level will the new cars reach?
Looking at the technical regulations for the next regulatory cycle, it is clear just how profoundly the Formula 1 cars competing in the 2026 season will change. The sport is heading towards a true “genetic mutation”, one of the most significant transformations in its history, largely driven and shared between the FIA and the sport’s American owners.
This transition affects all key areas of the regulations. Aerodynamics, mechanical components, power units and tyres will all be subject to major changes. Such a scenario inevitably triggers a cascade of technical consequences, many of which are currently being analysed in detail. However, one particularly interesting question naturally arises and serves as a starting point for a broader discussion.
When looking at the 2026 Formula 1 landscape from a wider perspective, the question is simple: what impact will all these changes have on the performance of the new-generation cars? In contrast to the traditional spirit of the category, at least in the opening races of the 2026 season we are likely to see slower cars, much like what happened in 2022 when the current ground-effect regulations were introduced.
F1 2026 tyres and active aerodynamics: the key factors influencing performance
It can be stated with a high degree of confidence that next-generation cars will gain significant performance in terms of pure top speed. The reason is relatively straightforward and is based on two key factors. The first concerns the new Pirelli tyres, whose dimensions and construction have been redesigned to suit the new regulatory framework.
The 18-inch wheels will remain, but the tread width will be reduced by 25 mm at the front and 30 mm at the rear. The overall tyre diameter will also decrease, by 15 mm at the front and 10 mm at the rear. This reduction lowers baseline rolling resistance, making it easier for the cars to reach higher top speeds. The second major factor is the so-called “straight line mode”, referred to by the FIA as “straight line mode”.
In theory, this system should allow a reduction in aerodynamic drag of more than 50%. However, in cornering mode, the cars are expected to be noticeably slower due to reduced grip levels from the new tyres. Pirelli estimates a downforce reduction of between 20% and 30% compared to 2025, while Ferrari’s internal estimates suggest a reduction closer to 20%. This loss of downforce will inevitably slow the cars in corners, meaning the overall performance impact must be evaluated by balancing these opposing effects.
F1 2026: by the end of the season, cars could be faster than the final ground-effect machines
Any calculation of overall performance cannot be perfectly precise, but the estimates referenced here are based directly on data collected by the FIA. In particular, the analysis relies on calculations carried out by Nikolas Tombazis, the FIA’s Director of Single-Seaters, who produced an assessment using simulation data to provide an initial performance picture ahead of on-track testing.
According to these estimates, the 2026 Formula 1 cars are expected to lose only around 3% of total performance compared to the recently concluded season. More importantly, by the end of the 2026 championship, the cars are projected to gain approximately 3.5% in performance through development, potentially allowing them to match or even surpass the lap times set by the 2025 machines.
On the other hand, it is highly predictable that development rates for the new-generation cars will be extremely aggressive. Based on information gathered by our editorial team through discussions with several paddock engineers, the development curve is unlikely to be linear. Instead, performance gains could increase sharply over the season, potentially exceeding the current estimates produced by the FIA.
As January testing nears, anticipation builds. Will early predictions hold, or will development unleash even greater potential? One thing’s clear: 2026 promises to redefine Formula 1 performance in ways we’re only beginning to grasp.
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