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Driving is gonna be significantly different next year. I don't think early and late brakers really gonna play into that, if that really exists. Drivers will be required to brake early, just so they can use the ICE to generate electricity. I wonder if cars will not be designed to be heavier in the rear. The more weight on the rear tires the more regenerative power, less wheel spin, rear tire wear, etc. Wonder if it will resemble the Vettel/double diffuser years. ICE will make sound at not obvious points of the track, cause drivers have over slowed down just to get back on to partial throttle to generating power. It's very complex.
Doubtful. From the 2026 Technical REgulations:I wonder if cars will not be designed to be heavier in the rear. The more weight on the rear tires the more regenerative power, less wheel spin, rear tire wear, etc.
C4.2 Mass distribution
At all times during the Qualifying and Sprint Qualifying Sessions, with the car resting on a
horizontal plane:
i. the mass measured at the front axle must not be less than the Minimum Mass specified in
Article C4.1 factored by 0.44.
ii. the mass measured at the rear axle must not be less than the Minimum Mass specified in
Article C4.1 factored by 0.54.
Thanks for that..but that means...Rodak wrote: ↑15 Oct 2025, 01:19Doubtful. From the 2026 Technical REgulations:I wonder if cars will not be designed to be heavier in the rear. The more weight on the rear tires the more regenerative power, less wheel spin, rear tire wear, etc.
C4.2 Mass distribution
At all times during the Qualifying and Sprint Qualifying Sessions, with the car resting on a
horizontal plane:
i. the mass measured at the front axle must not be less than the Minimum Mass specified in
Article C4.1 factored by 0.44.
ii. the mass measured at the rear axle must not be less than the Minimum Mass specified in
Article C4.1 factored by 0.54.
They cannot store more than 4MJ, so getting the battey full for a qualifying lap shouldn't be hard.carisi2k wrote: ↑14 Oct 2025, 22:13The trick is going to be how efficient and powerful can you make your engine. With only rear wheel recovery I doubt any car will be able to recover anywhere near 8.5MJ in a single lap. This will play out in quali as well because cars are going to have to do 2-3 laps before they will have a full battery for a single quali lap.
I'm not sure what you mean by shift weight backwards; these front/rear mass requirements have been in effect for years. Yes, there is a little bit of play, but one can't really 'shift' weight backwards. Frankly, if I were designing a car I'd want front/rear balance to be free to help solve under/over steer issues, but here we are.diffuser wrote: ↑15 Oct 2025, 01:32Thanks for that..but that means...Rodak wrote: ↑15 Oct 2025, 01:19Doubtful. From the 2026 Technical REgulations:I wonder if cars will not be designed to be heavier in the rear. The more weight on the rear tires the more regenerative power, less wheel spin, rear tire wear, etc.
C4.2 Mass distribution
At all times during the Qualifying and Sprint Qualifying Sessions, with the car resting on a
horizontal plane:
i. the mass measured at the front axle must not be less than the Minimum Mass specified in
Article C4.1 factored by 0.44.
ii. the mass measured at the rear axle must not be less than the Minimum Mass specified in
Article C4.1 factored by 0.54.
i. Front Axle
The mass measured at the front axle must be at least 44% of the Minimum Mass.
Using 798 kg as an example:
798×0.44=351.12kg
- So the front axle must support at least 351.12kg.
ii. Rear Axle
The mass measured at the rear axle must be at least 54% of the Minimum Mass.
Again with 798 kg:
798×0.54=430.92kg
→ So the rear axle must support at least 430.92kg.
So it can shift the weight backwards.