(still faster then a damn HRT)
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What makes you think they'll be 100 horses down? More like 10 horses up.SectorOne wrote:So when the lights go out they will be about 30kg´s heavier and about 100 horses down on average or something like that.
(still faster then a damn HRT)
I can, it was a mere 3 years ago, it turned out that the cars were roughly as fast as the previous year's.CHT wrote:I cant recall when was the last time drivers making such comments after the 1st test.
do you mean slower or GP2 slow?beelsebob wrote:I can, it was a mere 3 years ago, it turned out that the cars were roughly as fast as the previous year's.CHT wrote:I cant recall when was the last time drivers making such comments after the 1st test.
Yes, 3 years ago people were claiming that F1 would be slower than GP2. It turned out to be bollocks, as it will turn out to be bollocks this year too (and in fact already has turned out to be, given that the F1 cars have already lapped faster than GP2, despite having their engines turned down, not pushing, and not having relatively primitive aero).CHT wrote:do you mean slower or GP2 slow?beelsebob wrote:I can, it was a mere 3 years ago, it turned out that the cars were roughly as fast as the previous year's.CHT wrote:I cant recall when was the last time drivers making such comments after the 1st test.
No, in fact if the cars are slower, it will be because they are more difficult to drive.theTTshark wrote:Just because a car is slower that doesn't equate to it being less difficult to drive.
Not necessarily, they ARE lacking downforce. So even a lap sim will show that they are slightly slower despite more engine torque. Cornering is roughly 3-7 times more important to lap time than straightline. Depends on the circuit. But because they have the excess torque and the lack of downforce they will be more difficult to drive. So they are more difficult to drive, but not because they are slower. Being slower is just a byproduct of the downforce loss.beelsebob wrote:No, in fact if the cars are slower, it will be because they are more difficult to drive.theTTshark wrote:Just because a car is slower that doesn't equate to it being less difficult to drive.
How do you know?theTTshark wrote:Not necessarily, they ARE lacking downforce.beelsebob wrote:No, in fact if the cars are slower, it will be because they are more difficult to drive.theTTshark wrote:Just because a car is slower that doesn't equate to it being less difficult to drive.
Where did you get "3-7" from? [citation-needed].Cornering is roughly 3-7 times more important to lap time than straight-line.
Not necessarily... if you set the car up with loads and loads of understeer, and soften everything up for example, it will certainly be slower and easier to drive. On the extreme end of the scale, road cars are very easy to drive while being much slower.beelsebob wrote:No, in fact if the cars are slower, it will be because they are more difficult to drive.
They will almost certainly claw it back with time, but this is immediately after losing a good amount of front wing span and the beam wing. Without some trick like the double decker diffuser, which it doesn't seem like any of the teams have, it is almost certain that they are now making less downforce. Or at least, making the same amount of downforce at a much higher drag penalty, since I suspect a 2014 Monaco aero package will make more downforce than a 2013 Monza aero package.beelsebob wrote:How do you know?theTTshark wrote: Not necessarily, they ARE lacking downforce.
They certainly have tighter restrictions on the downforce generating surfaces, but that does not imply that they have less downforce. For example, a 2013 car has much tighter restrictions on it's downforce generating surfaces than a 1990 car, but sure as hell generates more downforce.
Exhaust blown diffusers are gone, lower beam wings are gone (McLaren are attempting to create one, but it will never be AS effective as the beam wing was), Smaller rear wing template. This creates a trifecta of areas where the teams will not of had time to recuperate this downforce. Look at the cars, they are running significantly less rake. With the way those diffusers are, the less rake they have the less downforce they are producing from that specific device. Now with the beam wing missing you have your device, that acted really as a link between the diffuser and rear wing, gone. This is huge as well because once the rear wing and diffuser aren't interacting as well together you cannot run the angles in either of the devices you were before. Yet again, less downforce or same downforce way more drag. The smaller rear wing should be self explanatory because they haven't found a new way to produce the downforce from a wing. They have more or less the same style of aero profiles, yet a smaller area to work in. Just simple aerodynamics there. The big kicker here is that because the rear of the car is lacking downforce you then have to balance the front by reducing the amount of downforce the front of the car is producing. The wing decreasing in size didn't really effect the teams from an overall downforce production standpoint. Front wings are really effective at producing downforce because they have the cleanest air, and they have ground effect to help them. Even last year they didn't have to be aggressive to produce enough downforce. Now they are aggressive in vortices generation to help everything downstream of the wing. The other reason the cars will be running less downforce regardless of the aero restrictions is because of the efficiency rules. In order to meet the regs they are going to have to make sure they are hitting their drag targets. They will be fighting all year to reduce the sidepod sizes and increasing the efficiency of the rear downforce production in order to hit their targets. I know this from personal CFD use, professional CFD use, reading technical articles, fluid classes, talking to people in the industry and some common sense. Can I calculate how much they lost? No. Am I saying they can't recuperate it? No, I think they will given enough time. Regardless they do have an issue with downforce production currently.beelsebob wrote:How do you know?theTTshark wrote:Not necessarily, they ARE lacking downforce.
They certainly have tighter restrictions on the downforce generating surfaces, but that does not imply that they have less downforce. For example, a 2013 car has much tighter restrictions on it's downforce generating surfaces than a 1990 car, but sure as hell generates more downforce.
Where did you get "3-7" from? [citation-needed].
2 seconds slower compared to melbourne 2013 will be nothing to write home about as quali was run on drying, less than optimal track.hollus wrote: My prediction: 2 seconds slower in Melbourne, and 1 second slower than 2013 by the time they get to Germany (Barcelona, being a high downforce circuit, might suffer). And no talk of slow cars past the middle point of the season.