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i think the lower noses created a bigger problem....BUT i believe that the tires do hold a large part of the blame in this bleeped up equation... .oh how i would love to see position 2 on down pushing the car ahead and trying to pass continuously instead of this "oh i will pass on the last stint" stuff going on right now.PlatinumZealot wrote:Been watching F1 from year 2000.
But i just dont remeber the whinging...
Yes, keeping the cars planted saves tires, and the more downforce the cars have, the more they will lose by following, and the more a driver following, and trying to keep up will have their tires break lose. The reason that the tires don't wear faster when following in a go-kart is because you are not breaking lose because of the relative lack of downforce. So again - less downforce in the spec of the cars means fewer issues following.sgth0mas wrote:There's a difference between reduced and no down force. In karting I can almost ride a rear bumper NASCAR style because I'm not down force reliant to keep my tires planted, but when you add the relatively large amount of down force F1 cars have, gaps have to open up to save tires. Thats because tire deg is worse when they break loose.
Its a no brainer that no down force would save tires if drivers slowed down enough to not slide, but the fact is F1 cars still have a lot of down force. And starting last year, that was pulled back with a torquey hybrid thats prone to break loose out of turns thrown in the mix. Adding that drivers get extremely limited test time, and they have less time to adapt.
Of this was a stock car race, you'd be right. But this is a series where tires are designed to die quickly, and keeping tires planted slows that process. Now that they break free more due to reduced aero and disturbed air, were seeing the issues compound.
Your math is overly simple as it is strictly looking at the total available normal force that would apply to frictional loads. But Go drive any zero downforce car sideways through a bunch of turns and you will see my point...keeping a car planted saves tires
you're still assuming the drivers are adapting to the changed cars and that drivability is the same as 2013. That's not the case...and more downforce was taken from the rear iirc, which isn't affected as much as the front wing in following. You're over simplifying the problem and only looking at total downforce with a fully planted car As well.Moose wrote:Yes, keeping the cars planted saves tires, and the more downforce the cars have, the more they will lose by following, and the more a driver following, and trying to keep up will have their tires break lose. The reason that the tires don't wear faster when following in a go-kart is because you are not breaking lose because of the relative lack of downforce. So again - less downforce in the spec of the cars means fewer issues following.sgth0mas wrote:There's a difference between reduced and no down force. In karting I can almost ride a rear bumper NASCAR style because I'm not down force reliant to keep my tires planted, but when you add the relatively large amount of down force F1 cars have, gaps have to open up to save tires. Thats because tire deg is worse when they break loose.
Its a no brainer that no down force would save tires if drivers slowed down enough to not slide, but the fact is F1 cars still have a lot of down force. And starting last year, that was pulled back with a torquey hybrid thats prone to break loose out of turns thrown in the mix. Adding that drivers get extremely limited test time, and they have less time to adapt.
Of this was a stock car race, you'd be right. But this is a series where tires are designed to die quickly, and keeping tires planted slows that process. Now that they break free more due to reduced aero and disturbed air, were seeing the issues compound.
Your math is overly simple as it is strictly looking at the total available normal force that would apply to frictional loads. But Go drive any zero downforce car sideways through a bunch of turns and you will see my point...keeping a car planted saves tires
I´ve heard that for a way longer period. Even on Bridgestone era, when tire degradation was not an issue, they complained about dirty air. The only difference is now with tire degradation drivers cannot chase a car close enough because of the dirty air AND if they try for too long they´ll ruin their tires. With hard bridgestone tires they could try it for the whole race, but they also had many problems to keep close to the car in frontsgth0mas wrote:I believe with the emphasis on rapidly degrading tires and recently reduced aero, the problem has gotten worse. I've heard drivers complain about tire deg and maintaining a 2s gap for at least the past 3 years, maybe 4.
True, but not completely accurate. There are some ways to generate downforce wich do not affect the car behind that much. Ground effect, fan cars, studied airfoiled wings (instead of flat ones) wich would generate less downforce but also will reduce turbulence...Moose wrote:The amount of trouble you have following another car is directly proportional to the amount of aero dependance those cars have.
The wings are a part of the show in a some twisted way. I like looking at the wings myself. Maybe if the rules could be made to reduce the down-force from the wings while adding ground effect to compensate.Speng wrote:I've heard it said (most recent by Martin Brundle in the Bahrain GP broadcast) that if the cars got a larger proportion of their down force from ground effect rather than the wings that the cars could run as close as you'd like. The cars have been very wing dependent for awhile (probably from way back when they banned active suspension) so the whinging is not new.
This dirty air is a by-product of a high-downforce open wheel formula.Andres125sx wrote: I´ve heard that for a way longer period. Even on Bridgestone era, when tire degradation was not an issue, they complained about dirty air. The only difference is now with tire degradation drivers cannot chase a car close enough because of the dirty air AND if they try for too long they´ll ruin their tires. With hard bridgestone tires they could try it for the whole race, but they also had many problems to keep close to the car in front
So it´s a problem of both dirty air and tire degradation. Ironically tire degradation was introduced to compensate the dirty air problem, so there was strategic differences to allow some overtakes and compensate the lack of because of the dirty air problem.
True, but not completely accurate. There are some ways to generate downforce wich do not affect the car behind that much. Ground effect, fan cars, studied airfoiled wings (instead of flat ones) wich would generate less downforce but also will reduce turbulence...[/quote]Moose wrote:The amount of trouble you have following another car is directly proportional to the amount of aero dependance those cars have.
Then they'll just spend their resources on something else with the same effect.This is a problem I´ve been complaining about for many many seasons. Problem is big teams do not want to limit downforce because that´s the department they can make biggest differences with midfielders. With limited aero they´d struggle a lot more to beat midfielders.
Indycar.With standarized aero studied to avoid turbulence as much as posible I´m sure the show will be light years better than currently, but I wouldn´t bet a cent this will happen, because big teams will never support a rule like this, they want free aero to make a difference with midfielders