Baku is ~sea level?
Or maybe even a bit denser..
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Baku is ~sea level?
Hollus is correct, you're not seeing big pressure changes because pressure decreases as altitude increases - reducing the density of air - while temperature reduces with altitude (depending how high you're flying but amateur pilot would suggest low altitude) - increasing air density. Baku is at a fixed altitudeTommy Cookers wrote: ↑07 May 2018, 00:15this amateur pilot has never known surface pressure outside the range 995-1015 millibar
throughout flight you need to know this pressure and confirm it to others - as altitude measurement is based on it
Because it's not an F1 car and doesn't meet any of the rules governing F1...except the bit about a car being a 4-wheel vehicle.DiogoBrand wrote: ↑07 May 2018, 05:01I have another question:
If the Porsche 919 EVO is able to beat an F1 car, why doesn't any team use the Porsche 919 EVO to compete in F1?
(I'm assuming this thread is just for nonsense questions, sorry if my interpretation is wrong.)
jjn9128 wrote: ↑07 May 2018, 10:13Hollus is correct, you're not seeing big pressure changes because pressure decreases as altitude increases - reducing the density of air - while temperature reduces with altitude (depending how high you're flying but amateur pilot would suggest low altitude) - increasing air density. Baku is at a fixed altitudeTommy Cookers wrote: ↑07 May 2018, 00:15this amateur pilot has never known surface pressure outside the range 995-1015 millibar
throughout flight you need to know this pressure and confirm it to others - as altitude measurement is based on it
Having looked it up track temp in 2017 was ~56C (air 26C), this year it was ~27C (air 25C) - that's a 30C difference at track level, but only 1C air.
Aaaaah yes. The point remains though - I would say he's probably not flying when air temp is 0C, and depending where he lives 30C may be unheard of (it's very rare here in the UK) - so the pressure/density change won't be as big as a 30C swing. I would say Hollus was confused about track and air temp - so the front wing and floor are probably close enough to have a sharp temperature gradient when track temp is 30C higher than air as it was last year - and experience density difference - but the rest of the car probably won't be... except the rear wing which has 400C exhaust blowing onto it... are we properly off topic now?J.A.W. wrote: ↑07 May 2018, 10:25jjn9128 wrote: ↑07 May 2018, 10:13Hollus is correct, you're not seeing big pressure changes because pressure decreases as altitude increases - reducing the density of air - while temperature reduces with altitude (depending how high you're flying but amateur pilot would suggest low altitude) - increasing air density. Baku is at a fixed altitudeTommy Cookers wrote: ↑07 May 2018, 00:15this amateur pilot has never known surface pressure outside the range 995-1015 millibar
throughout flight you need to know this pressure and confirm it to others - as altitude measurement is based on it
Having looked it up track temp in 2017 was ~56C (air 26C), this year it was ~27C (air 25C) - that's a 30C difference at track level, but only 1C air.
Pretty sure that T-C, by "surface" - means ground-level.. & Baku is, AFAIR, actually below sea-level..
Can I ask when you mean about times getting slower? Since 2014 laptimes at Barca have been reducing by 2-2.5s per year. Laptimes are slower in qualifying than testing because the tyres Pirelli take to winter testing are <2 steps softer than they take to the race - good for the cold temps (softer tyres have lower operating temps) and those headline grabbing times (fastest time on the hypersoft was over a second quicker than the fastest on the supersoft). Also as colder air is denser dowforce increases by the same as drag - colder/denser air also gives more power and means the cooling system has to work less hard (they can blank the cooling - brakes and rads - to save drag).
Because Barcelona is a high downforce track, and Baku is not.
No, the issue is that it was two months earlier. The general rule in that is that if it is earlier in the season, it's colder. The track was significantly colder, and the wind in between buildings doesn't help.Before coming to Baku in 2018, after 12 months from last race, the cars have gone through 12 months of development and the winter development. Plus, the power units have evolved and got better in terms of overall power. The tyres have gotten a step softer, which should have better grip, albeit less durable. If you compare the loss due to halo and the lower temperature to the factors I mentioned, it should still be a positive difference in performance. Yet, the cars are slower by a second! While Ferrari was faster by 2 tenths, Mercedes is slower by 1.1 seconds!
My hunch is, the tyres have taken away great deal of performance from the cars. In an effort to make the tyres less durable, it seems like Pirelli has created tyres which are far lower in grip, despite being in right temperature window.
Have you considered the possibility that the cars aren't actually slower? It's weird to conclude the cars are slower when they were quicker in the first three races of the seasonIt has never happened that the cars have gotten slower from one season to next, while the regulations have stayed same. In my opinion, halo has added 6 kilos of weight to the car, but hasn't greatly changed the aero performance of cars. Actually, many teams expressed concerns when the nose regulations changed from 2014 to 2015 and admitted to have lost a lot of downforce, including Mercedes. But the cars still were faster in 2015, than in 2014. Throughout the last season when teams were trying halo, no one made statements about their aero being affected.
Wasn't the original point about air density (Greg Locock wrote: ↑08 May 2018, 13:08Having said that there might be a bit of a peak at mid day, but nothing like 10/300*1000 =30 millibar