My apologies to vonk for the distraction; I didn't intend to steer the topic. A quick note: the reason people "worship" downforce is because it allows the car to corner better, and reduces lap times. A very logical reason I would say. If you think that it hurts "the show" and should be addressed in future regulations, then I say fair point to you. In the meantime, some of us enjoy the intellectual "what ifs" and we want to talk about them. So unless you have something constructive to add to that discussion, please keep the off topic rants in other more appropriate threads. Thank you in advance for your cooperation.
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Back to the original topic...
Why would you sacrifice downforce in the name of drag reduction? I'll flip the question on you: why would you increase downforce if it means increased drag? The basic answer is that vehicle dynamics is a control system. The process of
systems optimization uses a cost function (lap time in this case) that is to be minimized, and the variables involved in the cost function can either be restricted or unrestricted in their respective domains. In the case of an F1 car, you can develop the cost function by dividing a circuit into a series of straights and turns with known lengths, radii, and banking angles. You can then calculate each "straight-time" and "turn-time" given known restraints on cornering and braking ability, and straight acceleration and top speed. These restraints are a function of downforce, tire selection, vehicle speed, ambient temperature, etc. Depending on the track, a lot of downforce may be beneficial, but at other tracks it is a detriment. This is why we see different aerodynamic setups at tracks on either extreme, such as Monaco and Monza.
What the McLaren "F-duct" is supposedly doing is introducing a non-linearity to the cost function restraints by reducing the amount of drag while traveling in a straight line relative to the drag experienced while in a turn. Near top speed, a car is not traction-limited, but actually drag-limited. So what McLaren may have seen is an ability to
stretch the restrictions on the cost function in their favor. So a logical question would then be: so why are the Red Bulls consistently outperforming the McLarens in a lap time? (While the drivers certainly have different styles, and they are a major component of the control system, I will choose to ignore them in this discussion and assume they are all equally capable of pushing a car to its limit.) Straight-line aerodynamics is not the only variable restricting the cost function, and Red Bull may have a better suspension design which allows them to stretch the restrictions elsewhere, such as limit cornering. Perhaps the McLaren car has sacrificed too much cornering downforce by adding their vent/slit that they can't match corner exit velocity of other cars and their F-duct advantage is effectively negated. Who knows without looking at telemetry data?
I haven't thought too in-depth on the F-duct subject, so this is only educated speculation, but I think people have the F-duct philosophy backwards. As a wing's angle of attack increases, the drag force component increases, and the lift force component increases until the point of stall and then begins to decrease. While the rear wing angle of attack is fixed relative to some global frame of reference, the induced angle of attack continuously changes depending on the air flow around the wing due to the influence of other elements on the car. If you supply air to the underside of the rear wing while the car is at top speed, you can reduce the effective induced angle of attack and decrease the drag (and lift). Removal of that airflow switches the induced angle of attack back to a higher degree and produces higher downforce and higher drag. Maybe this has already been discussed in the
other thread. I don't know since I've only read up to page 21 of what is currently a total of 69 pages. My apologies if it has been addressed already.
I don't have a direct answer for your wake question at the moment. I'll have to mull it over for a while. Maybe someone can add to the discussion in the meantime.
