old AMUS article about the topic and FIA test... maybe obsolete now.
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I am just puzzled... Never implied otherwise.... Something will happen... Or a repeated ban or everyone copying itzibby43 wrote: ↑25 May 2019, 20:50Isn't it 5 mm when stationary? You have to account for additional travel when the suspension is under load?
Guys, come on, let's please remember that scrutineering exists. And let's also remember to maybe look up the rules before discussing them.
But it's not anything new, as already said, teams were using it before, it just got limited. If Merc are doing something fancy there it would be other geometery working with it - castor gain, droop limiting, etc, etc - rather than the linkage in itself, to bypass the regulations.Giando wrote: ↑25 May 2019, 23:01So, when in February, after the first images of the car I pointed the attention on the new front suspension layout of the W10, my comments were overlooked by many users; just a few commented with true curiosity. Many others insisted in saying that the push rod connection was nothing new. Well, it doesn't seem the case, does it?
Could be that ride height changes. I just said I don't see it in this video.Don Ciccio wrote: ↑25 May 2019, 21:03Both wheel go together up and down, usually this has the consequence of changing ride heightOne and Only wrote: ↑25 May 2019, 19:36...
EDIT: It crossed my mind... Upper wishbone moves relative to the wheel, but it doesn't seem to change ride height(if we compare wishbone movement to the front wing which is fixed to chassis). In that case it means it has to move relative to the chassis as well in order not to change front ride height. If it moves that much relative to the chassis wouldn't that make it movable aero device? Can someone who knows rules better than me clarify?.
Probably in my video this movement is not so visible, streamable compression is too high.
I should have used another video streamer.
Less compressed videoOne and Only wrote: ↑26 May 2019, 11:15Could be that ride height changes. I just said I don't see it in this video.Don Ciccio wrote: ↑25 May 2019, 21:03Both wheel go together up and down, usually this has the consequence of changing ride heightOne and Only wrote: ↑25 May 2019, 19:36...
EDIT: It crossed my mind... Upper wishbone moves relative to the wheel, but it doesn't seem to change ride height(if we compare wishbone movement to the front wing which is fixed to chassis). In that case it means it has to move relative to the chassis as well in order not to change front ride height. If it moves that much relative to the chassis wouldn't that make it movable aero device? Can someone who knows rules better than me clarify?
Probably in my video this movement is not so visible, streamable compression is too high.
I should have used another video streamer.
Still very hard to find reference point in order to tell if suspension travels up or chassis travels down. But on both occasions my opinion is that this shouldn't be allowed. This amount of suspension movement caused by drivers steering input is movable aero device. It's not natural suspension movement caused by vehicle moving over bump or kerb.Don Ciccio wrote: ↑27 May 2019, 15:13Less compressed videoOne and Only wrote: ↑26 May 2019, 11:15Could be that ride height changes. I just said I don't see it in this video.Don Ciccio wrote: ↑25 May 2019, 21:03
Both wheel go together up and down, usually this has the consequence of changing ride height
Probably in my video this movement is not so visible, streamable compression is too high.
I should have used another video streamer.
https://www.filedropper.com/monaco19
Interesting point of view. Would that bring any advantage?
Consistent ride height translated into a more consistent aero performance overall. Do you remember FRIC, it's main aim was to have consistent ride heights while breaking/accelerating or while cornering.
Even if it would bring any advantage, it wouldn’t be legal.
FYI... ride height changes on my riding lawn mower when I turn the steering wheel, I see absolutely no performance increase because of thisLM10 wrote: ↑28 May 2019, 13:50Even if it would bring any advantage, it wouldn’t be legal.
To work around the test, you would need to be using some form of secondary input that causes the travel to exceed 5mm as 12 degrees.subcritical71 wrote: ↑28 May 2019, 16:00The AMuS article mentions (translated) "To be tolerated is a lowering of the ground clearance by 5 millimeters with a steering input of 12 degrees, as it occurs in tight corners.". The video I saw the dip seems to occur at a much greater steering input, could this be working around the test?
