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Mercedes AMG F1 driver Nico Rosberg has secured victory in the Spanish Grand Prix by dominating the race from start to finish. Lewis Hamilton finished second while Sebastian Vettel completed the podium for Ferrari.
I was having to lift my whole body onto the brakes because they are so stiff
We were told Lewis Hamilton has a brake pedal which requires 2-3 times more effort to operate!
It depends on why and where you are measuring the force. Int he case of the NASA graph it is for a Human performance use, in the case of a race car it may be to help the BBW or Traction control etc (the force at the linkage is proportional to the line pressure and can be measured by the line pressure and the pedal force is very variable depending on the angle the foot pushes it)... so you I am open to the facts.. but you have to show me some first.Andres125sx wrote: Looks like you missed the "Pedal force" part in the video.... There´s even a graph showing that´s the pressure applied to the pedal so no, no linkages or multipliers, 168kg is the pressure drivers do to the pedal
What are you talking about?PlatinumZealot wrote:It depends on why and where you are measuring the force. Int he case of the NASA graph it is for a Human performance use, in the case of a race car it may be to help the BBW or Traction control etcAndres125sx wrote: Looks like you missed the "Pedal force" part in the video.... There´s even a graph showing that´s the pressure applied to the pedal so no, no linkages or multipliers, 168kg is the pressure drivers do to the pedal
If it´s not perpendicular then they´d need to apply a higher force, but knowning what´s F1 drivers position I can´t think a way they could vary the anglePlatinumZealot wrote:(the force at the linkage is proportional to the line pressure and can be measured by the line pressure and the pedal force is very variable depending on the angle the foot pushes it)
Brembo video: brake pedal force 168kgPlatinumZealot wrote:so you I am open to the facts.. but you have to show me some first.
I don't understand why you guys are thinking that this is huge force. Seriously, if you can hop on your leg, you can generate this force.ringo wrote:Well they probably stomp the pedal and some impact force is applied. Impact forces tend to be double statically applied forces.
What I would like to know is can any of us, normal beings, brake an F1 car properly..
My perception was that Mercedes biggest strength was in slow corners, but I am reading a few things of late that seem to suggest it's the fast corners where they gain the most.the top speeds for Williams and Ferrari were similar and right up at the top of the tables, but at the same time the downforce dependent Sector 3 times for both cars were only a tenth and a half of a second off the Mercedes, which indicates a strong package for both cars.
Meteorologist?godlameroso wrote:It's going to be hot race day, 26-27℃ with 55℃ track temperature. Furthermore it's a very high degradation track, particularly the left side and front left especially.
Mercedes just has the best corner entry and by consequence corner exit. It doesn't seem to matter if it's a fast or corner. If there's heavy trail braking and a tricky entry, Mercedes is faster.
I don't think so.. it comes more from the calves.. at least this is the case with brake pedals from normale road cars.ChrisF1 wrote:I would say braking is no different the muscle groups needed for a leg press machine: