Weight loss before power gain
#31
Gary - by aero (kit) I ment replacing OEM with lighter (and if possible with less drag) OEM or otherwise components. Confusion arose by readers assuming more downforce would mean more weight. Which is obviously still going on.
Allegretto - this being physics it's not really subject to interpretation and opinions. what you wrote is pure gibberish. what does "virtually equivalent" mean ? really please take a step back and rethink what you are trying to argue and more importantly why.
Boolala - old friend, what i timely arrival. you got the first 2 statements right. in particular the one about the rolling resistance. however those 2 don't make the third one right - "Thus the power needed to accelerate an object will increase as downforce increases" - timely example of confusing downforce with drag (in terms of what you ment) and not knowing what the the rolling resistance is the function of.
http://en.wikipedia.org/wiki/Rolling_resistance
I think it's important to understand the race car dynamics in order to be a good driver (and understanding grip - aerodynamic or mechanical is part of it). Good schools (Barber etc.) would go through lengths in order to explain these principles - not necesseraly the Porsche driving experience events. So by jumping in and stirring some sparks I'm making a small contribution to making some of you better drivers.
http://en.wikipedia.org/wiki/Downforce
note that - like any force - it's measured in newtons.
PS: Boolala - excellent follow-up. Spot on about balancing out the lift of the car at speed (at minimum). Downforce can be negative - the car will take off and loose contact with the ground, but will the car weight change ? You still confuse rolling resistance with aerodynamic drag.
http://en.wikipedia.org/wiki/Drag_(physics)
Allegretto - this being physics it's not really subject to interpretation and opinions. what you wrote is pure gibberish. what does "virtually equivalent" mean ? really please take a step back and rethink what you are trying to argue and more importantly why.
Boolala - old friend, what i timely arrival. you got the first 2 statements right. in particular the one about the rolling resistance. however those 2 don't make the third one right - "Thus the power needed to accelerate an object will increase as downforce increases" - timely example of confusing downforce with drag (in terms of what you ment) and not knowing what the the rolling resistance is the function of.
http://en.wikipedia.org/wiki/Rolling_resistance
I think it's important to understand the race car dynamics in order to be a good driver (and understanding grip - aerodynamic or mechanical is part of it). Good schools (Barber etc.) would go through lengths in order to explain these principles - not necesseraly the Porsche driving experience events. So by jumping in and stirring some sparks I'm making a small contribution to making some of you better drivers.
http://en.wikipedia.org/wiki/Downforce
note that - like any force - it's measured in newtons.
PS: Boolala - excellent follow-up. Spot on about balancing out the lift of the car at speed (at minimum). Downforce can be negative - the car will take off and loose contact with the ground, but will the car weight change ? You still confuse rolling resistance with aerodynamic drag.
http://en.wikipedia.org/wiki/Drag_(physics)
#32
Read my last post. I think you were responding to my earlier comments.
Ask yourself why the 911's spoiler deploys only beyond a certain speed. At low speeds the tires are fully in contact with the pavement and the small aerodynamic upforce is insufficient to counter this effect. Any increase in downforce at this point will just increase rolling resisitence via increasing the "normal" (N) (upwards, pavement) force on the car. Beyond a certain point (speed) the aerodynamic upforce is signifcant enough to adversely affect traction, the spoiler deploys and (hopefully) counterbalances this upforce without adding to apparant weight. This effect is independant of drag which is a phenonenon related to air resitance and primary a function of speed and cross sectional area of the vehicle.
Ask yourself why the 911's spoiler deploys only beyond a certain speed. At low speeds the tires are fully in contact with the pavement and the small aerodynamic upforce is insufficient to counter this effect. Any increase in downforce at this point will just increase rolling resisitence via increasing the "normal" (N) (upwards, pavement) force on the car. Beyond a certain point (speed) the aerodynamic upforce is signifcant enough to adversely affect traction, the spoiler deploys and (hopefully) counterbalances this upforce without adding to apparant weight. This effect is independant of drag which is a phenonenon related to air resitance and primary a function of speed and cross sectional area of the vehicle.
#34
#35
is the game of "who is smarter then the other" done yet? op is asking if there are some suggestions to lighten his ride. dont remember him asking a lecture on physics. wow its really funny looking at how some of the posts here totally deviate from what the original topic was
#36
As to the Physics; I cannot reason you out of a position that didn't employ reason in the first place.
I'll leave now since you'll be "...beating me on experience..." if we go any further. If that reference seems cryptic you may look up the rest of the quote later.
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93Jaffe (01-02-2020)