Is there anybody who knows how the distribution of downforce is for a modern F1 car? It must ofcourse change dependant of the wing setup. Are there any graphs which can be found? For example a graph which would give downforce coming from front wings, rear wings and the bottom of the car vs speed on a particular circuit?
![Photo](https://secure.gravatar.com/avatar/fee356f3e6e80e6965de6242074240c9?s=100&d=https%3A%2F%2Fbb2.autosport.com%2Fpublic%2Fstyle_images%2FTheo%2Fprofile%2Fdefault_large.png)
Numeric description of downforce
Started by
Fritz
, Dec 15 1999 09:09
3 replies to this topic
#1
Posted 15 December 1999 - 09:09
Advertisement
#2
Posted 15 December 1999 - 19:49
The commonly used formula for the downforce of an aerofoil is this:
F = cL * A * 0.5 * rho * v^2
with:
F = downforce
cL = coefficient. cL is mainly dependent on the angle of the aerofoil with respect to the horizontal plane.
A = surface of the aerofoil, defined as width * cord (?) length
rho = air density
v = speed
Does this help??
F = cL * A * 0.5 * rho * v^2
with:
F = downforce
cL = coefficient. cL is mainly dependent on the angle of the aerofoil with respect to the horizontal plane.
A = surface of the aerofoil, defined as width * cord (?) length
rho = air density
v = speed
Does this help??
#3
Posted 16 December 1999 - 02:50
I already knew that. The total amount should be around 8000 N at high speeds. How much comes from the rear wing, how much from the front wing and how much from the bottom and diffusor?
#4
Posted 17 December 1999 - 18:26
I heard about 30% is from the rear diffusor. Which makes me wonder about the radical balancing techniques a Ferrari and a Mclaren have.