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11-19-2006, 05:48 PM,
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osiris
Junior Member
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Posts: 35
Threads: 4
Joined: Jul 2006
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I've found some values on :
http://vamos.sourceforge.net/vamos-docs/Cars.html#Cars
my time is 1:15.600 for ruudskogen with this car.
my time is 8:52.548 for the ring with this car.
I know the torque isn't powerful enough so it's the next thing to do with brakes. 
Quote:drive = RWD
[ steering ]
max-angle = 36.0
[ engine ]
position = 1.4, 0.0, -0.1
mass = 200.0
max-power = 4.100e5
peak-engine-rpm = 5750.0
rpm-limit = 6500.0
inertia = 1.0
idle = 0.025
start-rpm = 1000
stall-rpm = 500
fuel-consumption = 0.0001
torque-friction = 0.0015
torque-curve-00 = 1000, 425.4
torque-curve-01 = 2000, 468.95
torque-curve-02 = 2500, 523.0
torque-curve-03 = 3000, 530.0
torque-curve-04 = 3300, 545.19
torque-curve-05 = 3500, 554.36
torque-curve-06 = 3800, 567.43
torque-curve-07 = 3900, 571.22
torque-curve-08 = 4000, 579.98
torque-curve-09 = 4100, 584.75
torque-curve-10 = 4200, 587.77
torque-curve-11 = 4500, 593.53
torque-curve-12 = 5000, 615.71
torque-curve-13 = 5500, 636.03
torque-curve-14 = 5750, 650.01
torque-curve-15 = 6000, 605.28
torque-curve-16 = 6500, 501.16
[ clutch ]
sliding = 0.27
radius = 0.05
area = 0.12354
max-pressure = 4.0e5
[ transmission ]
gears = 6
gear-ratio-r = -3.135
gear-ratio-1 = 2.61
gear-ratio-2 = 1.71
gear-ratio-3 = 1.23
gear-ratio-4 = 0.94
gear-ratio-5 = 0.77
gear-ratio-6 = 0.63
shift-delay=0.10
[ differential ]
final-drive = 3.36
anti-slip = 400.0
[ fuel-tank ]
position = -1.2, -0.1, -0.26
capacity = 100.0
volume = 100.0
fuel-density = 0.8
[ suspension-front ]
spring-constant = 60000.0
bounce = 7000.0
rebound = 7500.0
travel = 0.4
max-compression-velocity = 10.0
camber = -2.0
caster = 5.0
toe = -2.0
anti-roll = 10000.0
[ suspension-rear ]
spring-constant = 45000.0
bounce = 5500.0
rebound = 6000.0
travel = 0.12
max-compression-velocity = 10.0
camber = -0.45
caster = 0.28
toe = 0.2
anti-roll = 10000.0
[ tire-front ]
radius = 0.29
rolling-resistance = 1.3e-2, 6.5e-6
rotational-inertia = 10.0
tread = 0.0
# Lateral force
a0=1.1
a1=-0
a2=1690
a3=800
a4=6.03
a5=0
a6=-0.359
a7=1.0
a8=0
a9=-0.00611
a10=-0.0322
a111=0
a112=0
a12=0
a13=0
# Longitudinal force
b0=1.0
b1=0
b2=1690
b3=0
b4=229
b5=0
b6=0
b7=0
b8=-10
b9=0
b10=0
b11=0
b12=0
# Aligning moment
c0=2.07
c1=-6.49
c2=-21.9
c3=-0.416
c4=-21.3
c5=0.0294
c6=0.0
c7=-1.2
c8=5.23
c9=-14.8
c10=0.0
c11=0.0
c12=-0.00374
c13=0.0389
c14=0.0
c15=0.0
c16=0.639
c17=1.69
[ tire-rear ]
radius = 0.2935
rolling-resistance = 1.3e-2, 6.5e-6
rotational-inertia = 10.0
tread = 0.0
# Lateral force
a0=1.1
a1=-0
a2=1690
a3=800
a4=6.03
a5=0
a6=-0.359
a7=1.0
a8=0
a9=-0.00611
a10=-0.0322
a111=0
a112=0
a12=0
a13=0
# Longitudinal force
b0=1.0
b1=0
b2=1690
b3=0
b4=229
b5=0
b6=0
b7=0
b8=-10
b9=0
b10=0
b11=0
b12=0
# Aligning moment
c0=2.07
c1=-6.49
c2=-21.9
c3=-0.416
c4=-21.3
c5=0.0294
c6=0.0
c7=-1.2
c8=5.23
c9=-14.8
c10=0.0
c11=0.0
c12=-0.00374
c13=0.0389
c14=0.0
c15=0.0
c16=0.639
c17=1.69
[ brakes-front ]
friction = 1.6
max-pressure = 3.0e6
bias = 0.5
radius = 0.1375
area = 0.01
[ brakes-rear ]
friction = 1.5
max-pressure = 3.0e6
bias = 0.5
radius = 0.1375
area = 0.01
handbrake = 1.0
[ driver ]
position = 0.0, 0.023, 0.0
mass = 90.0
view-position = -0.36, -0.16, 0.26
[ drag ]
position = 0.0, 0.0, -0.60
frontal-area = 2.0
drag-coefficient = 0.3
[ wing-front ]
position = 2.34, 0, -0.6
frontal-area = 0.2
drag-coefficient = 0
surface-area = 0.3
lift-coefficient = -0.5
efficiency = 0.95
[ wing-rear ]
position = -2.14, 0, 0.37
frontal-area = 0.2
drag-coefficient = 0
surface-area = 0.5
lift-coefficient = -0.9
efficiency = 0.95
[ wheel-FR ]
position = 1.45, -0.75, -0.48
roll-height = 0.2
mass = 30.0
restitution = 0.1
[ suspension-FR ]
position = 1.45, -0.60, -0.35
hinge = 0,0,-0.1
[ wheel-FL ]
position = 1.45, 0.75, -0.48
roll-height = 0.2
mass = 30.0
restitution = 0.1
[ suspension-FL ]
position = 1.45, 0.60, -0.35
hinge = 0,0,-0.1
[ wheel-RR ]
position = -1.34, -0.75, -0.48
roll-height = 0.2
mass = 30.0
restitution = 0.1
[ suspension-RR ]
position = -1.34, -0.60, -0.35
hinge = 0,0,-0.1
[ wheel-RL ]
position = -1.34, 0.75, -0.48
roll-height = 0.2
mass = 30.0
restitution = 0.1
[ suspension-RL ]
position = -1.34, 0.60, -0.35
hinge = 0,0,-0.1
[ contact-points ]
# used to find the bounds of the car (for collisions)
# also play into the weight distribution and balance
mass = 33
position-00 = -2.32, 1.11, -0.62
position-01 = 2.32, 1.11, -0.62
position-02 = -2.32, -1.11, -0.62
position-03 = 2.32, -1.11, -0.62
# these are used to calculate the weight distribution and balance
[ particle-00 ]
mass = 255
position = -2.3, 1.11, -0.22
[ particle-01 ]
mass = 255
position = -2.3, -1.11, -0.22
[ particle-02 ]
mass = 224
position = 2.3, 1.11, -0.22
[ particle-03 ]
mass = 224
position = 2.3, -1.11, -0.22
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