Is FWD weight transfer a myth?
Discussion
Mr Whippy said:
308mate said:
RobM77 said:
308mate said:
FWD, RWD, 4WD, AWD - all have significant weight transfer to some degree, depending on what you do with the gas or brake. Why wouldnt they?
Its just the results that differ between drive-trains.
Its just the results that differ between drive-trains.
the results of weight transfer in a corner are the same regardless of drivetrain. If you back off in a car, the rear goes light and the tendency to oversteer increases, and if you accelerate the front goes light and the tendency to understeer increases.Anyone else think theres a distinction here?
Dave
Well, there isn't really any weight transfer going on, it is the load that is being transferred. It just looks like the weight is being moved.
As you accelerate, the force wants to twist you round the centre of gravity. This sets up a torque round that CofG. The road then pushes up with an equal and opposite force.
The force is proportional to the height of the CofG (higher things tip over easier) and inversely properional to the wheelbase (wide things are harder to tip).
So a car with a 2m wheelbase. CofG 50cm in height. Weighing 2000kg. Accelerating at .5G (9.8m/s / 2 - about a 0-60 in 5.5 seconds) - generating an accelerative force of 1000kg. And a perfect 50:50 weight distribution.
On the front tyre we have 1000kg (half the weight) - 1000kg (the force) * 50 (height of CoG) / 200 (wheelbase) = 750kg.
On the rear tyre we have 1000kg + 1000kg (the force) * 50 / 200 = 1250kg.
So a 25% increase in "grip" on the rear, 25% decrease in the front. Not good news for the FWD.
As you accelerate, the force wants to twist you round the centre of gravity. This sets up a torque round that CofG. The road then pushes up with an equal and opposite force.
The force is proportional to the height of the CofG (higher things tip over easier) and inversely properional to the wheelbase (wide things are harder to tip).
So a car with a 2m wheelbase. CofG 50cm in height. Weighing 2000kg. Accelerating at .5G (9.8m/s / 2 - about a 0-60 in 5.5 seconds) - generating an accelerative force of 1000kg. And a perfect 50:50 weight distribution.
On the front tyre we have 1000kg (half the weight) - 1000kg (the force) * 50 (height of CoG) / 200 (wheelbase) = 750kg.
On the rear tyre we have 1000kg + 1000kg (the force) * 50 / 200 = 1250kg.
So a 25% increase in "grip" on the rear, 25% decrease in the front. Not good news for the FWD.
Edited by Noger on Wednesday 31st October 16:17
Well it's significant if you are cornering already, asking the tyre to put more work into doing longitudinal decelleration means less left for lateral grip, and this will see a reduction in lateral grip + the effect of lower load over the rear tyres vs the fronts...
Not sure about the exact mechanics of how a fwd would respond, most of the fwd's I've pushed that hard all have a high rear roll stiffness, so oversteer on lift-off more than push from the front.
Dave
Not sure about the exact mechanics of how a fwd would respond, most of the fwd's I've pushed that hard all have a high rear roll stiffness, so oversteer on lift-off more than push from the front.
Dave
RobM77 said:
The major difference of course comes when you want to try and rescue the lift off oversteer. Common sense says that you need to get the weight transferred back over the rear of the car again, which is easy in a front wheel drive car as you just accelerate. If you reduce the grip at the front by doing this then it helps even more! (the You Tube link above is a great example of this! - FWD cars are almost unspinnable). With rear wheel drive it gets a bit more complicated, as power application can cause the rear wheels to lose grip even further.
In my opinion, lift off over steer in a RWD is a just a plain old 
up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.Noger said:
Well, there isn't really any weight transfer going on, it is the load that is being transferred. It just looks like the weight is being moved.
As you accelerate, the force wants to twist you round the centre of gravity. This sets up a torque round that CofG. The road then pushes up with an equal and opposite force.
The force is proportional to the height of the CofG (higher things tip over easier) and inversely properional to the wheelbase (wide things are harder to tip).
So a car with a 2m wheelbase. CofG 50cm in height. Weighing 2000kg. Accelerating at .5G (9.8m/s / 2 - about a 0-60 in 5.5 seconds) - generating an accelerative force of 1000kg. And a perfect 50:50 weight distribution.
On the front tyre we have 1000kg (half the weight) - 1000kg (the force) * 50 (height of CoG) / 200 (wheelbase) = 750kg.
On the rear tyre we have 1000kg + 1000kg (the force) * 50 / 200 = 1250kg.
So a 25% increase in "grip" on the rear, 25% decrease in the front. Not good news for the FWD.
Not when you want to go faster still I imagine As you accelerate, the force wants to twist you round the centre of gravity. This sets up a torque round that CofG. The road then pushes up with an equal and opposite force.
The force is proportional to the height of the CofG (higher things tip over easier) and inversely properional to the wheelbase (wide things are harder to tip).
So a car with a 2m wheelbase. CofG 50cm in height. Weighing 2000kg. Accelerating at .5G (9.8m/s / 2 - about a 0-60 in 5.5 seconds) - generating an accelerative force of 1000kg. And a perfect 50:50 weight distribution.
On the front tyre we have 1000kg (half the weight) - 1000kg (the force) * 50 (height of CoG) / 200 (wheelbase) = 750kg.
On the rear tyre we have 1000kg + 1000kg (the force) * 50 / 200 = 1250kg.
So a 25% increase in "grip" on the rear, 25% decrease in the front. Not good news for the FWD.
Edited by Noger on Wednesday 31st October 16:17
So I guess for fwd people who want faster 0-60's, lowering the CofG is the best bet, bar exotic tyres...
Fold them rear seats down, it really DOES work
No honestly, in theory, it does
Dave
RobCrezz said:
joesnow said:
RobM77 said:
True, but that's with LSDs and slick tyres
lsds don't have any advantage in a straight line, do they? I thought an lsd transfered drive to the wheel with most traction, ie: the outside wheel of a fwd car accelerating out off a reducing radius corner, saving the inside one with less grip spinning up.
joesnow said:
RobCrezz said:
joesnow said:
RobM77 said:
True, but that's with LSDs and slick tyres
lsds don't have any advantage in a straight line, do they? I thought an lsd transfered drive to the wheel with most traction, ie: the outside wheel of a fwd car accelerating out off a reducing radius corner, saving the inside one with less grip spinning up.
I'm sure we caoul all go on but we are off topic.
Edited by Munter on Wednesday 31st October 16:29
joesnow said:
RobCrezz said:
joesnow said:
RobM77 said:
True, but that's with LSDs and slick tyres
lsds don't have any advantage in a straight line, do they? I thought an lsd transfered drive to the wheel with most traction, ie: the outside wheel of a fwd car accelerating out off a reducing radius corner, saving the inside one with less grip spinning up.
308mate said:
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.
a small amount is good in a track car, it lets you scrub off some speed if you enter a corner too fast, and it can be recovered from by giving the car a small amount of gas (to negate the engine braking) and countersteering up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.but i agree that it is not really ideal in an every day road car
Will2425 said:
308mate said:
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.
a small amount is good in a track car, it lets you scrub off some speed if you enter a corner too fast, and it can be recovered from by giving the car a small amount of gas (to negate the engine braking) and countersteering up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.but i agree that it is not really ideal in an every day road car
Of course if youre in too hot and you havent mastered a dab of left-foot braking (and I havent...yet), you change the attitude of the car by lifting off.
On that note, my flat mates S plate Vectra has BUCKETLOADS dialled into it. To the point where its dangerous. She loses it 2 or 3 times every winter. The only reason I dont is cause Im expecting it. Are they all like that?
I think it has too much caster in the wheel alignment(?)
Edited by 308mate on Wednesday 31st October 16:39
308mate said:
RobM77 said:
The major difference of course comes when you want to try and rescue the lift off oversteer. Common sense says that you need to get the weight transferred back over the rear of the car again, which is easy in a front wheel drive car as you just accelerate. If you reduce the grip at the front by doing this then it helps even more! (the You Tube link above is a great example of this! - FWD cars are almost unspinnable). With rear wheel drive it gets a bit more complicated, as power application can cause the rear wheels to lose grip even further.
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.Edited by RobM77 on Wednesday 31st October 16:40
RobM77 said:
308mate said:
RobM77 said:
The major difference of course comes when you want to try and rescue the lift off oversteer. Common sense says that you need to get the weight transferred back over the rear of the car again, which is easy in a front wheel drive car as you just accelerate. If you reduce the grip at the front by doing this then it helps even more! (the You Tube link above is a great example of this! - FWD cars are almost unspinnable). With rear wheel drive it gets a bit more complicated, as power application can cause the rear wheels to lose grip even further.
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.Im talking about sliding for fun.
Take a nominal car
- Wheelbase 10'
- CoG 2' above the ground
- Static weight split: 60F/40R (front engine bias)
Vertical load on the axle is a key driver for acceleration.
Static vertical load on front axle = Fs = 0.6g
Static vertical load on rear axle = Rs = 0.4g
Now we want to accelerate the car at 0.5g (an easily achievable amount on dry tarmac). Taking O-level moments:
Fa = 0.6g - 1/10(0.5g x 2) = 0.6g - 0.1g = 0.5g
Ra = 0.5g
Despite having the weight well biased to the front, for 0.5g acceleration the RWD version of this car is as fully capable as the FWD version. Take it up to 0.75g acceleration, 0.15g is being transferred to the rear axle and its capability for delivering acceleration is now 22% more than through the front axle. A lot more than 5%.
If the limit of adhesion is a controlling factor in acceleration, then the grippier the surface the greater the benefit for RWD, and the greater the penalty for FWD. Not a significant issue on ice or wet roads, a very big issue on the run up to Copse at 1.00pm on a hot Sunday in July.
- Wheelbase 10'
- CoG 2' above the ground
- Static weight split: 60F/40R (front engine bias)
Vertical load on the axle is a key driver for acceleration.
Static vertical load on front axle = Fs = 0.6g
Static vertical load on rear axle = Rs = 0.4g
Now we want to accelerate the car at 0.5g (an easily achievable amount on dry tarmac). Taking O-level moments:
Fa = 0.6g - 1/10(0.5g x 2) = 0.6g - 0.1g = 0.5g
Ra = 0.5g
Despite having the weight well biased to the front, for 0.5g acceleration the RWD version of this car is as fully capable as the FWD version. Take it up to 0.75g acceleration, 0.15g is being transferred to the rear axle and its capability for delivering acceleration is now 22% more than through the front axle. A lot more than 5%.
If the limit of adhesion is a controlling factor in acceleration, then the grippier the surface the greater the benefit for RWD, and the greater the penalty for FWD. Not a significant issue on ice or wet roads, a very big issue on the run up to Copse at 1.00pm on a hot Sunday in July.
308mate said:
RobM77 said:
308mate said:
RobM77 said:
The major difference of course comes when you want to try and rescue the lift off oversteer. Common sense says that you need to get the weight transferred back over the rear of the car again, which is easy in a front wheel drive car as you just accelerate. If you reduce the grip at the front by doing this then it helps even more! (the You Tube link above is a great example of this! - FWD cars are almost unspinnable). With rear wheel drive it gets a bit more complicated, as power application can cause the rear wheels to lose grip even further.
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.Edited by RobM77 on Wednesday 31st October 16:51
HiRich said:
Take a nominal car
- Wheelbase 10'
- CoG 2' above the ground
- Static weight split: 60F/40R (front engine bias)
Vertical load on the axle is a key driver for acceleration.
Static vertical load on front axle = Fs = 0.6g
Static vertical load on rear axle = Rs = 0.4g
Now we want to accelerate the car at 0.5g (an easily achievable amount on dry tarmac). Taking O-level moments:
Fa = 0.6g - 1/10(0.5g x 2) = 0.6g - 0.1g = 0.5g
Ra = 0.5g
Despite having the weight well biased to the front, for 0.5g acceleration the RWD version of this car is as fully capable as the FWD version. Take it up to 0.75g acceleration, 0.15g is being transferred to the rear axle and its capability for delivering acceleration is now 22% more than through the front axle. A lot more than 5%.
If the limit of adhesion is a controlling factor in acceleration, then the grippier the surface the greater the benefit for RWD, and the greater the penalty for FWD. Not a significant issue on ice or wet roads, a very big issue on the run up to Copse at 1.00pm on a hot Sunday in July.
Y'see I was just about to say EXACTLY that...- Wheelbase 10'
- CoG 2' above the ground
- Static weight split: 60F/40R (front engine bias)
Vertical load on the axle is a key driver for acceleration.
Static vertical load on front axle = Fs = 0.6g
Static vertical load on rear axle = Rs = 0.4g
Now we want to accelerate the car at 0.5g (an easily achievable amount on dry tarmac). Taking O-level moments:
Fa = 0.6g - 1/10(0.5g x 2) = 0.6g - 0.1g = 0.5g
Ra = 0.5g
Despite having the weight well biased to the front, for 0.5g acceleration the RWD version of this car is as fully capable as the FWD version. Take it up to 0.75g acceleration, 0.15g is being transferred to the rear axle and its capability for delivering acceleration is now 22% more than through the front axle. A lot more than 5%.
If the limit of adhesion is a controlling factor in acceleration, then the grippier the surface the greater the benefit for RWD, and the greater the penalty for FWD. Not a significant issue on ice or wet roads, a very big issue on the run up to Copse at 1.00pm on a hot Sunday in July.
308mate said:
Will2425 said:
308mate said:
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.
a small amount is good in a track car, it lets you scrub off some speed if you enter a corner too fast, and it can be recovered from by giving the car a small amount of gas (to negate the engine braking) and countersteering up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.but i agree that it is not really ideal in an every day road car
Of course if youre in too hot and you havent mastered a dab of left-foot braking (and I havent...yet), you change the attitude of the car by lifting off.
On that note, my flat mates S plate Vectra has BUCKETLOADS dialled into it. To the point where its dangerous. She loses it 2 or 3 times every winter. The only reason I dont is cause Im expecting it. Are they all like that?
I think it has too much caster in the wheel alignment(?)
Edited by 308mate on Wednesday 31st October 16:39
it will oversteer if you give it too much gas
it will oversteer if you lift off
it will oversteer if you are simply going too fast round the corner
in fact i have never managed to make it understeer in the wet (and i have tried!)
and its RWD so you can't punch the throttle to catch it
308mate said:
Will2425 said:
308mate said:
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.
a small amount is good in a track car, it lets you scrub off some speed if you enter a corner too fast, and it can be recovered from by giving the car a small amount of gas (to negate the engine braking) and countersteering up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.but i agree that it is not really ideal in an every day road car
Of course if youre in too hot and you havent mastered a dab of left-foot braking (and I havent...yet), you change the attitude of the car by lifting off.
On that note, my flat mates S plate Vectra has BUCKETLOADS dialled into it. To the point where its dangerous. She loses it 2 or 3 times every winter. The only reason I dont is cause Im expecting it. Are they all like that?
I think it has too much caster in the wheel alignment(?)
Edited by 308mate on Wednesday 31st October 16:39
thetrash said:
308mate said:
Will2425 said:
308mate said:
In my opinion, lift off over steer in a RWD is a just a plain old up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.
a small amount is good in a track car, it lets you scrub off some speed if you enter a corner too fast, and it can be recovered from by giving the car a small amount of gas (to negate the engine braking) and countersteering up. Its actually difficult to acheive unless youre in low grip conditions like wet or unsealed road. In RWD, if you want to slide, use power, not momentum. Momentum renders you a virtual passenger.but i agree that it is not really ideal in an every day road car
Of course if youre in too hot and you havent mastered a dab of left-foot braking (and I havent...yet), you change the attitude of the car by lifting off.
On that note, my flat mates S plate Vectra has BUCKETLOADS dialled into it. To the point where its dangerous. She loses it 2 or 3 times every winter. The only reason I dont is cause Im expecting it. Are they all like that?
I think it has too much caster in the wheel alignment(?)
Edited by 308mate on Wednesday 31st October 16:39
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