below 15000, or above 15000 ?
for ignition retard giving hot blowing ?
- Login or Register
No account yet? Sign up
I checked the rules and it says above 15k, so my idea is not very valid, however, I found this:Tommy Cookers wrote:below 15000, or above 15000 ?
for ignition retard giving hot blowing ?
I think this might be the thing teams are exploiting. Between shifts they have lower limiter settings, and they achieve engine limiting in such way that provides more exhaust flow.Engine high rev limits may vary for differing conditions provided all are significantly above the
peak of the engine torque curve. However, a lower rev limit may be used when :
-
The gearbox is in neutral.
If they are it proves there is a neutral 'gap' in the current so called 'seamless' gearboxes.timbo wrote:I checked the rules and it says above 15k, so my idea is not very valid, however, I found this:Tommy Cookers wrote:below 15000, or above 15000 ?
for ignition retard giving hot blowing ?
I think this might be the thing teams are exploiting. Between shifts they have lower limiter settings, and they achieve engine limiting in such way that provides more exhaust flow.Engine high rev limits may vary for differing conditions provided all are significantly above the
peak of the engine torque curve. However, a lower rev limit may be used when :
-
The gearbox is in neutral.
Not to make too fine a point of it but torque interupt only really hampers acceleration, F1 boxes don't have a torque interrupt on an upshift because the higher gear overdrives the lower one.autogyro wrote:It seems that certain F1 teams are increasing the gearshift 'GAP' to allow use of the engine being 'disengaged from the gearbox' during the shifts, to blow a higher volume of exhaust gas over the diffuser during deceleration and corner entry.
The 'GAP' in the gearshift allows this to be done because there is zero or minus torque being transffered during the shifts.
So mush for all the 'seamless' gearbox BS.
Ill tell Adrian Newey he's wrong then.xxChrisxx wrote:Not to make too fine a point of it but torque interupt only really hampers acceleration, F1 boxes don't have a torque interrupt on an upshift because the higher gear overdrives the lower one.autogyro wrote:It seems that certain F1 teams are increasing the gearshift 'GAP' to allow use of the engine being 'disengaged from the gearbox' during the shifts, to blow a higher volume of exhaust gas over the diffuser during deceleration and corner entry.
The 'GAP' in the gearshift allows this to be done because there is zero or minus torque being transffered during the shifts.
So mush for all the 'seamless' gearbox BS.
This means using the current system can't have non interruped downshift, but why should one care if no engine power is being delivered when one is slowing down?
IIRC that is 8 overall (end-to-end) ratios throughout the 2014 seasonautogyro wrote: Unfortunately for 2014 the FIA is allowing 8 speed gearboxes and I think I can see why now.
Most likely there is. However it is not there because they can't make a gearbox without gap, but because they need that gap for aero reasons.autogyro wrote:If they are it proves there is a neutral 'gap' in the current so called 'seamless' gearboxes.
A vehicle's inertia is a measure of its mass, and, in the case of rotational inertia (applicable to the car's wheels, engine, brake discs, props shaft, etc) the placement of that mass about the component's centre of rotation. For a given gear ratio it is a fixed value whether the car is stationary, moving at a constant speed, or accelerating. There is no such thing as "Establishing inertia". Fundamentally the equation F=mA (or A=F/m) is what determines vehicle performance.First gear has to accelerate the car from stationary which takes lots of power to establish inertia.
The easiest start in a vehicle with a high power:grip ratio is achieved when using a longer (lower ratio) first gear since this reduces the motive force at the driven wheels; there is no chance of spinning the driven wheels since there is insufficient force to break traction, for this reason motoring groups recommend pulling away in 2nd or 3rd gear in icy conditions. The fastest start is achieved when the motive force at the driven wheels exactly equals the tyre's traction capacity... try increasing the force any more than the tyre's limit (e.g. by opening the throttle more or using a shorter (higher ratio) gear) will simply result in wheel spin and a loss of acceleration. If you decrease the force below the tyre's traction limit (by using a longer (lower ratio) gear, or reducing the throttle opening a bit) you are simply giving yourself less force to accelerate the car, and remember A=F/m.A good start is much easier with a lower first gear.
autogyro wrote:Ill tell Adrian Newey he's wrong then.xxchrisxx wrote:Not to make too fine a point of it but torque interupt only really hampers acceleration, F1 boxes don't have a torque interrupt on an upshift because the higher gear overdrives the lower one.autogyro wrote:So mush for all the 'seamless' gearbox BS.
This means using the current system can't have non interruped downshift, but why should one care if no engine power is being delivered when one is slowing down?
Not really answering the question that is it. Also, you state yourself that the response was in 99. Not really surprising that he mentions a brief torque interrupt as it predates the current in use shifting system by about half a decade+.Here is an extract from a letter I received from Adrian Newey when he was technical director at McLaren in1999.
"The current layout may be crude but it is light, small and has a good efficiency with only a very short torque interruption during gear changes".
Signed Adrian Newey.
I agree but using a higher first gear will result in higher engine rpm than is ideal to achieve maximum tyre grip from that ratio without engine stall. The higher gear will therefore practicaly assure wheel spin in a powerful light F1 car, which will be less controllable than for a lower ratio.The easiest start in a vehicle with a high power:grip ratio is achieved when using a longer (lower ratio) first gear since this reduces the motive force at the driven wheels; there is no chance of spinning the driven wheels since there is insufficient force to break traction, for this reason motoring groups recommend pulling away in 2nd or 3rd gear in icy conditions. The fastest start is achieved when the motive force at the driven wheels exactly equals the tyre's traction capacity... try increasing the force any more than the tyre's limit (e.g. by opening the throttle more or using a shorter (higher ratio) gear) will simply result in wheel spin and a loss of acceleration. If you decrease the force below the tyre's traction limit (by using a longer (lower ratio) gear, or reducing the throttle opening a bit) you are simply giving yourself less force to accelerate the car, and remember A=F/m.
People shouldn't be confused by "crawler" gears which are fitted to some cars; generally off-road vehicles. These are very short (high ratio) gears which are expressely used to limit the maximum rotational speed of the driven wheels; this is ideal for travelling at a constant slow speed on low friction surfaces, but the maximum low speed acceleration of the vehicle is still limited by the tyre's traction limit.
Thanks. The joy of physics is that it is wonderfully simple and elegant.machin wrote:avoid people going away thinking that physics is more complicated that it really is....
If you stack them up with say 300ms between each, then changing from 7 to say 3 = 4*(300+300) = 1.8 sec. If the driver can sync that with late braking then that'd give more downforce on the corner entry?timbo wrote:So we have 300ms max. As the whole braking event takes mere seconds, that's quite a long time indeed!