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DoD likes to run the Throwback Thursday photo section on their site. Many of those race photos are from the early 2000s. I especially think the cars looked very good around 2000-2005, they looked racy and had some identity. What changed in the rule book since that time in regards to bodies? Not much if anything, correct? Teching bodies is not difficult if you choose to do it.
Political correctness,...is the inability to speak the truth about the obvious.
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Post #17 Bayko & #18 dirtcrazy
With all of the Action-Reaction situations you guys are talking about, it sounds like a NASCAR car to me, getting on the bump-stops that is. Rigid, Rigid, Rigid
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Originally Posted by Morgs153
DoD likes to run the Throwback Thursday photo section on their site. Many of those race photos are from the early 2000s. I especially think the cars looked very good around 2000-2005, they looked racy and had some identity. What changed in the rule book since that time in regards to bodies? Not much if anything, correct? Teching bodies is not difficult if you choose to do it.
For the most part, nothing changed on the body rules during that time to semi current. The biggest thing was the lack of enforcement on the "deck must be flat for 36 inches from the spoiler forward" (paraphrasing as it was something like that on the dimension). This never really got checked and eventually the cars started dropping the deck behind the driver and making a huge wing out of the back deck. Then began the adding of the huge lip on the left side of the car and lowering the RF corner of the deck to allow even more angle left to right and front to back of the deck. Then it just took off from there.
Those are some of the highlights of a few things, then add in approving noses that manufactures keep developing to out do the other. Take a 1/4" here and there and next then you know we have a modern nose with splitter's and huge left side lips on them.
I'll also add this (just my opinion): Part of the Aero deal got started when the 12" spoilers where added for the spec engines. People saw how big an effect that had on the cars and how much it helped in the slick so they started looking at it a lot more with all cars and ways to increase downforce.
Last edited by billetbirdcage; 12-27-2020 at 06:08 PM.
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Originally Posted by lurker
With all of the Action-Reaction situations you guys are talking about, it sounds like a NASCAR car to me, getting on the bump-stops that is. Rigid, Rigid, Rigid
It really is more of a function of low left side weight, super high Center of Gravity (raised even more when the car hikes up) that causes roll overs. The other part isn't so much from bumpstops but bottoming out or the RF corner of the nose or frame/crossmember hitting the ground and digging in. With the super high COG's and low left % it doesn't take much to dig in and cause the car to go ahead on turn over.
^^No different that sliding a refrigerator on the floor to move it and it catches a crack in the floor and dumps over unexpectedly
Last edited by billetbirdcage; 12-27-2020 at 06:09 PM.
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Originally Posted by MasterSbilt_Racer
On a lm, they are not tying it down. They are wanting it to come up.
The higher the lr corner comes, the more weight it carries. It also turns the center of the car into a wedge and gets the spoiler higher.
The rules? I think Ray Cooks motivation was that some people had understood the instant center issue and other people were just trying to hike higher and causing their suspension to suffer. Brains ain't fair anymore...
It certainly can't be concern over the extra downforce, because the bodies morph every year to gain downforce, while the people with rule books just ignore it.
It was explained as a safety measure to avoid roll overs. However, you'd have to bring the cars down much more to have any impact on the increase of rollovers seen in the last decade and a half.
i dont think the height of the left rear determines how much weight it carries , the right front determines this more than anything , a car could easily be set up to carry more weight at 1/2 droop than at full droop according to rt frt set up , want turn as good but is possible ....
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Originally Posted by fastford
i dont think the height of the left rear determines how much weight it carries , the right front determines this more than anything , a car could easily be set up to carry more weight at 1/2 droop than at full droop according to rt frt set up , want turn as good but is possible ....
When the lr raises, due to lift from the suspension, it removes weight off all the other springs(at least rr, 5th coil, and lf). It's just like spinning that adjuster nut down. It's the very reason when guys started 3 wheeling in the 90s, they got drunk on the forward bite.
This is before you even consider aero load on the rear deck and the longer moment arm it has to apply load to the rear tires.
Last edited by MasterSbilt_Racer; 12-28-2020 at 12:36 PM.
Modern Day Wedge Racing
Florence -1
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Originally Posted by MasterSbilt_Racer
When the lr raises, due to lift from the suspension, it removes weight off all the other springs(at least rr, 5th coil, and lf). It's just like spinning that adjuster nut down. It's the very reason when guys started 3 wheeling in the 90s, they got drunk on the forward bite.This is before you even consider aero load on the rear deck and the longer moment arm it has to apply load to the rear tires.
To add to that a common misconception is that weight transfers from lr to rf and vice-versa when this is not really the case. Basically you can crank all the static wedge you want into a car and it doesn't create infinite drive.
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Originally Posted by Jking24
To add to that a common misconception is that weight transfers from lr to rf and vice-versa when this is not really the case. Basically you can crank all the static wedge you want into a car and it doesn't create infinite drive.
When you accelerate off the corner, weight comes off both fronts and goes to both rears. How much moves, and where depends on acceleration, cg location, and relative stiffness of the rear corners. Or starting cg location vs new cg location due to chassis height changes.
You can put enough wedge in to have no drive. 2 tires out pull 1.
Modern Day Wedge Racing
Florence -1
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jking , at some point it will stop turning left though and that has not changed , and all the weight may not shift from lf rear to rt front , but the majority does and upon entering the turn , the rt front has the most to do with dynamic wedge or weight applied to lft rear.....
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Originally Posted by fastford
jking , at some point it will stop turning left though and that has not changed , and all the weight may not shift from lf rear to rt front , but the majority does and upon entering the turn , the rt front has the most to do with dynamic wedge or weight applied to lft rear.....
Rf does have to do with wedge. In my example, leaving all else the same, a higher lr has more load. If it results in more travel on the rf, you are gaining there too.
Modern Day Wedge Racing
Florence -1
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Corner entry = RF Corner exit = LR
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Originally Posted by MasterSbilt_Racer
Rf does have to do with wedge. In my example, leaving all else the same, a higher lr has more load. If it results in more travel on the rf, you are gaining there too.
10/4 , i misunderstood what you were saying.....
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