[wedged]

I found this:

"The instant center is found by extending the lines through the pivot points until they intersect. From there, anti squat is found by drawing a line from the IC to the center of the tire at the ground. Where that line crosses the center of gravity line it creates our measuring point ‘A’. The percentage of the line from the ground to our intersect point is the percentage of anti squat."


Right now I have no idea where my center of gravity will be. I'm guessing it will be further back than a stock pick up truck and maybe slightly lower.


From a Car Craft article:

vehicles have a specific point around which the entire car will balance called the center of gravity (CG). For most domestic front-engine, rear-drive cars, the CG is generally located forward of the mid-point of the car at around camshaft height off the ground. While all rear suspensions pivot around a given point, this is not necessarily the point at which the rear suspension applies power or lift. Suspension engineers call this lift point the instant center (IC). Different suspensions place this IC at different positions in the car. Because suspension components tend to shift as the body lifts or squats, this position is dynamic, meaning that it moves as the car pitches or rolls. One definition of IC is the unseen center of an arc created by the moving suspension links. The simplest instant center is a drag race ladder bar. The forward mounting point for the ladder bar where it hooks to the chassis also happens to be its instant center. With other rear-suspension designs, the instant center is an imaginary point in space.

Kevin Gertgen's Performance Trends has created a drag race four-link computer simulation program called 4 Link that offers pictures that tell the story much easier. If you look at the illustration, you'll notice a pair of dotted lines that extend from the lines drawn by the two upper control arms and the two lower control arms. The intersection point of those two lines is called the instant center. The 4 Link program allows you to reposition the IC by moving the mounting points of the upper and lower control arms. Also notice the dotted line that extends from the rear-tire contact point forward at an angle. This line intersects a point created by the intersection of the horizontal CG line with a vertical line drawn through the front spindle. This angled line is called the 100 percent antisquat line, or sometimes called the neutral line.

By changing the location of the upper and lower four-link bars, you can move the IC location either above, directly on, or below that 100 percent antisquat line. When the IC is positioned below that 100 percent antisquat line, the rear of the car will squat on acceleration and "hit" the tires relatively softly. When the IC is positioned above the 100 percent antisquat line, the rear of the car will tend to rise on acceleration and "hit" the tires harder. Obviously, if the IC is placed directly on the 100 percent line, the rear will remain neutral.

This explanation holds true for all rear-drive cars, but there is plenty of confusion around the location of the instant center with different suspension systems. For example, with leaf-spring cars, the IC is the front spring eyes, but with ladder bars, the IC is the front pivot point. Factory four-link cars are determined exactly the same way as drag race four-link systems. If you extend imaginary lines forward on a factory four-link rear suspension, the IC generally falls in front of the car, well below the 100 percent antisquat line. This is why all factory four-link cars squat on acceleration. By installing the Lakewood anti-hop bars (for example), this kit raises the rear locating point of the upper control arms roughly 2 inches. This shortens the IC length and also places it above the 100 percent antisquat line, which now helps plant the rear tires. "


I guess if I make the bottom bar to angle upward from the rear to to front mount point and reduce the angle of the upper bar the same amount, that will increase the anti squat ?