Thanks. That's what I thought you meant. Then, why do they say that the top 10% of back does most of the (tension) work?
This is hard to explain in a short forum entry of text. Attached is a picture of the basic calculations to help illustrate. You may have to zoom in on the picture to see it clearly.
The basic idea is that the area under the curve (in this case the triangle) gives the total force generated. This allows us to calculate what portion of the total force is generated by different layers in the limb.
The picture shows the same triangle representation, representing the tension side of the limb in this case. I added dimensions to illustrate:
t = the distance from the neutral axis to the outer surface of the limb
F = the maximum stress on the outer surface of the limb
Say we split the thickness t into half, representing the outer half of the tension side of the limb and the inner half. Call the outer portion Area1 and the inner portion Area2. We can easily see that Area1 is much bigger than Area2. The calculations show that Area1 is 3/4 of the total area and Area2 is 1/4, which means that the outer half is generating 3/4 of the total force.
This calculation can be carried out for any slice of the limb thickness to show how much of the total force that particular layer is generating. If you work it backwards you can calculate out that the outer 29.3% of the thickness carries 50% of the total load. For a rectangular section limb the triangle depth t is half the total limb thickness. This means 50% of the work in that limb is being done by a layer that is 14.65% of the total limb thickness on the back and belly surfaces.
To put this into real numbers, say your limb is 0.5" thick. 50% of all the work is done by 0.073" thick layers on the belly and back surfaces. The other 0.354" in the core is doing the other 50%, which means the core isn't doing much overall.
Clear as mud?
Mark
