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The sum of and will be called the four point truss, . The four point truss equilibrates the system of forces and with points of application the intersection of and resp. with the base of the triangle. We require
or
The simplicity of this truss allows an for a straight forward calculation of the cost. For let and denote the strength and length resp. of beam It is easy to see that for this truss to equilibrate the the strengths of each of individual beam must be equal to the force that is based on a point of the beam and aligned to it, thus:
The lengths of the the are also easily calculated. and being the equal sides of an isosceles triangle it might be superfluous to state that:
With the use of trigonometry it is clear that
and
The cost of is given by the formula
We have used [link] in relating and to Note that the cost is linear in and diverges as or
Having calculated the cost of the we perturb the corner in order to produce a structure that may yield a lower cost compared to that of the . Our main objective being that of investigation of the consequences or eliminatingcorners from an already existing truss.
The modified truss will be obtained by removing the corner of the A horizontal line parallel to the triangle base line a distance from the base of the isosceles traingle is added.The beams and are formed by shortening and to where they intersect this added line. To mantain a truss structure must be replaced by three new beams. connects and in the place where the cut of the corner was made. shares a connections point with and while is connected to the node that is shared with both and . The shape of the new truss that is obtained is that of a trapezoid, the applied forces remain same as for We shall hence forth refer to this truss structure and the five point tent truss,
The complicated nature of the makes the calculation of the lengths 's and strengths 's slightly less obvious than they were for the original However, easy trigonometry and some calculations yield both the length's and the strengths of each individual beam. We use the same parameters to describe this truss as before, namely , and However, we need three more parameters to calculate the cost. These parameters are the following: which describes the height of the cut and and represent the angle between the base and and resp.
Keeping in mind some of the properties that govern the truss we have calculated the length's of each individual beams to be:
The magnitude of strengths are similarly calculated to be:
Having acquired all the information we require we can now calculate the cost of the :
In order to check that the perturbation lowers the cost for some sufficiently small we differentiate this expression and evaluate the derivate at Even further simplification reduces the formula to the following somewhat complicated expression:
With the help of the above analsysis, we have shown that
independent of and This proves the claim that two dimensional trusses cannot have corners.
Other deformations of trusses worth considering are perturbations of other junctions. Consider the case when are beams meeting at a point Suppose we shorten each beam by introducing a polyhedron about whose vertices meet the beams and each edge represents the location of a new beam. From Lemma 4 above we see that the cost does not change withthe perturbation if the junction consists of only cables of only bars. This study would help rule out certain cases when both cables and bars meet at a junction.
A second deformation consists of making piecewise affine deformations within a triangle as follows; divide the triangle into three sub-triangleswith common vertex in the center. Choose a base and let be the affine transformation of which maps points to points whose distance to the line passing through the base is scaled by The affine transformations in the remaining triangles is uniquely determined by continuity. Thus, be the unique piecewise affine transformation of with for not in the triangle and for in the first sub-triangle. Applying to a truss and then adding the necessary beams to ensure that is equilibrated then yields the perturbation.
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