Weighted catenary

A hanging chain is a regular catenary — and is not weighted.

A weighted catenary (also flattened catenary, was defined by William Rankine as transformed catenary^[1] and thus sometimes called Rankine curve^[2]) is a catenary curve, but of a special form. A "regular" catenary has the equation

[math]\displaystyle{ y = a \, \cosh \left(\frac{x}{a}\right) = \frac{a\left(e^\frac{x}{a} + e^{-\frac{x}{a}}\right)}{2} }[/math]

for a given value of a. A weighted catenary has the equation

[math]\displaystyle{ y = b \, \cosh \left(\frac{x}{a}\right) = \frac{b\left(e^\frac{x}{a} + e^{-\frac{x}{a}}\right)}{2} }[/math]

and now two constants enter: a and b.

Significance

A catenary arch has a uniform thickness. However, if

1. the arch is not of uniform thickness,^[3]
2. the arch supports more than its own weight,^[4]
3. or if gravity varies,^[5]

it becomes more complex. A weighted catenary is needed.

The aspect ratio of a weighted catenary (or other curve) describes a rectangular frame containing the selected fragment of the curve theoretically continuing to the infinity. ^[6][7]

The St. Louis arch: thick at the bottom, thin at the top.

Examples

The Gateway Arch in the American city of St. Louis (Missouri) is the most famous example of a weighted catenary.

Simple suspension bridges use weighted catenaries.^[7]

References

External links and references

General links

• One general-interest link

On the Gateway arch

• Mathematics of the Gateway Arch
• On the Gateway Arch
• A weighted catenary graphed

Commons

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