Stick number

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In the mathematical theory of knots, the stick number is a knot invariant that intuitively gives the smallest number of straight "sticks" stuck end to end needed to form a knot. Specifically, given any knot ${\displaystyle K}$, the stick number of ${\displaystyle K}$, denoted by ${\displaystyle \mathrm{stick}(K)}$, is the smallest number of edges of a polygonal path equivalent Template:Nowrap

Six is the lowest stick number for any nontrivial knot. There are few knots whose stick number can be determined exactly. Gyo Taek Jin determined the stick number of a ${\displaystyle (p,q)}$-torus knot ${\displaystyle T(p,q)}$ in case the parameters ${\displaystyle p}$ and ${\displaystyle q}$ are not too far from each other:^[1] Template:Bi

The same result was found independently around the same time by a research group around Colin Adams, but for a smaller range of parameters.^[2]

The stick number of a knot sum can be upper bounded by the stick numbers of the summands:^[3] $${\displaystyle \text{stick}(K_1\mathrm{\#}{K}_2)\le \text{stick}(K_1)+\text{stick}(K_2)-3}$$

The stick number of a knot ${\displaystyle K}$ is related to its crossing number ${\displaystyle c(K)}$ by the following inequalities:^[4] $${\displaystyle \frac{1}{2}(7+\sqrt{8\text{c}(K)+1})\le \text{stick}(K)\le \frac{3}{2}(c(K)+1).}$$

These inequalities are both tight for the trefoil knot, which has a crossing number of 3 and a stick number of 6.

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• Template:Citation. An accessible introduction into the topic, also for readers with little mathematical background.
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• "Stick numbers for minimal stick knots", KnotPlot Research and Development Site.

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