Paper bag problem

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In geometry, the paper bag problem or teabag problem is to calculate the maximum possible inflated volume of an initially flat sealed rectangular bag which has the same shape as a cushion or pillow, made out of two pieces of material which can bend but not stretch.

According to Anthony C. Robin, an approximate formula for the capacity of a sealed expanded bag is:Template:Sfn

${\displaystyle V=w^3(h/\left(\pi w\right)-0.142(1-10^{(-h/w)})),}$

where w is the width of the bag (the shorter dimension), h is the height (the longer dimension), and V is the maximum volume. The approximation ignores the crimping round the equator of the bag.

A very rough approximation to the capacity of a bag that is open at one edge is:

${\displaystyle V=w^3(h/\left(\pi w\right)-0.071(1-10^{(-2h/w)}))}$Script error: No such module "Unsubst".

(This latter formula assumes that the corners at the bottom of the bag are linked by a single edge, and that the base of the bag is not a more complex shape such as a lens).Script error: No such module "Unsubst".

The square teabag

For the special case where the bag is sealed on all edges and is square with unit sides, h = w = 1, the first formula estimates a volume of roughly

${\displaystyle V=\frac{1}{\pi }-0.142\cdot 0.9}$

or roughly 0.19. According to Andrew Kepert, a lecturer in mathematics at the University of Newcastle, Australia, an upper bound for this version of the teabag problem is 0.217+, and he has made a construction that appears to give a volume of 0.2055+.Script error: No such module "Unsubst".

Robin also found a more complicated formula for the general paper bag,Template:SfnScript error: No such module "Unsubst". which gives 0.2017, below the bounds given by Kepert (i.e., 0.2055+ ≤ maximum volume ≤ 0.217+).

See also

• Biscornu, a shape formed by attaching two squares in a different way, with the corner of one at the midpoint of the other
• Mylar balloon (geometry)

Notes

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References

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External links

• The original statement of the teabag problem
• Andrew Kepert's work on the teabag problem (mirror)
• Curved folds for the teabag problem
• A numerical approach to the teabag problem by Andreas Gammel
• Script error: No such module "Template wrapper".

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