In knot theory, the 63 knot is one of three prime knots with crossing number six, the others being the stevedore knot and the 62 knot. It is alternating, hyperbolic, and fully amphichiral. It can be written as the braid word

63 knot
Arf invariant1
Braid length6
Braid no.3
Bridge no.2
Crosscap no.3
Crossing no.6
Genus2
Hyperbolic volume5.69302
Stick no.8
Unknotting no.1
Conway notation[2112]
A–B notation63
Dowker notation4, 8, 10, 2, 12, 6
Last / Next6271
Other
alternating, hyperbolic, fibered, prime, fully amphichiral
[1]

Symmetry

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Like the figure-eight knot, the 63 knot is fully amphichiral. This means that the 63 knot is amphichiral,[2] meaning that it is indistinguishable from its own mirror image. In addition, it is also invertible, meaning that orienting the curve in either direction yields the same oriented knot.

Invariants

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The Alexander polynomial of the 63 knot is

 

Conway polynomial is

 

Jones polynomial is

 

and the Kauffman polynomial is

  [3]

The 63 knot is a hyperbolic knot, with its complement having a volume of approximately 5.69302.

References

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  1. ^ "6_3 knot - Wolfram|Alpha".
  2. ^ Weisstein, Eric W. "Amphichiral Knot". MathWorld. Accessed: May 12, 2014.
  3. ^ "6_3", The Knot Atlas.