The Determinant and the Signature: Difference between revisions
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Thus, for example, the knots [[5_1]] and [[10_132]] have the same determinant (and even the same Alexander and Jones polynomials), but different signatures: |
Thus, for example, the knots [[5_1]] and [[10_132]] have the same determinant (and even the same Alexander and Jones polynomials), but different signatures: |
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{{Knot Image Pair|5_1|gif|10_132|gif}} |
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{| align=center |
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|[[Image:5_1.gif|thumb|180px|<center>[[5_1]]</center>]] |
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|[[Image:10_132.gif|thumb|none|<center>[[10_132]]</center>|180px]] |
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<!--$$KnotDet /@ {Knot[5, 1], Knot[10, 132]}$$--> |
<!--$$KnotDet /@ {Knot[5, 1], Knot[10, 132]}$$--> |
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Revision as of 03:08, 3 September 2005
(For In[1] see Setup)
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Thus, for example, the knots 5_1 and 10_132 have the same determinant (and even the same Alexander and Jones polynomials), but different signatures:
 5_1 |
 10_132 |
In[3]:=
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KnotDet /@ {Knot[5, 1], Knot[10, 132]}
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Out[3]=
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{5, 5}
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In[4]:=
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{
Equal @@ (Jones[#][q]& /@ {Knot[5, 1], Knot[10, 132]}),
Equal @@ (Alexander[#][t]& /@ {Knot[5, 1], Knot[10, 132]})
}
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Out[4]=
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{True, True}
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In[5]:=
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KnotSignature /@ {Knot[5, 1], Knot[10, 132]}
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Out[5]=
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{-4, 0}
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In August 2005 somebody emailed Dror a question about knot colouring, which amounted to "find the first knot (other than the unknot) whose determinant is . So on September 2nd Dror typed
In[6]:=
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Select[AllKnots[], Abs[KnotDet[#]] == 1 &]
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Out[6]=
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{Knot[0, 1], Knot[10, 124], Knot[10, 153],
Knot[11, NonAlternating, 34], Knot[11, NonAlternating, 42],
Knot[11, NonAlternating, 49], Knot[11, NonAlternating, 116]}
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Hence the first few knots that are not -colourable for any are 10_124, 10_153, K11n34, K11n42, K11n49 and K11n116.
 K11n116 |
