12n

0754

(K12n

0754

)

A knot diagram

Linearized knot diagam

4 6 8 10 3 10 2 12 1 6 5 9

Solving Sequence

6,10

3,11

2 8 5 12 4 1 9

, c

Ideals for irreducible components

of X

par

= h2.68814 × 10

+ 4.43259 × 10

+ ··· + 1.03715 × 10

b + 8.81961 × 10

− 2.68814 × 10

− 4.43259 × 10

+ ··· + 1.03715 × 10

a − 9.85676 × 10

, u

+ 2u

+ ··· + 3u + 1i

= h−9.65086 × 10

− 1.35252 × 10

+ ··· + 5.32581 × 10

b + 4.57159 × 10

− 7.17774 × 10

− 2.27336 × 10

+ ··· + 7.05055 × 10

a + 1.28066 × 10

+ 2u

+ ··· − 345u + 1721i

= h−588u

− 1117u

+ ··· + 1513b + 3572, 588u

+ 1117u

+ ··· + 1513a − 2059,

+ 3u

− 7u

− 16u

− 14u

+ 2u

+ 26u

+ 50u

+ 59u

+ 48u

+ 30u

+ 13u

+ 4u + 1i

= hb, a − 1, u − 1i

= hb, a − u − 2, u

+ u − 1i

* 5 irreducible components of dim

= 0, with total 86 representations.

The image of knot diagram is generated by the software “Draw programme” developed by An-

drew Bartholomew(http://www.layer8.co.uk/maths/draw/index.htm#Running-draw), where we modi-

ﬁed some parts for our purpose(https://github.com/CATsTAILs/LinksPainter).

All coeﬃcients of polynomials are rational numbers. But the coeﬃcients are sometimes approximated

in decimal forms when there is not enough margin.

= h2.69×10

+4.43×10

+· · ·+1.04×10

b+8.82×10

, −2.69×

−4.43×10

+· · ·+1.04×10

a−9.86×10

, u

+2u

+· · ·+3u+1i

(i) Arc colorings















2.59186u

+ 4.27384u

+ ··· + 0.0225842u + 9.50373

−2.59186u

− 4.27384u

+ ··· − 0.0225842u − 8.50373





−u





−2.59186u

− 4.27384u

+ ··· − 0.0225842u − 8.50373





−2.59186u

− 4.27384u

+ ··· − 0.0225842u − 7.50373

0.934704u

+ 1.45438u

+ ··· + 1.23689u + 2.26933





3.21748u

+ 5.20620u

+ ··· + 1.12168u + 10.8632

−0.625617u

− 0.932359u

+ ··· − 1.09909u − 1.35945





−0.835399u

− 1.31731u

+ ··· − 0.385321u − 1.44477

−1.30325u

− 2.20760u

+ ··· + 2.32421u − 4.36458





3.21748u

+ 5.20620u

+ ··· + 1.12168u + 10.8632

−0.182315u

− 0.176177u

+ ··· − 0.630287u − 0.130685





1.47940u

+ 2.41530u

+ ··· − 0.101041u + 4.07523

0.504058u

+ 0.994655u

+ ··· − 0.583979u + 1.83194





−1.16297u

− 1.83866u

+ ··· − 0.347165u − 4.48853

0.540348u

+ 0.679881u

+ ··· + 0.438800u + 2.01562



(ii) Obstruction class = −1

(iii) Cusp Shapes = 8.53130u

+ 14.3893u

+ ··· + 9.88172u + 20.4373

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 2u

+ ··· + 6u

+ 1

, c

− 9u

+ ··· − 12u + 9

− 2u

+ ··· + 22u + 4

, c

− 2u

+ ··· − 3u + 1

+ 31u

+ ··· + 1966080u + 131072

, c

− 10u

+ ··· + 24u + 9

− 2u

+ ··· − 926u + 233

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 4y

+ ··· + 12y + 1

, c

+ 13y

+ ··· − 630y + 81

+ 2y

+ ··· − 188y + 16

, c

− 40y

+ ··· − 11y + 1

+ 3y

+ ··· − 51539607552y + 17179869184

, c

− 34y

+ ··· + 1260y + 81

+ 30y

+ ··· + 118794y + 54289

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.727787 + 0.359428I

a = 1.50645 + 0.30685I

b = −0.506447 − 0.306846I

3.01151 − 0.12453I 2.01930 − 0.65952I

u = −0.727787 − 0.359428I

a = 1.50645 − 0.30685I

b = −0.506447 + 0.306846I

3.01151 + 0.12453I 2.01930 + 0.65952I

u = −1.088820 + 0.491186I

a = 0.429547 + 0.223085I

b = 0.570453 − 0.223085I

2.15764 − 0.43132I 3.87708 + 2.50521I

u = −1.088820 − 0.491186I

a = 0.429547 − 0.223085I

b = 0.570453 + 0.223085I

2.15764 + 0.43132I 3.87708 − 2.50521I

u = 0.123243 + 0.684919I

a = 1.074160 + 0.889657I

b = −0.074156 − 0.889657I

1.24572 − 1.59798I −0.69901 + 4.34280I

u = 0.123243 − 0.684919I

a = 1.074160 − 0.889657I

b = −0.074156 + 0.889657I

1.24572 + 1.59798I −0.69901 − 4.34280I

u = −0.181903 + 0.562687I

a = 1.76402 − 0.20287I

b = −0.764020 + 0.202871I

3.20927 + 1.51045I 1.61636 − 4.36798I

u = −0.181903 − 0.562687I

a = 1.76402 + 0.20287I

b = −0.764020 − 0.202871I

3.20927 − 1.51045I 1.61636 + 4.36798I

u = 0.570063 + 0.113911I

a = 1.10156 − 1.54628I

b = −0.10156 + 1.54628I

9.84884 + 5.18562I 1.41138 − 2.71485I

u = 0.570063 − 0.113911I

a = 1.10156 + 1.54628I

b = −0.10156 − 1.54628I

9.84884 − 5.18562I 1.41138 + 2.71485I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.097390 + 0.483297I

a = 1.44762 − 1.17049I

b = −0.447624 + 1.170490I

5.83833 + 4.06602I 6.43607 − 3.22823I

u = 0.097390 − 0.483297I

a = 1.44762 + 1.17049I

b = −0.447624 − 1.170490I

5.83833 − 4.06602I 6.43607 + 3.22823I

u = −1.30092 + 0.76651I

a = 0.565351 − 1.100220I

b = 0.434649 + 1.100220I

4.66242 − 4.30535I 0

u = −1.30092 − 0.76651I

a = 0.565351 + 1.100220I

b = 0.434649 − 1.100220I

4.66242 + 4.30535I 0

u = −1.58301 + 0.10612I

a = −0.040653 − 0.769050I

b = 1.040650 + 0.769050I

−5.78170 + 5.02185I 0

u = −1.58301 − 0.10612I

a = −0.040653 + 0.769050I

b = 1.040650 − 0.769050I

−5.78170 − 5.02185I 0

u = 1.59789 + 0.07572I

a = 0.152087 + 0.822987I

b = 0.847913 − 0.822987I

−4.90783 − 0.17419I 0

u = 1.59789 − 0.07572I

a = 0.152087 − 0.822987I

b = 0.847913 + 0.822987I

−4.90783 + 0.17419I 0

u = 1.59468 + 0.12683I

a = −0.176743 + 0.703049I

b = 1.176740 − 0.703049I

0.33699 − 8.78781I 0

u = 1.59468 − 0.12683I

a = −0.176743 − 0.703049I

b = 1.176740 + 0.703049I

0.33699 + 8.78781I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.224964 + 0.303301I

a = 1.60702 + 0.01432I

b = −0.607019 − 0.014324I

−1.277390 − 0.391091I −8.45483 + 1.44760I

u = 0.224964 − 0.303301I

a = 1.60702 − 0.01432I

b = −0.607019 + 0.014324I

−1.277390 + 0.391091I −8.45483 − 1.44760I

u = −0.329013 + 0.018023I

a = 1.16462 + 1.38080I

b = −0.164619 − 1.380800I

3.64918 − 3.45629I −10.02596 + 4.62950I

u = −0.329013 − 0.018023I

a = 1.16462 − 1.38080I

b = −0.164619 + 1.380800I

3.64918 + 3.45629I −10.02596 − 4.62950I

u = −1.74543 + 0.37989I

a = 0.439100 + 0.949102I

b = 0.560900 − 0.949102I

4.10800 + 2.16881I 0

u = −1.74543 − 0.37989I

a = 0.439100 − 0.949102I

b = 0.560900 + 0.949102I

4.10800 − 2.16881I 0

u = 1.71462 + 0.67318I

a = 0.120504 − 1.186710I

b = 0.87950 + 1.18671I

1.9107 − 16.1447I 0

u = 1.71462 − 0.67318I

a = 0.120504 + 1.186710I

b = 0.87950 − 1.18671I

1.9107 + 16.1447I 0

u = −1.72533 + 0.66821I

a = 0.136057 + 1.096830I

b = 0.863943 − 1.096830I

−4.72526 + 11.94950I 0

u = −1.72533 − 0.66821I

a = 0.136057 − 1.096830I

b = 0.863943 + 1.096830I

−4.72526 − 11.94950I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.75936 + 0.67100I

a = 0.209299 − 0.991283I

b = 0.790701 + 0.991283I

−4.36968 − 6.32073I 0

u = 1.75936 − 0.67100I

a = 0.209299 + 0.991283I

b = 0.790701 − 0.991283I

−4.36968 + 6.32073I 0

II. I

= h−9.65 × 10

− 1.35 × 10

+ · · · + 5.33 × 10

b + 4.57 ×

, −7.18 × 10

− 2.27 × 10

+ · · · + 7.05 × 10

a + 1.28 ×

, u

+ 2u

+ · · · − 345u + 1721i

(i) Arc colorings















0.00101804u

+ 0.00322437u

+ ··· − 3.03218u − 1.81639

0.000181209u

+ 0.000253957u

+ ··· − 1.69137u − 0.858384





−u





0.00119925u

+ 0.00347833u

+ ··· − 4.72355u − 2.67478

0.000181209u

+ 0.000253957u

+ ··· − 1.69137u − 0.858384





0.00119925u

+ 0.00347833u

+ ··· − 4.72355u − 1.67478

0.000181209u

+ 0.000253957u

+ ··· − 1.69137u − 0.858384





0.00122718u

+ 0.00328059u

+ ··· − 1.81467u + 0.516616

−0.000330064u

− 0.00139754u

+ ··· + 0.178060u + 0.705552





0.000158903u

+ 0.00143193u

+ ··· − 0.847012u − 2.41702

0.00166960u

+ 0.00517909u

+ ··· − 0.901484u − 2.62550





0.00122718u

+ 0.00328059u

+ ··· − 1.81467u + 0.516616

0.000525501u

+ 0.00101205u

+ ··· − 1.64888u − 0.716369





0.000933234u

+ 0.00308935u

+ ··· + 1.23389u − 4.21048

0.00191049u

+ 0.00584877u

+ ··· − 0.657755u − 3.18542





0.000694411u

+ 0.00104134u

+ ··· − 2.62227u + 2.26900

−0.000527487u

− 0.00143426u

+ ··· + 0.446693u + 1.57292



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.00480094u

+ 0.0143993u

+ ··· − 10.3752u − 14.3937

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 3u

+ ··· − 26u + 1

, c

+ 7u

+ ··· + 3u + 2)

+ 4u

+ ··· − 81u + 7

, c

− 2u

+ ··· + 345u + 1721

(u − 1)

, c

+ 2u

+ ··· + 2u + 1)

− 2u

+ ··· − 107951u + 18799

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 13y

+ ··· − 238y + 1

, c

+ 3y

+ ··· + 27y + 4)

+ 8y

+ ··· + 24785y + 49

, c

− 24y

+ ··· − 23369735y + 2961841

(y −1)

, c

− 18y

+ ··· + 6y + 1)

+ 20y

+ ··· + 3655697641y + 353402401

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.951328 + 0.265633I

a = −1.00770 + 1.00856I

b = −0.799005 − 0.432049I

−0.749045 − 0.267600I −5.91340 + 2.02101I

u = 0.951328 − 0.265633I

a = −1.00770 − 1.00856I

b = −0.799005 + 0.432049I

−0.749045 + 0.267600I −5.91340 − 2.02101I

u = −0.648013 + 0.675517I

a = 0.627478 − 0.216336I

b = 0.186015 − 0.679590I

1.71945 − 1.37809I 3.91287 − 1.41254I

u = −0.648013 − 0.675517I

a = 0.627478 + 0.216336I

b = 0.186015 + 0.679590I

1.71945 + 1.37809I 3.91287 + 1.41254I

u = 0.823523 + 0.347145I

a = −0.079307 + 0.626674I

b = 0.172943 + 0.911158I

8.82842 + 4.51784I 4.44915 − 1.04065I

u = 0.823523 − 0.347145I

a = −0.079307 − 0.626674I

b = 0.172943 − 0.911158I

8.82842 − 4.51784I 4.44915 + 1.04065I

u = 0.078059 + 1.130100I

a = 0.369477 + 1.291370I

b = 0.186015 − 0.679590I

1.71945 − 1.37809I 3.91287 − 1.41254I

u = 0.078059 − 1.130100I

a = 0.369477 − 1.291370I

b = 0.186015 + 0.679590I

1.71945 + 1.37809I 3.91287 + 1.41254I

u = −1.207030 + 0.342060I

a = −0.344195 − 1.035250I

b = −1.007410 + 0.797418I

−4.69253 + 2.67585I −11.48246 + 0.04874I

u = −1.207030 − 0.342060I

a = −0.344195 + 1.035250I

b = −1.007410 − 0.797418I

−4.69253 − 2.67585I −11.48246 − 0.04874I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.304090 + 0.242334I

a = −0.172903 + 0.923671I

b = −1.20068 − 1.01012I

−1.01052 − 4.22577I −7.20649 + 4.92260I

u = 1.304090 − 0.242334I

a = −0.172903 − 0.923671I

b = −1.20068 + 1.01012I

−1.01052 + 4.22577I −7.20649 − 4.92260I

u = 1.339670 + 0.120163I

a = −0.297280 + 0.744568I

b = −0.80875 − 1.24243I

1.72404 − 6.10285I −0.03303 + 7.78532I

u = 1.339670 − 0.120163I

a = −0.297280 − 0.744568I

b = −0.80875 + 1.24243I

1.72404 + 6.10285I −0.03303 − 7.78532I

u = −0.456738 + 1.298950I

a = −0.13350 − 1.55902I

b = 0.172943 + 0.911158I

8.82842 + 4.51784I 4.44915 − 1.04065I

u = −0.456738 − 1.298950I

a = −0.13350 + 1.55902I

b = 0.172943 − 0.911158I

8.82842 − 4.51784I 4.44915 + 1.04065I

u = −1.41435 + 0.18193I

a = −0.123524 − 0.807920I

b = −0.92905 + 1.08318I

−3.82636 + 4.39821I −4.26128 − 12.11852I

u = −1.41435 − 0.18193I

a = −0.123524 + 0.807920I

b = −0.92905 − 1.08318I

−3.82636 − 4.39821I −4.26128 + 12.11852I

u = 0.329048 + 0.415115I

a = 2.16953 + 1.12232I

b = 0.370956 + 0.584694I

1.15682 − 3.56504I −0.39209 + 9.87971I

u = 0.329048 − 0.415115I

a = 2.16953 − 1.12232I

b = 0.370956 − 0.584694I

1.15682 + 3.56504I −0.39209 − 9.87971I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.43862 + 0.58080I

a = 0.039810 + 1.315730I

b = −0.92905 − 1.08318I

−3.82636 − 4.39821I −4.26128 + 12.11852I

u = 1.43862 − 0.58080I

a = 0.039810 − 1.315730I

b = −0.92905 + 1.08318I

−3.82636 + 4.39821I −4.26128 − 12.11852I

u = −0.353911 + 0.263917I

a = 1.82923 − 2.67302I

b = 0.514983 − 0.621068I

7.54180 + 7.47357I 0.42672 − 8.56588I

u = −0.353911 − 0.263917I

a = 1.82923 + 2.67302I

b = 0.514983 + 0.621068I

7.54180 − 7.47357I 0.42672 + 8.56588I

u = 0.12734 + 1.61628I

a = −0.099767 − 0.766912I

b = 0.370956 + 0.584694I

1.15682 − 3.56504I −0.39209 + 9.87971I

u = 0.12734 − 1.61628I

a = −0.099767 + 0.766912I

b = 0.370956 − 0.584694I

1.15682 + 3.56504I −0.39209 − 9.87971I

u = −1.42189 + 0.79988I

a = 0.05695 − 1.58085I

b = −0.80875 + 1.24243I

1.72404 + 6.10285I 0. − 7.78532I

u = −1.42189 − 0.79988I

a = 0.05695 + 1.58085I

b = −0.80875 − 1.24243I

1.72404 − 6.10285I 0. + 7.78532I

u = 1.71277 + 0.17526I

a = 0.289764 + 0.671140I

b = −1.007410 − 0.797418I

−4.69253 − 2.67585I −11.48246 + 0.I

u = 1.71277 − 0.17526I

a = 0.289764 − 0.671140I

b = −1.007410 + 0.797418I

−4.69253 + 2.67585I −11.48246 + 0.I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.03972 + 1.78449I

a = −0.371574 + 0.822587I

b = 0.514983 − 0.621068I

7.54180 + 7.47357I 0. − 8.56588I

u = 0.03972 − 1.78449I

a = −0.371574 − 0.822587I

b = 0.514983 + 0.621068I

7.54180 − 7.47357I 0. + 8.56588I

u = −1.77033 + 0.44561I

a = 0.475535 − 1.055760I

b = −1.20068 + 1.01012I

−1.01052 + 4.22577I 0. − 4.92260I

u = −1.77033 − 0.44561I

a = 0.475535 + 1.055760I

b = −1.20068 − 1.01012I

−1.01052 − 4.22577I 0. + 4.92260I

u = −1.87191 + 0.06853I

a = 0.296661 + 0.271754I

b = −0.799005 − 0.432049I

−0.749045 − 0.267600I 0

u = −1.87191 − 0.06853I

a = 0.296661 − 0.271754I

b = −0.799005 + 0.432049I

−0.749045 + 0.267600I 0

III. I

= h−588u

− 1117u

+ · · · + 1513b + 3572, 588u

+ 1117u

+ · · · +

1513a − 2059, u

+ 3u

+ · · · + 4u + 1i

(i) Arc colorings















−0.388632u

− 0.738268u

+ ··· + 5.77859u + 1.36087

0.388632u

+ 0.738268u

+ ··· − 5.77859u − 2.36087





−u





−1

0.388632u

+ 0.738268u

+ ··· − 5.77859u − 2.36087





−0.388632u

− 0.738268u

+ ··· + 5.77859u + 3.36087

0.815598u

+ 1.94052u

+ ··· + 7.27759u + 1.09980





1.51091u

+ 3.39061u

+ ··· + 0.177132u − 0.688698

−1.12227u

− 2.65235u

+ ··· − 5.95572u − 0.672174





−0.881031u

− 2.28420u

+ ··· − 5.34038u − 0.967614

−0.688698u

− 2.57700u

+ ··· − 5.30734u − 0.931923





1.51091u

+ 3.39061u

+ ··· + 0.177132u − 0.688698

−0.967614u

− 2.02181u

+ ··· − 2.89822u + 0.469927





0.747521u

+ 2.04759u

+ ··· − 3.22208u − 2.47984

−1.99802u

− 4.83807u

+ ··· − 5.42234u − 0.216127





1.55254u

+ 3.79114u

+ ··· + 4.30800u + 1.77264

−0.0647720u

+ 1.04362u

+ ··· + 10.7964u + 3.06015



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

11241

1513

−

26858

1513

+ ··· −

17389

1513

u +

5791

1513

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ u

+ ··· − u − 1

− 6u

+ ··· + 19u − 5

− u

+ ··· − 2u + 1

+ 6u

+ ··· + 19u + 5

+ 3u

+ ··· + 4u + 1

+ 3u

+ ··· + 19u + 7

, c

− 3u

+ ··· − 5u + 1

− 3u

+ ··· + 4u − 1

− u

+ ··· + 37u − 7

+ 3u

+ ··· − 5u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 9y

+ ··· − y −1

, c

+ 10y

+ ··· − 199y −25

+ 7y

+ ··· + 10y −1

, c

− 3y

+ ··· − 10y −1

+ 3y

+ ··· + 795y −49

, c

− 17y

+ ··· + 19y −1

+ 11y

+ ··· + 1817y −49

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.987374 + 0.467890I

a = −0.579345 + 1.158540I

b = −0.420655 − 1.158540I

4.31997 − 4.13409I −3.46958 + 1.84906I

u = −0.987374 − 0.467890I

a = −0.579345 − 1.158540I

b = −0.420655 + 1.158540I

4.31997 + 4.13409I −3.46958 − 1.84906I

u = 0.117054 + 1.115160I

a = −1.179320 + 0.743611I

b = 0.179315 − 0.743611I

8.59029 + 6.53866I 6.63406 − 4.93610I

u = 0.117054 − 1.115160I

a = −1.179320 − 0.743611I

b = 0.179315 + 0.743611I

8.59029 − 6.53866I 6.63406 + 4.93610I

u = −0.233685 + 0.729101I

a = −1.02361 − 1.31637I

b = 0.023606 + 1.316370I

11.04790 + 5.60149I 8.37859 − 4.59557I

u = −0.233685 − 0.729101I

a = −1.02361 + 1.31637I

b = 0.023606 − 1.316370I

11.04790 − 5.60149I 8.37859 + 4.59557I

u = −0.073575 + 1.235960I

a = −0.884526 − 0.744696I

b = −0.115474 + 0.744696I

1.89869 − 2.15293I 7.70740 + 10.20235I

u = −0.073575 − 1.235960I

a = −0.884526 + 0.744696I

b = −0.115474 − 0.744696I

1.89869 + 2.15293I 7.70740 − 10.20235I

u = −0.690497

a = −0.235710

b = −0.764290

0.864751 −3.54690

u = −1.42824 + 0.34324I

a = 0.158166 − 1.046720I

b = −1.15817 + 1.04672I

−0.00542 + 4.12317I 3.00102 − 3.07740I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.42824 − 0.34324I

a = 0.158166 + 1.046720I

b = −1.15817 − 1.04672I

−0.00542 − 4.12317I 3.00102 + 3.07740I

u = 1.46796 + 0.35294I

a = −0.028861 + 0.971059I

b = −0.971139 − 0.971059I

−4.05276 − 3.56193I −5.72461 + 2.61288I

u = 1.46796 − 0.35294I

a = −0.028861 − 0.971059I

b = −0.971139 + 0.971059I

−4.05276 + 3.56193I −5.72461 − 2.61288I

u = −0.016884 + 0.466920I

a = −0.84466 + 1.26589I

b = −0.155342 − 1.265890I

4.08794 − 3.40468I 8.74659 + 3.38159I

u = −0.016884 − 0.466920I

a = −0.84466 − 1.26589I

b = −0.155342 + 1.265890I

4.08794 + 3.40468I 8.74659 − 3.38159I

IV. I

= hb, a − 1, u − 1i

(i) Arc colorings



















−1

























−1







(ii) Obstruction class = −1

(iii) Cusp Shapes = −6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

u + 1

, c

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

y −1

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = 1.00000

b = 0

−1.64493 −6.00000

V. I

= hb, a − u − 2, u

+ u − 1i

(i) Arc colorings











−u + 1





u + 2





−u





u + 2





−u − 1

−u + 1













−u + 1





u + 1

u − 1





−u − 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 5

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

+ u − 1

, c

(u + 1)

, c

− u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

− 3y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.618034

a = 2.61803

b = 0

0 5.00000

u = −1.61803

a = 0.381966

b = 0

0 5.00000

VI. u-Polynomials

Crossings u-Polynomials at each crossing

, c

((u − 1)

)(u + 1)(u

+ u

+ ··· − u − 1)(u

− 2u

+ ··· + 6u

+ 1)

· (u

− 3u

+ ··· − 26u + 1)

− 6u

+ ··· + 19u − 5)(u

+ 7u

+ ··· + 3u + 2)

· (u

− 9u

+ ··· − 12u + 9)

(u + 1)(u

+ u − 1)(u

− u

+ ··· − 2u + 1)(u

− 2u

+ ··· + 22u + 4)

· (u

+ 4u

+ ··· − 81u + 7)

+ 6u

+ ··· + 19u + 5)(u

+ 7u

+ ··· + 3u + 2)

· (u

− 9u

+ ··· − 12u + 9)

(u + 1)(u

+ u − 1)(u

+ 3u

+ ··· + 4u + 1)(u

− 2u

+ ··· − 3u + 1)

· (u

− 2u

+ ··· + 345u + 1721)

((u − 1)

)(u + 1)

+ 3u

+ ··· + 19u + 7)

· (u

+ 31u

+ ··· + 1966080u + 131072)

, c

u(u + 1)

− 3u

+ ··· − 5u + 1)(u

+ 2u

+ ··· + 2u + 1)

· (u

− 10u

+ ··· + 24u + 9)

(u + 1)(u

− u − 1)(u

− 3u

+ ··· + 4u − 1)(u

− 2u

+ ··· − 3u + 1)

· (u

− 2u

+ ··· + 345u + 1721)

(u + 1)(u

− u − 1)(u

− u

+ ··· + 37u − 7)

· (u

− 2u

+ ··· − 926u + 233)(u

− 2u

+ ··· − 107951u + 18799)

u(u − 1)

+ 3u

+ ··· − 5u − 1)(u

+ 2u

+ ··· + 2u + 1)

· (u

− 10u

+ ··· + 24u + 9)

VII. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

((y −1)

)(y

+ 9y

+ ··· − y −1)(y

− 4y

+ ··· + 12y + 1)

· (y

+ 13y

+ ··· − 238y + 1)

, c

+ 10y

+ ··· − 199y −25)(y

+ 3y

+ ··· + 27y + 4)

· (y

+ 13y

+ ··· − 630y + 81)

(y −1)(y

− 3y + 1)(y

+ 7y

+ ··· + 10y −1)

· (y

+ 2y

+ ··· − 188y + 16)(y

+ 8y

+ ··· + 24785y + 49)

, c

(y −1)(y

− 3y + 1)(y

− 3y

+ ··· − 10y −1)

· (y

− 40y

+ ··· − 11y + 1)

· (y

− 24y

+ ··· − 23369735y + 2961841)

((y −1)

)(y

+ 3y

+ ··· + 795y −49)

· (y

+ 3y

+ ··· − 51539607552y + 17179869184)

, c

y(y −1)

− 17y

+ ··· + 19y −1)(y

− 18y

+ ··· + 6y + 1)

· (y

− 34y

+ ··· + 1260y + 81)

(y −1)(y

− 3y + 1)(y

+ 11y

+ ··· + 1817y −49)

· (y

+ 30y

+ ··· + 118794y + 54289)

· (y

+ 20y

+ ··· + 3655697641y + 353402401)