12a

0134

(K12a

0134

)

A knot diagram

Linearized knot diagam

3 5 8 7 2 10 1 11 12 6 9 4

Solving Sequence

6,10

2,11

5 3 1 8 4 12 9

, c

Ideals for irreducible components

of X

par

= h−1.86227 × 10

495

118

− 4.68618 × 10

495

117

+ ··· + 1.43467 × 10

497

b − 3.00236 × 10

498

4.78619 × 10

497

118

− 1.23447 × 10

498

117

+ ··· + 4.47045 × 10

499

a − 1.58926 × 10

501

119

+ u

118

+ ··· + 4096u + 512i

= ha, 59103v

− 362866v

+ ··· + 178147b + 551223, v

− 5v

+ 10v

− v

− 37v

+ 7v

− 12v

+ v −1i

* 2 irreducible components of dim

= 0, with total 128 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.

I. I

= h−1.86 × 10

495

118

− 4.69 × 10

495

117

+ · · · + 1.43 × 10

497

b − 3.00 ×

498

, 4.79 × 10

497

118

− 1.23 × 10

498

117

+ · · · + 4.47 × 10

499

a − 1.59 ×

501

, u

119

+ u

118

+ · · · + 4096u + 512i

(i) Arc colorings











−u





−0.0107063u

118

+ 0.0276140u

117

+ ··· + 265.664u + 35.5505

0.0129804u

118

+ 0.0326637u

117

+ ··· + 174.370u + 20.9271









−0.0499003u

118

− 0.0301250u

117

+ ··· + 96.3323u + 17.6475

−0.0248375u

118

− 0.0192909u

117

+ ··· + 27.4367u + 5.81828





−0.0668403u

118

− 0.0545125u

117

+ ··· − 0.779841u + 6.91602

−0.0284835u

118

− 0.0271884u

117

+ ··· − 88.5312u − 7.25798





0.0132150u

118

− 0.0126096u

117

+ ··· − 186.921u − 26.5168

−0.0237768u

118

− 0.0244099u

117

+ ··· − 41.8929u − 2.43633





0.00385505u

118

− 0.00206836u

117

+ ··· − 60.8198u − 8.57415

0.0354571u

118

+ 0.00289238u

117

+ ··· − 230.820u − 34.3222





−0.0508154u

118

− 0.0358733u

117

+ ··· + 68.3183u + 13.3408

−0.0261492u

118

− 0.0238212u

117

+ ··· + 7.17127u + 3.34367





−0.0316021u

118

− 0.00496074u

117

+ ··· + 170.000u + 25.7481

−0.0478118u

118

− 0.00189380u

117

+ ··· + 323.763u + 47.9626





0.0162097u

118

− 0.00306695u

117

+ ··· − 153.762u − 22.2145

0.0478118u

118

+ 0.00189380u

117

+ ··· − 323.763u − 47.9626



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.155199u

118

+ 0.132157u

117

+ ··· + 22.3469u − 16.4864

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

119

+ 48u

118

+ ··· − 10u − 1

, c

119

+ 2u

118

+ ··· − 10u − 1

119

− 2u

118

+ ··· + 8762u − 1327

119

− 6u

118

+ ··· − 3844u − 1441

, c

119

− u

118

+ ··· + 4096u − 512

119

+ 10u

118

+ ··· − 2u − 1

, c

119

− 10u

118

+ ··· + 14u − 1

119

+ 12u

118

+ ··· − 2u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

119

+ 48y

118

+ ··· − 1922y −1

, c

119

+ 48y

118

+ ··· − 10y −1

119

− 132y

118

+ ··· + 73112778y −1760929

119

− 108y

118

+ ··· − 880963674y −2076481

, c

119

+ 57y

118

+ ··· − 1572864y −262144

119

− 12y

118

+ ··· + 10y −1

, c

119

− 108y

118

+ ··· − 162y −1

119

+ 100y

117

+ ··· − 10y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.526423 + 0.832737I

a = −0.379040 + 0.949735I

b = 0.955538 + 0.601021I

2.70873 + 3.86349I 0

u = 0.526423 − 0.832737I

a = −0.379040 − 0.949735I

b = 0.955538 − 0.601021I

2.70873 − 3.86349I 0

u = 0.921604 + 0.339981I

a = 0.599719 + 0.536043I

b = −0.675300 + 1.052770I

2.91318 − 8.94395I 0

u = 0.921604 − 0.339981I

a = 0.599719 − 0.536043I

b = −0.675300 − 1.052770I

2.91318 + 8.94395I 0

u = −0.497653 + 0.822885I

a = 0.555826 + 0.047006I

b = 0.115814 − 0.219568I

0.04303 − 1.98692I 0

u = −0.497653 − 0.822885I

a = 0.555826 − 0.047006I

b = 0.115814 + 0.219568I

0.04303 + 1.98692I 0

u = 0.848144 + 0.441248I

a = 0.653233 − 0.314441I

b = −0.822990 − 0.578925I

4.34687 − 3.34050I 0

u = 0.848144 − 0.441248I

a = 0.653233 + 0.314441I

b = −0.822990 + 0.578925I

4.34687 + 3.34050I 0

u = −0.395311 + 0.868690I

a = −4.40337 − 2.54920I

b = 0.525263 − 0.898450I

−0.25612 − 3.85842I 0

u = −0.395311 − 0.868690I

a = −4.40337 + 2.54920I

b = 0.525263 + 0.898450I

−0.25612 + 3.85842I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.000340 + 0.308388I

a = 0.686162 + 0.562362I

b = −0.625987 + 0.939108I

2.82823 − 5.08911I 0

u = −1.000340 − 0.308388I

a = 0.686162 − 0.562362I

b = −0.625987 − 0.939108I

2.82823 + 5.08911I 0

u = 0.486144 + 0.934868I

a = −1.21381 + 2.09573I

b = 0.687854 + 1.176020I

0.50738 + 6.41058I 0

u = 0.486144 − 0.934868I

a = −1.21381 − 2.09573I

b = 0.687854 − 1.176020I

0.50738 − 6.41058I 0

u = −0.100723 + 1.062340I

a = 0.08824 − 2.61983I

b = −0.072083 − 1.177180I

−5.55472 − 1.58319I 0

u = −0.100723 − 1.062340I

a = 0.08824 + 2.61983I

b = −0.072083 + 1.177180I

−5.55472 + 1.58319I 0

u = −0.868718 + 0.318232I

a = −0.208382 − 0.342220I

b = 0.625738 + 1.148730I

−2.17047 + 4.66203I 0

u = −0.868718 − 0.318232I

a = −0.208382 + 0.342220I

b = 0.625738 − 1.148730I

−2.17047 − 4.66203I 0

u = 0.002867 + 0.924913I

a = 0.529675 − 0.759000I

b = −0.224374 − 0.203815I

−1.31680 − 1.56421I 0

u = 0.002867 − 0.924913I

a = 0.529675 + 0.759000I

b = −0.224374 + 0.203815I

−1.31680 + 1.56421I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.535297 + 0.750461I

a = 0.483410 + 0.719185I

b = 0.939624 − 0.355644I

2.95353 + 0.44405I 0

u = 0.535297 − 0.750461I

a = 0.483410 − 0.719185I

b = 0.939624 + 0.355644I

2.95353 − 0.44405I 0

u = 0.843634 + 0.305336I

a = 1.053140 + 0.212736I

b = −0.146729 − 0.103716I

−2.62882 − 0.46286I 0

u = 0.843634 − 0.305336I

a = 1.053140 − 0.212736I

b = −0.146729 + 0.103716I

−2.62882 + 0.46286I 0

u = −0.417757 + 0.773293I

a = −0.71113 − 2.74755I

b = 0.520079 + 0.812541I

0.027445 + 0.372128I 0

u = −0.417757 − 0.773293I

a = −0.71113 + 2.74755I

b = 0.520079 − 0.812541I

0.027445 − 0.372128I 0

u = −0.859101 + 0.154610I

a = 0.637106 − 0.427319I

b = −0.664918 − 0.727137I

3.48096 − 0.06555I 0

u = −0.859101 − 0.154610I

a = 0.637106 + 0.427319I

b = −0.664918 + 0.727137I

3.48096 + 0.06555I 0

u = −0.209029 + 0.820458I

a = 1.24444 + 4.72940I

b = 0.431964 + 0.872764I

−0.797814 + 0.550209I 12.54758 + 0.I

u = −0.209029 − 0.820458I

a = 1.24444 − 4.72940I

b = 0.431964 − 0.872764I

−0.797814 − 0.550209I 12.54758 + 0.I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.118120 + 0.282841I

a = 0.571251 + 0.676237I

b = −0.036836 + 1.239910I

−6.98001 + 4.13299I 0

u = −1.118120 − 0.282841I

a = 0.571251 − 0.676237I

b = −0.036836 − 1.239910I

−6.98001 − 4.13299I 0

u = −0.398186 + 1.085280I

a = −0.040349 + 0.323432I

b = 0.921149 + 1.021620I

−3.27191 − 0.12438I 0

u = −0.398186 − 1.085280I

a = −0.040349 − 0.323432I

b = 0.921149 − 1.021620I

−3.27191 + 0.12438I 0

u = −0.411359 + 1.083630I

a = −0.693040 + 0.000352I

b = −0.819404 − 0.474535I

0.08564 − 3.67293I 0

u = −0.411359 − 1.083630I

a = −0.693040 − 0.000352I

b = −0.819404 + 0.474535I

0.08564 + 3.67293I 0

u = 0.819575 + 0.109814I

a = −3.51686 − 2.94234I

b = 0.487246 − 0.894874I

−2.55503 − 2.22852I 26.2651 − 22.7094I

u = 0.819575 − 0.109814I

a = −3.51686 + 2.94234I

b = 0.487246 + 0.894874I

−2.55503 + 2.22852I 26.2651 + 22.7094I

u = 0.443863 + 1.094740I

a = −0.70279 + 2.05830I

b = 0.010995 + 1.274440I

−4.33720 + 6.36777I 0

u = 0.443863 − 1.094740I

a = −0.70279 − 2.05830I

b = 0.010995 − 1.274440I

−4.33720 − 6.36777I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.478462 + 1.080620I

a = 0.235074 − 0.378978I

b = 1.109330 + 0.253117I

−1.80179 − 3.47511I 0

u = −0.478462 − 1.080620I

a = 0.235074 + 0.378978I

b = 1.109330 − 0.253117I

−1.80179 + 3.47511I 0

u = −0.278092 + 1.159260I

a = 0.28192 + 1.45729I

b = 0.411679 + 1.308160I

−6.92350 + 1.57130I 0

u = −0.278092 − 1.159260I

a = 0.28192 − 1.45729I

b = 0.411679 − 1.308160I

−6.92350 − 1.57130I 0

u = 0.482491 + 0.622840I

a = 0.207877 − 0.091383I

b = 0.755776 − 1.020320I

1.44329 − 2.36124I 8.29903 + 4.18833I

u = 0.482491 − 0.622840I

a = 0.207877 + 0.091383I

b = 0.755776 + 1.020320I

1.44329 + 2.36124I 8.29903 − 4.18833I

u = −0.667291 + 0.411587I

a = 0.43420 − 2.04602I

b = 0.820942 + 0.613116I

−0.08315 + 2.49375I 7.75933 − 3.67875I

u = −0.667291 − 0.411587I

a = 0.43420 + 2.04602I

b = 0.820942 − 0.613116I

−0.08315 − 2.49375I 7.75933 + 3.67875I

u = 0.490044 + 1.116310I

a = 0.282231 − 0.161432I

b = 0.420670 + 0.336969I

−4.94221 + 5.12424I 0

u = 0.490044 − 1.116310I

a = 0.282231 + 0.161432I

b = 0.420670 − 0.336969I

−4.94221 − 5.12424I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.451345 + 1.135050I

a = −0.611010 + 1.164460I

b = 0.590546 − 0.752125I

−5.11734 + 2.47956I 0

u = 0.451345 − 1.135050I

a = −0.611010 − 1.164460I

b = 0.590546 + 0.752125I

−5.11734 − 2.47956I 0

u = −0.529740 + 1.114830I

a = −0.360715 − 0.684753I

b = 1.073270 − 0.683609I

−2.26487 − 7.17835I 0

u = −0.529740 − 1.114830I

a = −0.360715 + 0.684753I

b = 1.073270 + 0.683609I

−2.26487 + 7.17835I 0

u = −1.141570 + 0.512721I

a = 0.672303 + 0.260569I

b = −0.874943 + 0.463475I

−0.86473 + 6.53924I 0

u = −1.141570 − 0.512721I

a = 0.672303 − 0.260569I

b = −0.874943 − 0.463475I

−0.86473 − 6.53924I 0

u = −0.399609 + 1.211290I

a = 0.74296 + 2.11227I

b = −0.641203 + 1.096930I

−1.77422 − 9.13916I 0

u = −0.399609 − 1.211290I

a = 0.74296 − 2.11227I

b = −0.641203 − 1.096930I

−1.77422 + 9.13916I 0

u = 0.370969 + 1.226650I

a = 0.06002 − 2.55757I

b = 0.377258 − 0.977217I

−6.68223 + 1.86961I 0

u = 0.370969 − 1.226650I

a = 0.06002 + 2.55757I

b = 0.377258 + 0.977217I

−6.68223 − 1.86961I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.527861 + 0.486187I

a = −0.73012 − 1.84153I

b = 0.751631 − 0.403800I

0.107706 − 0.619941I 7.54549 + 5.15553I

u = −0.527861 − 0.486187I

a = −0.73012 + 1.84153I

b = 0.751631 + 0.403800I

0.107706 + 0.619941I 7.54549 − 5.15553I

u = 0.615601 + 1.128990I

a = −0.438959 − 0.352835I

b = −0.913238 + 0.486014I

2.23345 + 8.79850I 0

u = 0.615601 − 1.128990I

a = −0.438959 + 0.352835I

b = −0.913238 − 0.486014I

2.23345 − 8.79850I 0

u = −0.791421 + 1.015070I

a = 0.179165 − 0.165126I

b = −0.475409 − 0.698950I

0.52690 − 1.71924I 0

u = −0.791421 − 1.015070I

a = 0.179165 + 0.165126I

b = −0.475409 + 0.698950I

0.52690 + 1.71924I 0

u = −0.106708 + 0.698575I

a = 0.580676 + 0.345557I

b = −0.860873 + 0.753065I

2.16952 + 1.09292I −4.44336 + 1.96603I

u = −0.106708 − 0.698575I

a = 0.580676 − 0.345557I

b = −0.860873 − 0.753065I

2.16952 − 1.09292I −4.44336 − 1.96603I

u = 0.509300 + 1.191870I

a = −2.52134 + 1.68303I

b = 0.558185 + 0.942794I

−5.71911 + 7.03575I 0

u = 0.509300 − 1.191870I

a = −2.52134 − 1.68303I

b = 0.558185 − 0.942794I

−5.71911 − 7.03575I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.570922 + 1.178260I

a = −0.94259 − 1.56885I

b = 0.71585 − 1.26082I

−4.83003 − 9.97536I 0

u = −0.570922 − 1.178260I

a = −0.94259 + 1.56885I

b = 0.71585 + 1.26082I

−4.83003 + 9.97536I 0

u = 0.816192 + 1.046570I

a = 1.24732 − 1.06920I

b = −0.388853 − 0.871583I

−3.34529 + 0.06544I 0

u = 0.816192 − 1.046570I

a = 1.24732 + 1.06920I

b = −0.388853 + 0.871583I

−3.34529 − 0.06544I 0

u = 0.641810 + 0.188094I

a = −1.11657 − 4.91853I

b = 0.455731 + 0.841145I

−2.33120 + 1.65341I 8.7372 − 21.0423I

u = 0.641810 − 0.188094I

a = −1.11657 + 4.91853I

b = 0.455731 − 0.841145I

−2.33120 − 1.65341I 8.7372 + 21.0423I

u = −1.239000 + 0.520126I

a = 0.560973 − 0.551572I

b = −0.655391 − 1.118060I

−2.84169 + 12.19540I 0

u = −1.239000 − 0.520126I

a = 0.560973 + 0.551572I

b = −0.655391 + 1.118060I

−2.84169 − 12.19540I 0

u = 0.029731 + 0.651792I

a = 0.630389 − 0.468626I

b = −0.767043 − 0.982314I

1.45890 + 7.13045I −7.35209 − 6.24138I

u = 0.029731 − 0.651792I

a = 0.630389 + 0.468626I

b = −0.767043 + 0.982314I

1.45890 − 7.13045I −7.35209 + 6.24138I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.623092 + 1.199390I

a = 1.13835 − 1.85356I

b = −0.676126 − 1.125040I

0.2822 + 14.6365I 0

u = 0.623092 − 1.199390I

a = 1.13835 + 1.85356I

b = −0.676126 + 1.125040I

0.2822 − 14.6365I 0

u = −0.189768 + 1.349420I

a = 0.114224 − 1.390760I

b = −0.371239 − 0.809422I

−1.69763 − 1.29769I 0

u = −0.189768 − 1.349420I

a = 0.114224 + 1.390760I

b = −0.371239 + 0.809422I

−1.69763 + 1.29769I 0

u = 0.743280 + 1.160850I

a = 0.158837 − 0.118246I

b = −0.637380 + 0.541821I

−4.38510 + 6.20836I 0

u = 0.743280 − 1.160850I

a = 0.158837 + 0.118246I

b = −0.637380 − 0.541821I

−4.38510 − 6.20836I 0

u = 0.000177 + 0.620334I

a = 2.56162 − 3.35001I

b = 0.484996 − 1.009400I

−1.25021 − 2.82984I −1.97233 + 3.51172I

u = 0.000177 − 0.620334I

a = 2.56162 + 3.35001I

b = 0.484996 + 1.009400I

−1.25021 + 2.82984I −1.97233 − 3.51172I

u = 0.066386 + 1.397900I

a = −0.003743 + 0.255910I

b = −0.764971 + 0.159760I

−8.87900 + 3.08041I 0

u = 0.066386 − 1.397900I

a = −0.003743 − 0.255910I

b = −0.764971 − 0.159760I

−8.87900 − 3.08041I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.156339 + 0.564741I

a = 0.36877 − 5.91174I

b = 0.577530 − 1.010180I

−1.23906 − 2.78377I −4.72487 + 7.33170I

u = −0.156339 − 0.564741I

a = 0.36877 + 5.91174I

b = 0.577530 + 1.010180I

−1.23906 + 2.78377I −4.72487 − 7.33170I

u = −0.62276 + 1.27617I

a = −0.59014 − 1.59494I

b = 0.011139 − 1.362930I

−10.1820 − 10.3208I 0

u = −0.62276 − 1.27617I

a = −0.59014 + 1.59494I

b = 0.011139 + 1.362930I

−10.1820 + 10.3208I 0

u = 0.523055 + 0.235557I

a = 0.885052 − 0.681673I

b = 0.106383 − 1.076490I

−1.94863 − 2.48320I 1.59791 + 4.26965I

u = 0.523055 − 0.235557I

a = 0.885052 + 0.681673I

b = 0.106383 + 1.076490I

−1.94863 + 2.48320I 1.59791 − 4.26965I

u = −0.73996 + 1.23324I

a = −0.209991 + 0.379317I

b = −0.974965 − 0.473478I

−3.21741 − 13.29190I 0

u = −0.73996 − 1.23324I

a = −0.209991 − 0.379317I

b = −0.974965 + 0.473478I

−3.21741 + 13.29190I 0

u = −0.17158 + 1.44108I

a = 0.53087 + 1.73249I

b = −0.252256 + 1.226900I

−13.32730 − 0.47174I 0

u = −0.17158 − 1.44108I

a = 0.53087 − 1.73249I

b = −0.252256 − 1.226900I

−13.32730 + 0.47174I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.24359 + 1.43179I

a = −0.088732 + 1.356570I

b = −0.499786 + 0.954982I

−2.46876 − 5.01134I 0

u = 0.24359 − 1.43179I

a = −0.088732 − 1.356570I

b = −0.499786 − 0.954982I

−2.46876 + 5.01134I 0

u = −0.74049 + 1.27461I

a = 0.99727 + 1.35913I

b = −0.542998 + 0.951080I

−0.29654 − 5.98543I 0

u = −0.74049 − 1.27461I

a = 0.99727 − 1.35913I

b = −0.542998 − 0.951080I

−0.29654 + 5.98543I 0

u = 1.25979 + 0.78001I

a = 0.442889 + 0.486633I

b = −0.469383 + 0.939560I

−3.81372 − 3.40916I 0

u = 1.25979 − 0.78001I

a = 0.442889 − 0.486633I

b = −0.469383 − 0.939560I

−3.81372 + 3.40916I 0

u = −0.77623 + 1.27272I

a = 1.17761 + 1.56095I

b = −0.691757 + 1.154010I

−5.3195 − 19.3518I 0

u = −0.77623 − 1.27272I

a = 1.17761 − 1.56095I

b = −0.691757 − 1.154010I

−5.3195 + 19.3518I 0

u = 0.56449 + 1.38347I

a = 0.03792 + 1.41496I

b = −0.152059 + 0.944612I

−8.51063 + 5.18393I 0

u = 0.56449 − 1.38347I

a = 0.03792 − 1.41496I

b = −0.152059 − 0.944612I

−8.51063 − 5.18393I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.83498 + 1.26806I

a = 1.09365 − 1.28429I

b = −0.593241 − 1.022410I

−5.78573 + 11.06080I 0

u = 0.83498 − 1.26806I

a = 1.09365 + 1.28429I

b = −0.593241 + 1.022410I

−5.78573 − 11.06080I 0

u = 1.50160 + 0.22594I

a = 0.668456 − 0.685367I

b = −0.432267 − 0.911549I

−4.11769 + 1.69954I 0

u = 1.50160 − 0.22594I

a = 0.668456 + 0.685367I

b = −0.432267 + 0.911549I

−4.11769 − 1.69954I 0

u = 0.11055 + 1.58796I

a = 0.27661 − 1.56306I

b = −0.519882 − 1.115850I

−11.57620 + 7.68806I 0

u = 0.11055 − 1.58796I

a = 0.27661 + 1.56306I

b = −0.519882 + 1.115850I

−11.57620 − 7.68806I 0

u = −0.343485

a = 1.32364

b = 0.398463

1.04484 10.3180

u = −0.230175 + 0.140143I

a = 1.65142 − 0.72088I

b = 0.602478 − 0.853926I

0.59145 − 2.37148I 1.54709 + 3.28473I

u = −0.230175 − 0.140143I

a = 1.65142 + 0.72088I

b = 0.602478 + 0.853926I

0.59145 + 2.37148I 1.54709 − 3.28473I

II.

= ha, 59103v

− 362866v

+ · · · + 178147b + 551223, v

− 5v

+ · · · + v − 1i

(i) Arc colorings















−0.331765v

+ 2.03689v

+ ··· + 3.64641v −3.09420









0.727601v

− 4.15347v

+ ··· − 6.59548v + 3.24127





−0.331765v

+ 2.03689v

+ ··· + 3.64641v −3.09420

−1.07440v

+ 6.00362v

+ ··· + 8.53879v −3.73749





−0.742640v

+ 3.96673v

+ ··· + 4.89238v −0.643283

0.310968v

− 1.59303v

+ ··· − 4.61878v + 1.66588





1.20067v

− 5.89924v

+ ··· − 2.68791v −0.492840

−v

+ 5v

− 10v

+ v

+ 37v

− 7v

+ 12v −1





0.727601v

− 4.15347v

+ ··· − 6.59548v + 4.24127

0.727601v

− 4.15347v

+ ··· − 6.59548v + 3.24127





−1.20067v

+ 5.89924v

+ ··· + 2.68791v + 0.492840

− 5v

+ 10v

− v

− 37v

+ 7v

− 12v + 1





1.20067v

− 5.89924v

+ ··· − 1.68791v −0.492840

−v

+ 5v

− 10v

+ v

+ 37v

− 7v

+ 12v −1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

279551

178147

1437368

178147

−

2978743

178147

272298

178147

682691

178147

9851898

178147

−

3817557

178147

3775595

178147

v +

969331

178147

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 3u

+ 8u

− 13u

+ 17u

− 17u

+ 12u

− 6u

+ u + 1

− u

+ 2u

− u

+ 3u

− u

+ 2u

+ u + 1

, c

− u

− 2u

+ 3u

+ u

− 3u

+ 2u

− u + 1

+ u

+ 2u

+ u

+ 3u

+ u

+ 2u

+ u − 1

, c

− 5u

+ 12u

− 15u

+ 9u

+ u

− 4u

+ 2u

+ u − 1

, c

(u − 1)

(u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 7y

+ 20y

+ 25y

+ 5y

− 15y

+ 22y

+ 13y −1

, c

+ 3y

+ 8y

+ 13y

+ 17y

+ 12y

+ 6y

+ y −1

, c

− 5y

+ 12y

− 15y

+ 9y

+ y

− 4y

+ 2y

+ y −1

, c

− y

+ 12y

− 7y

+ 37y

+ y

− 10y

+ 5y −1

, c

(y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = −0.939568 + 0.981640I

a = 0

b = 0.140343 − 0.966856I

−3.42837 − 2.09337I −4.41045 + 5.46639I

v = −0.939568 − 0.981640I

a = 0

b = 0.140343 + 0.966856I

−3.42837 + 2.09337I −4.41045 − 5.46639I

v = 0.119081 + 0.409451I

a = 0

b = −0.796005 − 0.733148I

2.72642 − 1.33617I 8.07941 + 3.55369I

v = 0.119081 − 0.409451I

a = 0

b = −0.796005 + 0.733148I

2.72642 + 1.33617I 8.07941 − 3.55369I

v = −0.016164 + 0.378317I

a = 0

b = −0.728966 + 0.986295I

1.95319 − 7.08493I 8.66846 + 5.33071I

v = −0.016164 − 0.378317I

a = 0

b = −0.728966 − 0.986295I

1.95319 + 7.08493I 8.66846 − 5.33071I

v = 2.14893

a = 0

b = 0.512358

−0.446489 −0.182090

v = 2.26219 + 2.13290I

a = 0

b = 0.628449 − 0.875112I

−1.02799 − 2.45442I −2.24638 − 6.63381I

v = 2.26219 − 2.13290I

a = 0

b = 0.628449 + 0.875112I

−1.02799 + 2.45442I −2.24638 + 6.63381I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 3u

+ 8u

− 13u

+ 17u

− 17u

+ 12u

− 6u

+ u + 1)

· (u

119

+ 48u

118

+ ··· − 10u − 1)

− u

+ 2u

− u

+ 3u

− u

+ 2u

+ u + 1)

· (u

119

+ 2u

118

+ ··· − 10u − 1)

− u

− 2u

+ 3u

+ u

− 3u

+ 2u

− u + 1)

· (u

119

− 2u

118

+ ··· + 8762u − 1327)

− 3u

+ 8u

− 13u

+ 17u

− 17u

+ 12u

− 6u

+ u + 1)

· (u

119

− 6u

118

+ ··· − 3844u − 1441)

+ u

+ 2u

+ u

+ 3u

+ u

+ 2u

+ u − 1)

· (u

119

+ 2u

118

+ ··· − 10u − 1)

, c

119

− u

118

+ ··· + 4096u − 512)

− 5u

+ 12u

− 15u

+ 9u

+ u

− 4u

+ 2u

+ u − 1)

· (u

119

+ 10u

118

+ ··· − 2u − 1)

, c

((u − 1)

)(u

119

− 10u

118

+ ··· + 14u − 1)

((u + 1)

)(u

119

− 10u

118

+ ··· + 14u − 1)

− u

− 2u

+ 3u

+ u

− 3u

+ 2u

− u + 1)

· (u

119

+ 12u

118

+ ··· − 2u − 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 7y

+ 20y

+ 25y

+ 5y

− 15y

+ 22y

+ 13y −1)

· (y

119

+ 48y

118

+ ··· − 1922y −1)

, c

+ 3y

+ 8y

+ 13y

+ 17y

+ 12y

+ 6y

+ y −1)

· (y

119

+ 48y

118

+ ··· − 10y −1)

− 5y

+ 12y

− 15y

+ 9y

+ y

− 4y

+ 2y

+ y −1)

· (y

119

− 132y

118

+ ··· + 73112778y −1760929)

+ 7y

+ 20y

+ 25y

+ 5y

− 15y

+ 22y

+ 13y −1)

· (y

119

− 108y

118

+ ··· − 880963674y −2076481)

, c

119

+ 57y

118

+ ··· − 1572864y −262144)

− y

+ 12y

− 7y

+ 37y

+ y

− 10y

+ 5y −1)

· (y

119

− 12y

118

+ ··· + 10y −1)

, c

((y −1)

)(y

119

− 108y

118

+ ··· − 162y −1)

− 5y

+ 12y

− 15y

+ 9y

+ y

− 4y

+ 2y

+ y −1)

· (y

119

+ 100y

117

+ ··· − 10y −1)