11a

266

(K11a

266

)

A knot diagram

Linearized knot diagam

10 9 1 11 2 3 4 5 6 8 7

Solving Sequence

2,9 3,6

7 10 1 4 5 8 11

, c

Ideals for irreducible components

of X

par

= h2.09838 × 10

+ 6.55534 × 10

+ ··· + 1.72668 × 10

b + 1.91679 × 10

7.48748 × 10

+ 2.12940 × 10

+ ··· + 3.45337 × 10

a + 2.83237 × 10

+ 29u

+ ··· + 5632u + 512i

= h222790111u

− 4153864769u

+ ··· + 2281728b + 6714872532,

− 2238290844u

a − 21314380402u

+ ··· − 16228635188a − 83493140173,

− 14u

+ ··· + 30u − 3i

= h−1345u

+ 7729u

+ ··· + 3655b + 38, −38u

− 1117u

+ ··· + 3655a + 12877,

− 6u

+ ··· + u + 1i

= h3au + 3b + 2u + 3, 3a

− au − a + 1, u

+ 3u + 3i

* 4 irreducible components of dim

= 0, with total 144 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

h2.10×10

+6.56×10

+· · ·+1.73×10

b+1.92×10

, 7.49×10

2.13×10

+· · ·+3.45×10

a+2.83×10

, u

+29u

+· · ·+5632u+512i

(i) Arc colorings















−0.216817u

− 6.16616u

+ ··· − 843.133u − 82.0175

−0.121527u

− 3.79649u

+ ··· − 1139.09u − 111.010





0.176923u

+ 4.51009u

+ ··· − 277.468u − 33.2290

0.726411u

+ 20.5852u

+ ··· + 2839.46u + 269.003





0.0737630u

+ 2.11244u

+ ··· + 454.512u + 44.0773

0.0266890u

+ 0.858935u

+ ··· + 372.356u + 37.7667





−0.181935u

− 4.87001u

+ ··· − 131.180u − 9.97749

−0.321147u

− 9.00243u

+ ··· − 1126.22u − 106.815





−0.344913u

− 9.38133u

+ ··· − 491.954u − 39.3302

−0.241720u

− 7.27828u

+ ··· − 1882.54u − 183.233





−0.0952900u

− 2.36967u

+ ··· + 295.961u + 28.9927

−0.121527u

− 3.79649u

+ ··· − 1139.09u − 111.010





−0.0645692u

− 1.79489u

+ ··· − 175.655u − 17.7913

0.111643u

+ 3.04839u

+ ··· + 259.810u + 24.1019





−0.293270u

− 8.33770u

+ ··· − 1123.71u − 104.995

0.527885u

+ 14.3259u

+ ··· + 755.639u + 64.5890





−0.293270u

− 8.33770u

+ ··· − 1123.71u − 104.995

0.527885u

+ 14.3259u

+ ··· + 755.639u + 64.5890



(ii) Obstruction class = −1

(iii) Cusp Shapes =

190232019886448235663

431670906353547523808

1299412671514678966295

107917726588386880952

+ ··· +

3145923075548619685658

13489715823548360119

u +

100943563341881674894

13489715823548360119

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 26u

+ ··· + 12288u + 1024

+ 29u

+ ··· + 5632u + 512

, c

− u

+ ··· − 6u + 1

, c

+ 8u

+ ··· + 3u + 1

, c

− u

+ ··· − 2u + 1

, c

− u

+ ··· + 46u + 27

− 19u

+ ··· − 288u + 32

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 2y

+ ··· + 12976128y + 1048576

− 11y

+ ··· + 11665408y + 262144

, c

− 2y

+ ··· − 10y + 1

, c

+ 16y

+ ··· + 33y + 1

, c

+ 3y

+ ··· + 6y + 1

, c

− 13y

+ ··· − 5896y + 729

+ y

+ ··· + 11776y + 1024

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.294179 + 0.829081I

a = 0.118653 − 1.232520I

b = −0.986950 − 0.460952I

3.99955 − 4.35128I 6.59095 + 3.41349I

u = −0.294179 − 0.829081I

a = 0.118653 + 1.232520I

b = −0.986950 + 0.460952I

3.99955 + 4.35128I 6.59095 − 3.41349I

u = −0.620636 + 0.594308I

a = −0.605489 + 0.728544I

b = 0.057191 + 0.812008I

−0.89506 + 1.64854I −1.59568 − 3.27710I

u = −0.620636 − 0.594308I

a = −0.605489 − 0.728544I

b = 0.057191 − 0.812008I

−0.89506 − 1.64854I −1.59568 + 3.27710I

u = 0.240502 + 0.822969I

a = −0.329651 + 0.513210I

b = 0.501638 + 0.147864I

1.54778 + 0.98121I 6.08132 − 1.87254I

u = 0.240502 − 0.822969I

a = −0.329651 − 0.513210I

b = 0.501638 − 0.147864I

1.54778 − 0.98121I 6.08132 + 1.87254I

u = −0.593121 + 1.014040I

a = −0.296194 + 1.000500I

b = 0.838868 + 0.893772I

0.40807 + 2.90881I 0

u = −0.593121 − 1.014040I

a = −0.296194 − 1.000500I

b = 0.838868 − 0.893772I

0.40807 − 2.90881I 0

u = −1.218960 + 0.602440I

a = 0.242601 + 1.087790I

b = 0.95105 + 1.17983I

−5.97727 + 1.40898I 0

u = −1.218960 − 0.602440I

a = 0.242601 − 1.087790I

b = 0.95105 − 1.17983I

−5.97727 − 1.40898I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.062633 + 0.568284I

a = −0.89194 + 1.92406I

b = 1.037550 + 0.627385I

2.49609 + 5.04306I 4.14627 − 10.34955I

u = −0.062633 − 0.568284I

a = −0.89194 − 1.92406I

b = 1.037550 − 0.627385I

2.49609 − 5.04306I 4.14627 + 10.34955I

u = −1.26166 + 0.95513I

a = 0.035716 − 0.830069I

b = −0.747763 − 1.081370I

−5.36512 + 5.09529I 0

u = −1.26166 − 0.95513I

a = 0.035716 + 0.830069I

b = −0.747763 + 1.081370I

−5.36512 − 5.09529I 0

u = −1.45922 + 0.74935I

a = −0.234481 − 0.798219I

b = −0.940309 − 0.989071I

−5.17774 + 5.90499I 0

u = −1.45922 − 0.74935I

a = −0.234481 + 0.798219I

b = −0.940309 + 0.989071I

−5.17774 − 5.90499I 0

u = −1.27724 + 1.06097I

a = 0.038188 + 0.956845I

b = 1.06395 + 1.18161I

−4.2629 + 20.2286I 0

u = −1.27724 − 1.06097I

a = 0.038188 − 0.956845I

b = 1.06395 − 1.18161I

−4.2629 − 20.2286I 0

u = −1.24188 + 1.13304I

a = 0.028366 − 0.909730I

b = −0.99553 − 1.16192I

−5.60137 + 11.70800I 0

u = −1.24188 − 1.13304I

a = 0.028366 + 0.909730I

b = −0.99553 + 1.16192I

−5.60137 − 11.70800I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.003667 + 0.237046I

a = −2.94819 − 2.24065I

b = −0.520327 + 0.707073I

−1.89594 + 2.12626I −1.09090 − 3.98101I

u = 0.003667 − 0.237046I

a = −2.94819 + 2.24065I

b = −0.520327 − 0.707073I

−1.89594 − 2.12626I −1.09090 + 3.98101I

u = −1.43708 + 1.34143I

a = 0.060155 − 0.374617I

b = −0.416075 − 0.619050I

−4.05984 + 4.16834I 0

u = −1.43708 − 1.34143I

a = 0.060155 + 0.374617I

b = −0.416075 + 0.619050I

−4.05984 − 4.16834I 0

u = −1.73010 + 1.21293I

a = 0.178166 − 0.282307I

b = −0.034172 − 0.704524I

−5.55355 − 1.97987I 0

u = −1.73010 − 1.21293I

a = 0.178166 + 0.282307I

b = −0.034172 + 0.704524I

−5.55355 + 1.97987I 0

u = −1.93940 + 0.86304I

a = 0.299482 + 0.276653I

b = 0.819579 + 0.278076I

−1.09814 + 9.90729I 0

u = −1.93940 − 0.86304I

a = 0.299482 − 0.276653I

b = 0.819579 − 0.278076I

−1.09814 − 9.90729I 0

u = −1.60805 + 1.94539I

a = −0.195384 + 0.095348I

b = −0.128699 + 0.533421I

−3.10815 − 10.44340I 0

u = −1.60805 − 1.94539I

a = −0.195384 − 0.095348I

b = −0.128699 − 0.533421I

−3.10815 + 10.44340I 0

II. I

h2.23×10

−4.15×10

+· · ·+2.28×10

b+6.71×10

, −2.24×10

−

2.13 × 10

+ · · · − 1.62 × 10

a − 8.35 × 10

, u

− 14u

+ · · · + 30u − 3i

(i) Arc colorings















−97.6410u

+ 1820.49u

+ ··· + 22316.5u − 2942.89





97.6410u

− 1820.49u

+ ··· + a + 2942.89

−875.274u

+ 11767.0u

+ ··· + 36214.9u − 4303.44





97.6410au

+ 6581.46u

+ ··· + 2942.89a + 28024.0

4213.21u

− 56627.3u

+ ··· − 169419.u + 19744.4





−3947.68au

− 9825.94u

+ ··· − 16530.6a − 44744.7

−3404.42u

+ 45900.4u

+ ··· + 143381.u − 16838.2





20.4112au

− 4497.13u

+ ··· − 75.8750a − 19073.6

121.715au

+ 2423.70u

+ ··· − 32.4492a + 11974.6





97.6410u

− 1820.49u

+ ··· + a + 2942.89

−97.6410u

+ 1820.49u

+ ··· + 22316.5u − 2942.89





875.274au

+ 5244.35u

+ ··· + 4303.44a + 22464.4

−777.633au

− 2876.10u

+ ··· − 1360.55a − 14184.8





2411.09au

+ 5244.06u

+ ··· + 5482.49a + 8858.44

−123.596au

+ 924.784u

+ ··· + 518.225a − 1814.05





2411.09au

+ 5244.06u

+ ··· + 5482.49a + 8858.44

−123.596au

+ 924.784u

+ ··· + 518.225a − 1814.05



(ii) Obstruction class = −1

(iii) Cusp Shapes =

1922246023

142608

−

103339844495

570432

+ ··· −

317627554903

570432

u +

12453313365

190144

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 13u

+ ··· + 193u − 27)

− 14u

+ ··· + 30u − 3)

, c

3(3u

+ 24u

+ ··· + 45u − 1)

, c

3(3u

+ 15u

+ ··· − 14505u − 1083)

, c

3(3u

+ 3u

+ ··· − 93u − 3)

, c

3(3u

+ 6u

+ ··· + 9495938u − 2259497)

+ 10u

+ ··· + 18u + 3)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 9y

+ ··· − 11945y −729)

− 12y

+ ··· + 138y −9)

, c

9(9y

− 156y

+ ··· − 451y + 1)

, c

9(9y

− 165y

+ ··· + 1.44834 × 10

y + 1172889)

, c

9(9y

+ 195y

+ ··· − 885y + 9)

, c

9(9y

− 318y

+ ··· − 1.81298 × 10

y + 5.10533 × 10

)

− 8y

+ ··· + 120y −9)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.975919 + 0.025887I

a = −0.095171 − 0.809640I

b = −1.04838 − 1.34279I

−5.74704 − 2.00651I 0

u = −0.975919 + 0.025887I

a = −1.03702 − 1.40343I

b = −0.113839 − 0.787679I

−5.74704 − 2.00651I 0

u = −0.975919 − 0.025887I

a = −0.095171 + 0.809640I

b = −1.04838 + 1.34279I

−5.74704 + 2.00651I 0

u = −0.975919 − 0.025887I

a = −1.03702 + 1.40343I

b = −0.113839 + 0.787679I

−5.74704 + 2.00651I 0

u = 0.659230 + 0.697787I

a = −0.690219 + 0.639282I

b = −0.142130 − 0.073719I

1.93536 + 0.83864I 0

u = 0.659230 + 0.697787I

a = 0.157502 − 0.054887I

b = 0.901096 + 0.060192I

1.93536 + 0.83864I 0

u = 0.659230 − 0.697787I

a = −0.690219 − 0.639282I

b = −0.142130 + 0.073719I

1.93536 − 0.83864I 0

u = 0.659230 − 0.697787I

a = 0.157502 + 0.054887I

b = 0.901096 − 0.060192I

1.93536 − 0.83864I 0

u = 0.791795 + 0.721190I

a = −0.345700 + 1.037280I

b = −0.800003 + 0.474165I

3.87155 − 2.62212I 0

u = 0.791795 + 0.721190I

a = 0.254108 − 0.830297I

b = 1.021800 − 0.572001I

3.87155 − 2.62212I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.791795 − 0.721190I

a = −0.345700 − 1.037280I

b = −0.800003 − 0.474165I

3.87155 + 2.62212I 0

u = 0.791795 − 0.721190I

a = 0.254108 + 0.830297I

b = 1.021800 + 0.572001I

3.87155 + 2.62212I 0

u = 0.716995 + 0.585257I

a = 0.211947 − 0.998129I

b = 1.08043 − 1.20236I

1.44210 − 5.12633I 0

u = 0.716995 + 0.585257I

a = −0.08286 + 1.74458I

b = −0.736127 + 0.591610I

1.44210 − 5.12633I 0

u = 0.716995 − 0.585257I

a = 0.211947 + 0.998129I

b = 1.08043 + 1.20236I

1.44210 + 5.12633I 0

u = 0.716995 − 0.585257I

a = −0.08286 − 1.74458I

b = −0.736127 − 0.591610I

1.44210 + 5.12633I 0

u = 0.548341 + 0.960440I

a = −0.089172 + 0.923171I

b = −0.38411 + 1.47635I

−0.215372 − 0.545445I 0

u = 0.548341 + 0.960440I

a = −0.987086 − 0.963483I

b = 0.935547 − 0.420568I

−0.215372 − 0.545445I 0

u = 0.548341 − 0.960440I

a = −0.089172 − 0.923171I

b = −0.38411 − 1.47635I

−0.215372 + 0.545445I 0

u = 0.548341 − 0.960440I

a = −0.987086 + 0.963483I

b = 0.935547 + 0.420568I

−0.215372 + 0.545445I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.643393 + 1.000610I

a = 0.015163 − 0.916515I

b = −0.96718 − 1.40104I

0.77111 + 11.39920I 0

u = −0.643393 + 1.000610I

a = 0.55090 − 1.32082I

b = −0.907319 − 0.604852I

0.77111 + 11.39920I 0

u = −0.643393 − 1.000610I

a = 0.015163 + 0.916515I

b = −0.96718 + 1.40104I

0.77111 − 11.39920I 0

u = −0.643393 − 1.000610I

a = 0.55090 + 1.32082I

b = −0.907319 + 0.604852I

0.77111 − 11.39920I 0

u = 0.743194 + 0.234677I

a = 0.126137 − 0.765467I

b = −1.42530 − 1.15084I

−4.71436 − 3.28575I −12.0478 + 10.0322I

u = 0.743194 + 0.234677I

a = 2.18855 + 0.85743I

b = −0.273382 + 0.539289I

−4.71436 − 3.28575I −12.0478 + 10.0322I

u = 0.743194 − 0.234677I

a = 0.126137 + 0.765467I

b = −1.42530 + 1.15084I

−4.71436 + 3.28575I −12.0478 − 10.0322I

u = 0.743194 − 0.234677I

a = 2.18855 − 0.85743I

b = −0.273382 − 0.539289I

−4.71436 + 3.28575I −12.0478 − 10.0322I

u = 0.563178 + 1.087130I

a = −0.528826 + 0.308180I

b = −0.320532 − 0.491610I

−0.26046 + 4.20130I 0

u = 0.563178 + 1.087130I

a = 0.476952 − 0.047762I

b = 0.632856 + 0.401342I

−0.26046 + 4.20130I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.563178 − 1.087130I

a = −0.528826 − 0.308180I

b = −0.320532 + 0.491610I

−0.26046 − 4.20130I 0

u = 0.563178 − 1.087130I

a = 0.476952 + 0.047762I

b = 0.632856 − 0.401342I

−0.26046 − 4.20130I 0

u = 0.716855 + 0.240599I

a = −0.311842 − 1.295060I

b = 1.25725 − 1.15394I

−5.08486 − 6.93394I −6.67195 + 7.26599I

u = 0.716855 + 0.240599I

a = −1.09070 + 1.97580I

b = −0.088046 + 1.003400I

−5.08486 − 6.93394I −6.67195 + 7.26599I

u = 0.716855 − 0.240599I

a = −0.311842 + 1.295060I

b = 1.25725 + 1.15394I

−5.08486 + 6.93394I −6.67195 − 7.26599I

u = 0.716855 − 0.240599I

a = −1.09070 − 1.97580I

b = −0.088046 − 1.003400I

−5.08486 + 6.93394I −6.67195 − 7.26599I

u = 0.722078 + 0.185952I

a = −0.156126 + 1.004530I

b = 1.42280 + 1.34318I

−3.74054 − 11.30760I −5.50352 + 11.29218I

u = 0.722078 + 0.185952I

a = −2.29711 − 1.26859I

b = 0.299530 − 0.696319I

−3.74054 − 11.30760I −5.50352 + 11.29218I

u = 0.722078 − 0.185952I

a = −0.156126 − 1.004530I

b = 1.42280 − 1.34318I

−3.74054 + 11.30760I −5.50352 − 11.29218I

u = 0.722078 − 0.185952I

a = −2.29711 + 1.26859I

b = 0.299530 + 0.696319I

−3.74054 + 11.30760I −5.50352 − 11.29218I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.502161 + 0.502278I

a = −0.811589 + 0.399482I

b = 0.507340 + 1.250810I

−1.33437 + 1.73522I 1.00000 + 1.18204I

u = −0.502161 + 0.502278I

a = −0.74039 + 1.75030I

b = −0.206898 + 0.608248I

−1.33437 + 1.73522I 1.00000 + 1.18204I

u = −0.502161 − 0.502278I

a = −0.811589 − 0.399482I

b = 0.507340 − 1.250810I

−1.33437 − 1.73522I 1.00000 − 1.18204I

u = −0.502161 − 0.502278I

a = −0.74039 − 1.75030I

b = −0.206898 − 0.608248I

−1.33437 − 1.73522I 1.00000 − 1.18204I

u = 0.683669 + 0.161155I

a = 0.691014 + 0.943770I

b = −1.26363 + 0.80256I

−4.37399 − 1.07626I −9.22616 − 2.29912I

u = 0.683669 + 0.161155I

a = 1.48887 − 1.52485I

b = −0.320332 − 0.756587I

−4.37399 − 1.07626I −9.22616 − 2.29912I

u = 0.683669 − 0.161155I

a = 0.691014 − 0.943770I

b = −1.26363 − 0.80256I

−4.37399 + 1.07626I −9.22616 + 2.29912I

u = 0.683669 − 0.161155I

a = 1.48887 + 1.52485I

b = −0.320332 + 0.756587I

−4.37399 + 1.07626I −9.22616 + 2.29912I

u = −0.786407 + 1.095290I

a = −0.182272 + 1.111210I

b = 0.654941 + 0.857680I

0.65352 + 2.88892I 0

u = −0.786407 + 1.095290I

a = −0.233409 + 0.765544I

b = 1.07376 + 1.07351I

0.65352 + 2.88892I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.786407 − 1.095290I

a = −0.182272 − 1.111210I

b = 0.654941 − 0.857680I

0.65352 − 2.88892I 0

u = −0.786407 − 1.095290I

a = −0.233409 − 0.765544I

b = 1.07376 − 1.07351I

0.65352 − 2.88892I 0

u = −0.608189 + 0.167810I

a = −0.18394 + 1.42724I

b = −1.03173 + 1.22867I

−1.98777 + 3.16700I −4.3128 − 13.8397I

u = −0.608189 + 0.167810I

a = −2.09437 + 1.44234I

b = 0.127634 + 0.898898I

−1.98777 + 3.16700I −4.3128 − 13.8397I

u = −0.608189 − 0.167810I

a = −0.18394 − 1.42724I

b = −1.03173 − 1.22867I

−1.98777 − 3.16700I −4.3128 + 13.8397I

u = −0.608189 − 0.167810I

a = −2.09437 − 1.44234I

b = 0.127634 − 0.898898I

−1.98777 − 3.16700I −4.3128 + 13.8397I

u = 1.16636 + 0.87110I

a = 0.122373 − 1.028040I

b = 1.07792 − 1.22753I

−2.00176 − 11.29870I 0

u = 1.16636 + 0.87110I

a = −0.088680 + 1.118680I

b = −1.03826 + 1.09246I

−2.00176 − 11.29870I 0

u = 1.16636 − 0.87110I

a = 0.122373 + 1.028040I

b = 1.07792 + 1.22753I

−2.00176 + 11.29870I 0

u = 1.16636 − 0.87110I

a = −0.088680 − 1.118680I

b = −1.03826 − 1.09246I

−2.00176 + 11.29870I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.21053 + 0.81525I

a = 0.542590 + 0.756883I

b = −0.322362 + 0.629048I

−2.23455 − 6.04607I 0

u = 1.21053 + 0.81525I

a = −0.057558 − 0.480884I

b = −0.039775 − 1.358570I

−2.23455 − 6.04607I 0

u = 1.21053 − 0.81525I

a = 0.542590 − 0.756883I

b = −0.322362 − 0.629048I

−2.23455 + 6.04607I 0

u = 1.21053 − 0.81525I

a = −0.057558 + 0.480884I

b = −0.039775 + 1.358570I

−2.23455 + 6.04607I 0

u = −0.470296 + 0.186708I

a = −0.295873 + 1.159110I

b = 1.40842 + 1.93656I

−1.52745 − 1.61554I −1.60105 − 0.11717I

u = −0.470296 + 0.186708I

a = 1.17484 + 4.58415I

b = 0.077266 + 0.600364I

−1.52745 − 1.61554I −1.60105 − 0.11717I

u = −0.470296 − 0.186708I

a = −0.295873 − 1.159110I

b = 1.40842 − 1.93656I

−1.52745 + 1.61554I −1.60105 + 0.11717I

u = −0.470296 − 0.186708I

a = 1.17484 − 4.58415I

b = 0.077266 − 0.600364I

−1.52745 + 1.61554I −1.60105 + 0.11717I

u = 1.18764 + 0.95978I

a = 0.082132 − 1.031720I

b = 0.78545 − 1.22589I

−5.61718 − 10.70300I 0

u = 1.18764 + 0.95978I

a = 0.104538 + 0.947719I

b = −1.08778 + 1.14649I

−5.61718 − 10.70300I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.18764 − 0.95978I

a = 0.082132 + 1.031720I

b = 0.78545 + 1.22589I

−5.61718 + 10.70300I 0

u = 1.18764 − 0.95978I

a = 0.104538 − 0.947719I

b = −1.08778 − 1.14649I

−5.61718 + 10.70300I 0

u = −0.77762 + 1.35805I

a = 0.032014 − 0.538519I

b = −0.1212740 + 0.0325207I

−0.08320 + 5.80714I 0

u = −0.77762 + 1.35805I

a = −0.0565417 − 0.0569243I

b = −0.706440 − 0.462240I

−0.08320 + 5.80714I 0

u = −0.77762 − 1.35805I

a = 0.032014 + 0.538519I

b = −0.1212740 − 0.0325207I

−0.08320 − 5.80714I 0

u = −0.77762 − 1.35805I

a = −0.0565417 + 0.0569243I

b = −0.706440 + 0.462240I

−0.08320 − 5.80714I 0

u = −1.58144 + 0.09381I

a = 0.463468 − 0.619520I

b = 0.088917 − 0.687357I

−2.60428 − 5.02841I 0

u = −1.58144 + 0.09381I

a = 0.081721 − 0.429793I

b = 0.674827 − 1.023210I

−2.60428 − 5.02841I 0

u = −1.58144 − 0.09381I

a = 0.463468 + 0.619520I

b = 0.088917 + 0.687357I

−2.60428 + 5.02841I 0

u = −1.58144 − 0.09381I

a = 0.081721 + 0.429793I

b = 0.674827 + 1.023210I

−2.60428 + 5.02841I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.166825 + 0.327662I

a = −0.573099 − 0.554415I

b = −1.66992 + 1.58351I

−1.67841 + 1.93955I 15.1921 − 13.7852I

u = 0.166825 + 0.327662I

a = −1.77725 − 6.00135I

b = −0.086053 + 0.280273I

−1.67841 + 1.93955I 15.1921 − 13.7852I

u = 0.166825 − 0.327662I

a = −0.573099 + 0.554415I

b = −1.66992 − 1.58351I

−1.67841 − 1.93955I 15.1921 + 13.7852I

u = 0.166825 − 0.327662I

a = −1.77725 + 6.00135I

b = −0.086053 − 0.280273I

−1.67841 − 1.93955I 15.1921 + 13.7852I

u = 1.64271

a = −0.742401

b = −1.13646

3.08221 0

u = 1.64271

a = 0.691818

b = 1.21955

3.08221 0

u = 1.50030 + 0.91446I

a = −0.108637 + 0.809699I

b = −0.602944 + 0.780086I

−1.20562 − 5.42950I 0

u = 1.50030 + 0.91446I

a = 0.061948 − 0.557711I

b = 0.90342 − 1.11545I

−1.20562 − 5.42950I 0

u = 1.50030 − 0.91446I

a = −0.108637 − 0.809699I

b = −0.602944 − 0.780086I

−1.20562 + 5.42950I 0

u = 1.50030 − 0.91446I

a = 0.061948 + 0.557711I

b = 0.90342 + 1.11545I

−1.20562 + 5.42950I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.14708 + 1.44106I

a = −0.396893 − 0.220062I

b = 0.092839 − 0.491834I

−4.45949 + 2.25311I 0

u = 1.14708 + 1.44106I

a = 0.177533 + 0.205739I

b = 0.138145 + 0.824376I

−4.45949 + 2.25311I 0

u = 1.14708 − 1.44106I

a = −0.396893 + 0.220062I

b = 0.092839 + 0.491834I

−4.45949 − 2.25311I 0

u = 1.14708 − 1.44106I

a = 0.177533 − 0.205739I

b = 0.138145 − 0.824376I

−4.45949 − 2.25311I 0

III. I

= h−1345u

+ 7729u

+ · · · + 3655b + 38, −38u

− 1117u

+ · · · +

3655a + 12877, u

− 6u

+ · · · + u + 1i

(i) Arc colorings















0.0103967u

+ 0.305609u

+ ··· + 0.0399453u − 3.52312

0.367989u

− 2.11464u

+ ··· − 3.53352u − 0.0103967





−0.264295u

+ 1.90479u

+ ··· + 3.19508u − 3.88071

0.671409u

− 3.59042u

+ ··· − 3.20985u + 0.0385773





−1.59726u

+ 9.25937u

+ ··· + 4.17893u − 1.00082

−0.324213u

+ 1.66457u

+ ··· + 1.59644u + 1.59726





−1.48892u

+ 8.37045u

+ ··· − 2.61532u + 0.926676

−0.843776u

+ 3.85007u

+ ··· + 3.33707u + 1.81313





1.84268u

− 11.7138u

+ ··· − 8.28865u + 3.94720

−1.07250u

+ 5.32668u

+ ··· + 0.458276u − 1.27825





−0.357592u

+ 2.42025u

+ ··· + 3.57346u − 3.51272

0.367989u

− 2.11464u

+ ··· − 3.53352u − 0.0103967





−1.22955u

+ 7.27880u

+ ··· + 4.90752u − 3.87114

−0.0435021u

+ 0.316005u

+ ··· − 0.325034u + 1.27305





−2.21423u

+ 13.9713u

+ ··· − 6.77045u − 0.315732

−0.0943912u

− 0.148290u

+ ··· + 3.42681u + 1.52832





−2.21423u

+ 13.9713u

+ ··· − 6.77045u − 0.315732

−0.0943912u

− 0.148290u

+ ··· + 3.42681u + 1.52832



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

12541

3655

63901

3655

+ ··· +

29533

3655

u −

10346

3655

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 9u

+ ··· − 33u + 9

− 6u

+ ··· + u + 1

, c

+ 4u

+ ··· + 2u − 1

, c

− u

+ ··· + 3u − 1

, c

+ u

+ ··· + u

− 1

, c

+ u

+ ··· + 2u − 1

+ 8u

+ ··· − 3u

+ 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 13y

+ ··· − 27y + 81

− 10y

+ ··· − 15y + 1

, c

+ 2y

+ ··· − 26y + 1

, c

− 2y

+ ··· + 13y + 1

, c

− 3y

+ ··· − 2y + 1

, c

− 7y

+ ··· + 8y

+ 1

+ 2y

+ ··· − 6y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.843774 + 0.020472I

a = −0.814747 + 0.307970I

b = 0.681158 − 0.276536I

−4.17810 + 2.37838I −5.85782 − 3.30047I

u = −0.843774 − 0.020472I

a = −0.814747 − 0.307970I

b = 0.681158 + 0.276536I

−4.17810 − 2.37838I −5.85782 + 3.30047I

u = 0.650319 + 1.149000I

a = 0.299647 + 0.918726I

b = −0.860745 + 0.941758I

0.40659 − 2.51099I −3.33911 − 9.63855I

u = 0.650319 − 1.149000I

a = 0.299647 − 0.918726I

b = −0.860745 − 0.941758I

0.40659 + 2.51099I −3.33911 + 9.63855I

u = −1.028220 + 0.857975I

a = −0.029407 + 0.419644I

b = −0.329808 − 0.456715I

−2.63766 − 10.07530I 0.70439 + 5.81996I

u = −1.028220 − 0.857975I

a = −0.029407 − 0.419644I

b = −0.329808 + 0.456715I

−2.63766 + 10.07530I 0.70439 − 5.81996I

u = 1.357830 + 0.318055I

a = −0.263706 − 0.623927I

b = −0.159624 − 0.931056I

−3.99183 + 4.14407I −8.04295 − 6.13289I

u = 1.357830 − 0.318055I

a = −0.263706 + 0.623927I

b = −0.159624 + 0.931056I

−3.99183 − 4.14407I −8.04295 + 6.13289I

u = 0.494805 + 0.313135I

a = −0.76630 + 1.72817I

b = −0.920318 + 0.615155I

2.37780 − 3.65031I 5.77914 + 4.75975I

u = 0.494805 − 0.313135I

a = −0.76630 − 1.72817I

b = −0.920318 − 0.615155I

2.37780 + 3.65031I 5.77914 − 4.75975I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.09063 + 0.91474I

a = 0.001019 − 1.085380I

b = 0.99396 − 1.18281I

−3.41791 − 10.94270I −2.27266 + 9.01140I

u = 1.09063 − 0.91474I

a = 0.001019 + 1.085380I

b = 0.99396 + 1.18281I

−3.41791 + 10.94270I −2.27266 − 9.01140I

u = 1.51464

a = −0.673129

b = −1.01955

3.85452 16.3090

u = −0.317141 + 0.174078I

a = −1.95569 − 2.13567I

b = 0.992001 + 0.336866I

−1.67458 + 2.27154I −1.49720 − 3.30379I

u = −0.317141 − 0.174078I

a = −1.95569 + 2.13567I

b = 0.992001 − 0.336866I

−1.67458 − 2.27154I −1.49720 + 3.30379I

u = 1.67647

a = 0.731484

b = 1.22631

2.63767 −12.2560

IV. I

= h3au + 3b + 2u + 3, 3a

− au − a + 1, u

+ 3u + 3i

(i) Arc colorings











−3u − 3





−au −

u − 1





−2au − 2a +

u + 1

−4au − 9a +

u + 2





−

au − a −

−1





au + a +

u + 1





−au −

a +

u +

−au − 3a − 2u − 2





au + a +

u + 1

−au −

u − 1





au + 2a −

u − 1

−au − 3a +

u + 2





−

au − a − u −

au − a −





−

au − a − u −

au − a −



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

145

u −

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

(u + 1)

+ 3u + 3)

, c

3(3u

+ 3u

+ 7u

− 5u + 1)

, c

3(3u

+ 4u

+ 3u + 3)

, c

3(3u

− 3u

− 2u

+ 2u + 7)

− 3u + 3)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

(y − 1)

, c

− 3y + 9)

, c

9(9y

+ 33y

+ 85y

− 11y + 1)

, c

9(9y

+ 24y

+ 34y

+ 15y + 9)

, c

9(9y

− 21y

+ 58y

− 32y + 49)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.50000 + 0.86603I

a = −0.103734 + 0.733946I

b = 0.480016 + 0.613405I

−1.64493 + 6.08965I 2.5000 − 13.9526I

u = −1.50000 + 0.86603I

a = −0.062933 − 0.445271I

b = −0.480016 − 1.190760I

−1.64493 + 6.08965I 2.5000 − 13.9526I

u = −1.50000 − 0.86603I

a = −0.103734 − 0.733946I

b = 0.480016 − 0.613405I

−1.64493 − 6.08965I 2.5000 + 13.9526I

u = −1.50000 − 0.86603I

a = −0.062933 + 0.445271I

b = −0.480016 + 1.190760I

−1.64493 − 6.08965I 2.5000 + 13.9526I

V. u-Polynomials

Crossings u-Polynomials at each crossing

((u + 1)

)(u

− 9u

+ ··· − 33u + 9)

· (u

+ 26u

+ ··· + 12288u + 1024)

· (u

− 13u

+ ··· + 193u − 27)

((u

+ 3u + 3)

)(u

− 6u

+ ··· + u + 1)

· (u

+ 29u

+ ··· + 5632u + 512)(u

− 14u

+ ··· + 30u − 3)

, c

9(3u

+ 3u

+ ··· − 5u + 1)(u

+ 4u

+ ··· + 2u − 1)

· (u

− u

+ ··· − 6u + 1)(3u

+ 24u

+ ··· + 45u − 1)

, c

9(3u

+ 4u

+ 3u + 3)(u

− u

+ ··· + 3u − 1)

· (u

+ 8u

+ ··· + 3u + 1)(3u

+ 15u

+ ··· − 14505u − 1083)

, c

9(3u

+ 4u

+ 3u + 3)(u

+ u

+ ··· + u

− 1)(u

− u

+ ··· − 2u + 1)

· (3u

+ 3u

+ ··· − 93u − 3)

, c

9(3u

− 3u

+ ··· + 2u + 7)(u

+ u

+ ··· + 2u − 1)

· (u

− u

+ ··· + 46u + 27)

· (3u

+ 6u

+ ··· + 9495938u − 2259497)

((u

− 3u + 3)

)(u

+ 8u

+ ··· − 3u

+ 1)

· (u

− 19u

+ ··· − 288u + 32)(u

+ 10u

+ ··· + 18u + 3)

VI. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y − 1)

)(y

− 13y

+ ··· − 27y + 81)

· (y

− 2y

+ ··· + 12976128y + 1048576)

· (y

+ 9y

+ ··· − 11945y − 729)

((y

− 3y + 9)

)(y

− 10y

+ ··· − 15y + 1)

· (y

− 11y

+ ··· + 11665408y + 262144)

· (y

− 12y

+ ··· + 138y − 9)

, c

81(9y

+ 33y

+ ··· − 11y + 1)(y

+ 2y

+ ··· − 26y + 1)

· (y

− 2y

+ ··· − 10y + 1)(9y

− 156y

+ ··· − 451y + 1)

, c

81(9y

+ 24y

+ ··· + 15y + 9)(y

− 2y

+ ··· + 13y + 1)

· (y

+ 16y

+ ··· + 33y + 1)

· (9y

− 165y

+ ··· + 14483427y + 1172889)

, c

81(9y

+ 24y

+ ··· + 15y + 9)(y

− 3y

+ ··· − 2y + 1)

· (y

+ 3y

+ ··· + 6y + 1)(9y

+ 195y

+ ··· − 885y + 9)

, c

81(9y

− 21y

+ ··· − 32y + 49)(y

− 7y

+ ··· + 8y

+ 1)

· (y

− 13y

+ ··· − 5896y + 729)

· (9y

− 318y

+ ··· − 181297638508792y + 5105326693009)

((y

− 3y + 9)

)(y

+ 2y

+ ··· − 6y + 1)

· (y

+ y

+ ··· + 11776y + 1024)(y

− 8y

+ ··· + 120y − 9)