12a

0115

(K12a

0115

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

4,7 8,11

9 12 3 6 5 2 1 10

, c

Ideals for irreducible components

of X

par

= h1.03066 × 10

465

124

+ 3.82536 × 10

465

123

+ ··· + 1.54622 × 10

467

b + 1.91851 × 10

468

7.22439 × 10

466

124

+ 2.12080 × 10

467

123

+ ··· + 2.31933 × 10

468

a + 1.10931 × 10

470

125

+ 2u

124

+ ··· + 512u + 512i

= hb, 3a + 3u − 5, u

− u − 1i

= ha, 16726v

− 41423v

+ ··· + 11959b + 26601,

− 3v

− 2v

− 6v

+ 25v

− 11v

− 9v

+ 2v

+ 3v −1i

* 3 irreducible components of dim

= 0, with total 136 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

= h1.03 × 10

465

124

+ 3.83 × 10

465

123

+ · · · + 1.55 × 10

467

b + 1.92 ×

468

, 7.22 × 10

466

124

+ 2.12 × 10

467

123

+ · · · + 2.32 × 10

468

a + 1.11 ×

470

, u

125

+ 2u

124

+ · · · + 512u + 512i

(i) Arc colorings















−0.0311487u

124

− 0.0914405u

123

+ ··· − 13.8068u − 47.8291

−0.00666572u

124

− 0.0247401u

123

+ ··· − 5.19981u − 12.4077





−0.0129299u

124

− 0.0674498u

123

+ ··· + 31.3986u − 57.3336

0.00112353u

124

+ 0.0331708u

123

+ ··· − 7.29416u + 30.7948





−0.0378144u

124

− 0.116181u

123

+ ··· − 19.0066u − 60.2369

−0.00666572u

124

− 0.0247401u

123

+ ··· − 5.19981u − 12.4077





+ u





−0.0591666u

124

− 0.127059u

123

+ ··· − 50.3219u − 34.3988

−0.0116249u

124

− 0.0371386u

123

+ ··· + 1.86792u − 26.7347





−0.0241892u

124

− 0.0463826u

123

+ ··· − 18.7830u − 12.5336

−0.0277806u

124

− 0.0245777u

123

+ ··· − 33.9805u + 8.02032





−0.0165610u

124

+ 0.00694800u

123

+ ··· − 26.5606u + 21.5758

−0.0651205u

124

− 0.0919181u

123

+ ··· − 57.3802u − 11.4736





−0.00359135u

124

+ 0.0218049u

123

+ ··· − 15.1975u + 20.5539

−0.0514815u

124

− 0.0693144u

123

+ ··· − 46.9834u − 6.82131





−0.0277532u

124

− 0.0756995u

123

+ ··· − 20.2561u − 33.4474

0.0514815u

124

+ 0.0693144u

123

+ ··· + 46.9834u + 6.82131



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.0955818u

124

− 0.136137u

123

+ ··· − 86.1084u − 11.1303

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

125

+ 63u

124

+ ··· + 271u + 1

, c

125

− 11u

124

+ ··· − 9u − 1

, c

125

+ 2u

124

+ ··· + 512u + 512

9(9u

125

− 12u

124

+ ··· + 2.83664 × 10

u + 2.59859 × 10

)

, c

125

− 3u

124

+ ··· + 3u − 1

9(9u

125

− 21u

124

+ ··· + 1.22889 × 10

u + 5290529)

, c

125

+ 4u

124

+ ··· − 2358u + 81

125

− 2u

124

+ ··· − 756u + 324

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

125

+ 9y

124

+ ··· + 91007y −1

, c

125

− 63y

124

+ ··· + 271y −1

, c

125

+ 54y

124

+ ··· − 1572864y −262144

81(81y

125

− 3294y

124

+ ··· + 2.87254 × 10

y −6.75265 × 10

)

, c

125

+ 85y

124

+ ··· + 31y −1

· (81y

125

− 4023y

124

+ ··· + 7567318376329835y −27989697099841)

, c

125

− 90y

124

+ ··· + 665982y −6561

125

− 12y

124

+ ··· + 16685352y −104976

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.189225 + 0.989929I

a = −2.72604 − 1.67999I

b = 0.545603 − 0.015975I

4.85915 + 0.90928I 0

u = −0.189225 − 0.989929I

a = −2.72604 + 1.67999I

b = 0.545603 + 0.015975I

4.85915 − 0.90928I 0

u = 0.913335 + 0.327879I

a = −0.13404 − 1.61461I

b = 1.42964 − 1.22199I

4.24550 + 3.85404I 0

u = 0.913335 − 0.327879I

a = −0.13404 + 1.61461I

b = 1.42964 + 1.22199I

4.24550 − 3.85404I 0

u = 0.532227 + 0.797562I

a = 1.88338 + 0.31904I

b = −0.465658 + 0.870917I

−4.18791 − 0.46329I 0

u = 0.532227 − 0.797562I

a = 1.88338 − 0.31904I

b = −0.465658 − 0.870917I

−4.18791 + 0.46329I 0

u = 0.495636 + 0.814877I

a = 0.168018 + 0.065540I

b = 0.221515 + 1.197440I

−4.15405 − 3.73457I 0

u = 0.495636 − 0.814877I

a = 0.168018 − 0.065540I

b = 0.221515 − 1.197440I

−4.15405 + 3.73457I 0

u = 0.080750 + 1.051060I

a = 1.320830 + 0.182380I

b = −0.932530 − 0.275816I

2.33153 + 1.50993I 0

u = 0.080750 − 1.051060I

a = 1.320830 − 0.182380I

b = −0.932530 + 0.275816I

2.33153 − 1.50993I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.413672 + 0.836934I

a = −0.275409 − 0.177834I

b = −0.74713 + 1.37671I

−0.983702 − 0.642828I 0

u = −0.413672 − 0.836934I

a = −0.275409 + 0.177834I

b = −0.74713 − 1.37671I

−0.983702 + 0.642828I 0

u = 0.918385 + 0.543413I

a = 0.240683 + 0.155590I

b = 0.604955 + 0.884379I

−3.67094 + 2.96823I 0

u = 0.918385 − 0.543413I

a = 0.240683 − 0.155590I

b = 0.604955 − 0.884379I

−3.67094 − 2.96823I 0

u = −0.422750 + 0.821064I

a = −3.17983 + 0.68595I

b = 1.19189 + 1.04668I

−1.03348 + 4.20848I 0

u = −0.422750 − 0.821064I

a = −3.17983 − 0.68595I

b = 1.19189 − 1.04668I

−1.03348 − 4.20848I 0

u = −0.962365 + 0.485559I

a = −0.437124 − 0.102030I

b = −1.34087 + 1.13393I

−0.31912 − 6.67340I 0

u = −0.962365 − 0.485559I

a = −0.437124 + 0.102030I

b = −1.34087 − 1.13393I

−0.31912 + 6.67340I 0

u = −0.807203 + 0.430889I

a = 0.056330 + 0.856214I

b = −0.364132 − 0.128397I

−0.121971 − 0.719876I 0

u = −0.807203 − 0.430889I

a = 0.056330 − 0.856214I

b = −0.364132 + 0.128397I

−0.121971 + 0.719876I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.828223 + 0.376343I

a = 1.21716 − 1.20280I

b = −0.702944 − 0.443518I

0.06073 − 2.33875I 0

u = −0.828223 − 0.376343I

a = 1.21716 + 1.20280I

b = −0.702944 + 0.443518I

0.06073 + 2.33875I 0

u = −0.599973 + 0.683518I

a = −0.077597 + 0.147796I

b = 0.471466 + 0.834279I

1.14990 + 7.95106I 0

u = −0.599973 − 0.683518I

a = −0.077597 − 0.147796I

b = 0.471466 − 0.834279I

1.14990 − 7.95106I 0

u = 0.402370 + 1.037470I

a = −0.86209 − 1.36616I

b = 0.498531 − 0.049477I

3.98203 − 1.01780I 0

u = 0.402370 − 1.037470I

a = −0.86209 + 1.36616I

b = 0.498531 + 0.049477I

3.98203 + 1.01780I 0

u = 1.090330 + 0.256832I

a = −0.0476149 + 0.1171240I

b = 1.10513 + 0.90387I

6.12909 + 7.71732I 0

u = 1.090330 − 0.256832I

a = −0.0476149 − 0.1171240I

b = 1.10513 − 0.90387I

6.12909 − 7.71732I 0

u = −0.248400 + 1.101470I

a = −1.33263 + 0.83830I

b = 0.354052 + 0.770723I

4.76652 + 0.18641I 0

u = −0.248400 − 1.101470I

a = −1.33263 − 0.83830I

b = 0.354052 − 0.770723I

4.76652 − 0.18641I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.433618 + 1.055720I

a = 2.35530 − 0.20832I

b = −1.11177 − 1.01672I

3.54058 + 9.87816I 0

u = −0.433618 − 1.055720I

a = 2.35530 + 0.20832I

b = −1.11177 + 1.01672I

3.54058 − 9.87816I 0

u = −0.442173 + 1.054840I

a = 1.210110 − 0.399870I

b = −1.063990 − 0.003120I

1.15542 + 3.12032I 0

u = −0.442173 − 1.054840I

a = 1.210110 + 0.399870I

b = −1.063990 + 0.003120I

1.15542 − 3.12032I 0

u = −0.840842 + 0.156626I

a = 0.52324 − 1.86364I

b = 0.84914 − 1.46811I

4.74563 + 0.17252I 5.48395 + 0.I

u = −0.840842 − 0.156626I

a = 0.52324 + 1.86364I

b = 0.84914 + 1.46811I

4.74563 − 0.17252I 5.48395 + 0.I

u = −0.064934 + 1.160180I

a = −1.74953 + 0.85168I

b = 1.73930 − 0.46575I

5.99018 − 4.39123I 0

u = −0.064934 − 1.160180I

a = −1.74953 − 0.85168I

b = 1.73930 + 0.46575I

5.99018 + 4.39123I 0

u = 0.380832 + 1.099280I

a = −1.49403 + 0.23024I

b = 0.649724 − 0.705708I

−1.50629 − 4.23005I 0

u = 0.380832 − 1.099280I

a = −1.49403 − 0.23024I

b = 0.649724 + 0.705708I

−1.50629 + 4.23005I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.349086 + 1.109990I

a = −1.222110 − 0.226288I

b = 0.746699 + 0.641099I

4.36419 − 2.43164I 0

u = 0.349086 − 1.109990I

a = −1.222110 + 0.226288I

b = 0.746699 − 0.641099I

4.36419 + 2.43164I 0

u = 0.375408 + 1.108420I

a = −1.25787 − 1.15535I

b = 1.85937 − 0.00043I

5.08150 − 0.59588I 0

u = 0.375408 − 1.108420I

a = −1.25787 + 1.15535I

b = 1.85937 + 0.00043I

5.08150 + 0.59588I 0

u = −0.235520 + 0.777319I

a = −0.153207 + 0.244390I

b = −0.262287 − 1.105520I

−0.40273 + 3.66473I 0. − 6.36269I

u = −0.235520 − 0.777319I

a = −0.153207 − 0.244390I

b = −0.262287 + 1.105520I

−0.40273 − 3.66473I 0. + 6.36269I

u = 1.112620 + 0.422938I

a = −0.0662946 − 0.1070030I

b = 0.823523 − 0.441900I

5.54144 − 5.18578I 0

u = 1.112620 − 0.422938I

a = −0.0662946 + 0.1070030I

b = 0.823523 + 0.441900I

5.54144 + 5.18578I 0

u = 0.523784 + 1.069500I

a = −4.10601 − 0.42204I

b = 0.376955 − 0.151157I

3.20788 − 5.56394I 0

u = 0.523784 − 1.069500I

a = −4.10601 + 0.42204I

b = 0.376955 + 0.151157I

3.20788 + 5.56394I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.634089 + 0.498710I

a = 3.69497 + 8.88764I

b = −0.145181 + 0.241855I

1.42901 + 1.00847I −31.0649 + 44.2359I

u = 0.634089 − 0.498710I

a = 3.69497 − 8.88764I

b = −0.145181 − 0.241855I

1.42901 − 1.00847I −31.0649 − 44.2359I

u = −0.505552 + 1.083710I

a = 1.41400 − 0.27693I

b = −0.785972 − 0.862103I

0.63717 + 3.65490I 0

u = −0.505552 − 1.083710I

a = 1.41400 + 0.27693I

b = −0.785972 + 0.862103I

0.63717 − 3.65490I 0

u = −1.185770 + 0.210987I

a = 0.0868843 − 0.0106217I

b = −0.608506 + 0.512349I

0.98816 − 1.89695I 0

u = −1.185770 − 0.210987I

a = 0.0868843 + 0.0106217I

b = −0.608506 − 0.512349I

0.98816 + 1.89695I 0

u = −0.666834 + 0.423916I

a = 0.286152 − 0.017589I

b = 0.257842 − 0.749663I

−1.37803 + 0.83267I −5.49260 − 3.40594I

u = −0.666834 − 0.423916I

a = 0.286152 + 0.017589I

b = 0.257842 + 0.749663I

−1.37803 − 0.83267I −5.49260 + 3.40594I

u = 0.234448 + 1.189590I

a = 1.74701 − 0.56723I

b = −1.01937 + 1.93388I

9.39087 + 0.67963I 0

u = 0.234448 − 1.189590I

a = 1.74701 + 0.56723I

b = −1.01937 − 1.93388I

9.39087 − 0.67963I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.750828 + 0.154017I

a = −0.540540 + 0.290736I

b = −1.094100 − 0.737261I

1.33029 + 2.74208I 0.45355 − 2.62957I

u = 0.750828 − 0.154017I

a = −0.540540 − 0.290736I

b = −1.094100 + 0.737261I

1.33029 − 2.74208I 0.45355 + 2.62957I

u = −0.360615 + 1.181320I

a = 0.77945 − 1.47555I

b = −1.65817 + 1.47843I

8.85777 + 3.95009I 0

u = −0.360615 − 1.181320I

a = 0.77945 + 1.47555I

b = −1.65817 − 1.47843I

8.85777 − 3.95009I 0

u = 0.521373 + 1.124290I

a = −0.96167 − 1.14782I

b = 0.202332 − 0.843758I

3.12453 − 5.20896I 0

u = 0.521373 − 1.124290I

a = −0.96167 + 1.14782I

b = 0.202332 + 0.843758I

3.12453 + 5.20896I 0

u = −1.124900 + 0.535801I

a = −0.0411915 − 0.1178360I

b = 1.16484 − 1.07257I

4.42812 − 12.73300I 0

u = −1.124900 − 0.535801I

a = −0.0411915 + 0.1178360I

b = 1.16484 + 1.07257I

4.42812 + 12.73300I 0

u = 0.492797 + 1.146900I

a = −2.03102 − 0.36281I

b = 1.54887 − 1.18166I

4.19431 − 7.27901I 0

u = 0.492797 − 1.146900I

a = −2.03102 + 0.36281I

b = 1.54887 + 1.18166I

4.19431 + 7.27901I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.615779 + 1.088750I

a = −0.650976 + 1.024930I

b = 0.414729 + 0.215546I

1.80618 + 5.96754I 0

u = −0.615779 − 1.088750I

a = −0.650976 − 1.024930I

b = 0.414729 − 0.215546I

1.80618 − 5.96754I 0

u = 0.699810 + 0.253258I

a = 0.45949 − 2.64155I

b = −0.233666 − 0.523885I

0.621061 + 0.585081I −8.38094 − 6.55158I

u = 0.699810 − 0.253258I

a = 0.45949 + 2.64155I

b = −0.233666 + 0.523885I

0.621061 − 0.585081I −8.38094 + 6.55158I

u = 1.156140 + 0.507162I

a = 0.0934185 − 0.0006937I

b = −0.757298 − 0.778048I

−0.51148 + 7.10641I 0

u = 1.156140 − 0.507162I

a = 0.0934185 + 0.0006937I

b = −0.757298 + 0.778048I

−0.51148 − 7.10641I 0

u = −0.329817 + 0.655522I

a = 0.27779 + 2.85032I

b = 0.435012 − 0.387028I

−0.74776 − 1.32568I −1.37223 − 2.12566I

u = −0.329817 − 0.655522I

a = 0.27779 − 2.85032I

b = 0.435012 + 0.387028I

−0.74776 + 1.32568I −1.37223 + 2.12566I

u = −0.585773 + 1.136850I

a = 0.270868 − 0.774974I

b = −0.675543 + 0.280117I

2.57218 − 2.94748I 0

u = −0.585773 − 1.136850I

a = 0.270868 + 0.774974I

b = −0.675543 − 0.280117I

2.57218 + 2.94748I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.164951 + 0.699060I

a = 2.01057 + 3.83403I

b = −1.12027 − 1.11356I

3.23791 − 1.80187I 7.60062 + 5.39442I

u = 0.164951 − 0.699060I

a = 2.01057 − 3.83403I

b = −1.12027 + 1.11356I

3.23791 + 1.80187I 7.60062 − 5.39442I

u = −0.494783 + 1.183550I

a = 1.67549 + 0.02049I

b = −0.72180 − 2.14415I

7.89707 + 4.62521I 0

u = −0.494783 − 1.183550I

a = 1.67549 − 0.02049I

b = −0.72180 + 2.14415I

7.89707 − 4.62521I 0

u = −0.581083 + 1.144450I

a = −0.927414 + 0.371926I

b = 0.912764 − 0.614051I

2.41939 + 7.59298I 0

u = −0.581083 − 1.144450I

a = −0.927414 − 0.371926I

b = 0.912764 + 0.614051I

2.41939 − 7.59298I 0

u = 0.277864 + 0.645271I

a = 0.1293420 − 0.0177373I

b = −0.259855 − 1.133830I

−3.17582 + 1.37189I −2.02901 + 3.10189I

u = 0.277864 − 0.645271I

a = 0.1293420 + 0.0177373I

b = −0.259855 + 1.133830I

−3.17582 − 1.37189I −2.02901 − 3.10189I

u = −0.349910 + 0.596945I

a = −0.044338 − 0.135561I

b = 0.776083 − 1.123390I

1.92234 − 6.42207I 1.61043 − 2.58323I

u = −0.349910 − 0.596945I

a = −0.044338 + 0.135561I

b = 0.776083 + 1.123390I

1.92234 + 6.42207I 1.61043 + 2.58323I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.675342 + 0.102623I

a = −0.475944 − 0.632806I

b = −0.798997 + 0.456385I

1.33240 − 2.49877I 0.06108 + 4.74869I

u = 0.675342 − 0.102623I

a = −0.475944 + 0.632806I

b = −0.798997 − 0.456385I

1.33240 + 2.49877I 0.06108 − 4.74869I

u = 0.675422 + 1.130710I

a = 1.322000 + 0.441156I

b = −0.812816 + 1.037590I

−1.80399 − 8.86816I 0

u = 0.675422 − 1.130710I

a = 1.322000 − 0.441156I

b = −0.812816 − 1.037590I

−1.80399 + 8.86816I 0

u = 0.585027 + 1.188980I

a = 0.35499 + 1.37574I

b = −1.89934 − 1.32123I

6.93778 − 9.34093I 0

u = 0.585027 − 1.188980I

a = 0.35499 − 1.37574I

b = −1.89934 + 1.32123I

6.93778 + 9.34093I 0

u = −0.670642 + 1.165170I

a = −1.78726 + 0.65220I

b = 1.52212 + 1.38459I

1.83437 + 12.66320I 0

u = −0.670642 − 1.165170I

a = −1.78726 − 0.65220I

b = 1.52212 − 1.38459I

1.83437 − 12.66320I 0

u = −1.212360 + 0.646222I

a = −0.0620166 + 0.0911191I

b = 0.676884 + 0.094872I

3.33646 − 0.19030I 0

u = −1.212360 − 0.646222I

a = −0.0620166 − 0.0911191I

b = 0.676884 − 0.094872I

3.33646 + 0.19030I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.327090 + 0.526695I

a = −2.03892 + 2.29943I

b = 0.609994 − 0.249849I

−0.596246 + 0.416978I 0.26642 − 6.11778I

u = −0.327090 − 0.526695I

a = −2.03892 − 2.29943I

b = 0.609994 + 0.249849I

−0.596246 − 0.416978I 0.26642 + 6.11778I

u = 0.612331 + 1.251960I

a = 1.73548 + 0.43034I

b = −1.25293 + 1.11281I

9.2901 − 13.7168I 0

u = 0.612331 − 1.251960I

a = 1.73548 − 0.43034I

b = −1.25293 − 1.11281I

9.2901 + 13.7168I 0

u = −0.60524 + 1.28225I

a = −1.283780 + 0.186550I

b = 0.904103 + 0.810181I

4.45793 + 8.07080I 0

u = −0.60524 − 1.28225I

a = −1.283780 − 0.186550I

b = 0.904103 − 0.810181I

4.45793 − 8.07080I 0

u = −0.75455 + 1.21679I

a = 1.62826 − 0.67265I

b = −1.23586 − 1.20855I

6.6329 + 19.4885I 0

u = −0.75455 − 1.21679I

a = 1.62826 + 0.67265I

b = −1.23586 + 1.20855I

6.6329 − 19.4885I 0

u = 0.07864 + 1.43412I

a = 1.38519 − 0.43108I

b = −1.30927 + 0.70376I

12.5560 − 9.3062I 0

u = 0.07864 − 1.43412I

a = 1.38519 + 0.43108I

b = −1.30927 − 0.70376I

12.5560 + 9.3062I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.75063 + 1.23502I

a = −1.301480 − 0.365678I

b = 0.913051 − 0.950042I

1.84566 − 13.92260I 0

u = 0.75063 − 1.23502I

a = −1.301480 + 0.365678I

b = 0.913051 + 0.950042I

1.84566 + 13.92260I 0

u = 0.15570 + 1.44249I

a = 1.116080 + 0.615912I

b = −1.255060 − 0.503238I

12.41370 + 3.14260I 0

u = 0.15570 − 1.44249I

a = 1.116080 − 0.615912I

b = −1.255060 + 0.503238I

12.41370 − 3.14260I 0

u = −0.546681

a = 0.853690

b = 0.327961

−1.13268 −9.63470

u = 0.69181 + 1.30600I

a = 0.556692 + 0.479724I

b = −0.828035 + 0.099208I

8.30974 − 1.49559I 0

u = 0.69181 − 1.30600I

a = 0.556692 − 0.479724I

b = −0.828035 − 0.099208I

8.30974 + 1.49559I 0

u = −0.79848 + 1.26772I

a = 0.617339 − 0.371174I

b = −0.753084 − 0.344913I

5.49346 + 7.52898I 0

u = −0.79848 − 1.26772I

a = 0.617339 + 0.371174I

b = −0.753084 + 0.344913I

5.49346 − 7.52898I 0

u = −0.09910 + 1.49843I

a = −0.912897 − 0.029897I

b = 0.928225 + 0.156147I

7.75260 + 3.19534I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.09910 − 1.49843I

a = −0.912897 + 0.029897I

b = 0.928225 − 0.156147I

7.75260 − 3.19534I 0

u = −0.234925 + 0.344834I

a = −0.39694 − 3.35327I

b = 0.591198 − 0.673652I

4.30327 + 1.14568I 3.56993 + 0.21405I

u = −0.234925 − 0.344834I

a = −0.39694 + 3.35327I

b = 0.591198 + 0.673652I

4.30327 − 1.14568I 3.56993 − 0.21405I

u = 1.62729

a = 0.0237227

b = −0.0964470

−7.22833 0

u = 0.239647

a = 3.21183

b = −0.449696

1.26613 9.42890

II. I

= hb, 3a + 3u − 5, u

− u − 1i

(i) Arc colorings











u + 1





−u +





−

u +

u + 1





−u +





3u + 1





−

u −

−3u − 2





−u

−3u − 2





−1

−2u − 2





−2u − 2

−9u − 6





u +

9u + 6



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

560

u −

1105

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 3u + 1

, c

+ u − 1

, c

− u − 1

(3u − 1)

+ 9u + 1

+ 3u + 1

(u + 1)

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 7y + 1

, c

− 3y + 1

(9y −1)

81y

− 63y + 1

, c

(y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.618034

a = 2.28470

b = 0

0.657974 −7.41140

u = 1.61803

a = 0.0486327

b = 0

−7.23771 −424.810

III.

= ha, 16726v

− 41423v

+ · · · + 11959b + 26601, v

− 3v

+ · · · + 3v − 1i

(i) Arc colorings















−1.39861v

+ 3.46375v

+ ··· + 3.94598v −2.22435





1.45213v

− 3.82515v

+ ··· − 3.73944v + 4.14098





−1.39861v

+ 3.46375v

+ ··· + 3.94598v −2.22435

−1.39861v

+ 3.46375v

+ ··· + 3.94598v −2.22435









−1.45213v

+ 3.82515v

+ ··· + 3.73944v −3.14098

−1.21114v

+ 2.94147v

+ ··· + 5.63826v −2.00702





0.759010v

− 2.11631v

+ ··· + 0.101179v + 1.86604

− 3v

− 2v

− 6v

+ 25v

− 11v

− 9v

+ 2v + 3





−0.759010v

+ 2.11631v

+ ··· + 0.898821v −1.86604

−v

+ 3v

+ 2v

+ 6v

− 25v

+ 11v

+ 9v

− 2v −3





−0.759010v

+ 2.11631v

+ ··· − 0.101179v −1.86604

−v

+ 3v

+ 2v

+ 6v

− 25v

+ 11v

+ 9v

− 2v −3





−0.240990v

+ 0.883686v

+ ··· − 1.89882v −1.13396

−v

+ 3v

+ 2v

+ 6v

− 25v

+ 11v

+ 9v

− 2v −3



(ii) Obstruction class = 1

(iii) Cusp Shapes =

109765

11959

−

294476

11959

−

325323

11959

−

729072

11959

2542695

11959

−

295872

11959

−

1329263

11959

−

115465

11959

259811

11959

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

+ 5u

+ 12u

+ 15u

+ 9u

− u

− 4u

− 2u

+ u + 1

− 3u

+ 8u

− 13u

+ 17u

− 17u

+ 12u

− 6u

+ u + 1

− u

+ 2u

− u

+ 3u

− u

+ 2u

+ u + 1

+ 3u

+ 8u

+ 13u

+ 17u

+ 12u

+ 6u

+ u − 1

− u

− 2u

+ 3u

+ u

− 3u

+ 2u

− u + 1

+ u

+ 2u

+ u

+ 3u

+ u

+ 2u

+ u − 1

+ u

− 2u

− 3u

+ u

+ 3u

+ 2u

− u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

− y

+ 12y

− 7y

+ 37y

+ y

− 10y

+ 5y −1

, 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

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 1.022450 + 0.246780I

a = 0

b = −0.628449 + 0.875112I

−1.02799 − 2.45442I −3.88318 + 3.00529I

v = 1.022450 − 0.246780I

a = 0

b = −0.628449 − 0.875112I

−1.02799 + 2.45442I −3.88318 − 3.00529I

v = −0.483566 + 0.305056I

a = 0

b = −0.140343 + 0.966856I

−3.42837 − 2.09337I −7.05683 + 6.62869I

v = −0.483566 − 0.305056I

a = 0

b = −0.140343 − 0.966856I

−3.42837 + 2.09337I −7.05683 − 6.62869I

v = 0.411691 + 0.129409I

a = 0

b = 0.728966 + 0.986295I

1.95319 + 7.08493I 2.13339 − 8.87891I

v = 0.411691 − 0.129409I

a = 0

b = 0.728966 − 0.986295I

1.95319 − 7.08493I 2.13339 + 8.87891I

v = −1.23246 + 1.62704I

a = 0

b = 0.796005 + 0.733148I

2.72642 − 1.33617I −1.90921 − 3.07774I

v = −1.23246 − 1.62704I

a = 0

b = 0.796005 − 0.733148I

2.72642 + 1.33617I −1.90921 + 3.07774I

v = 3.56378

a = 0

b = −0.512358

−0.446489 13.4320

IV. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

− 3u + 1)(u

125

+ 63u

124

+ ··· + 271u + 1)

((u − 1)

)(u

+ u − 1)(u

125

− 11u

124

+ ··· − 9u − 1)

+ u − 1)(u

125

+ 2u

124

+ ··· + 512u + 512)

((u + 1)

)(u

− u − 1)(u

125

− 11u

124

+ ··· − 9u − 1)

(3u − 1)

+ 5u

+ 12u

+ 15u

+ 9u

− u

− 4u

− 2u

+ u + 1)

· (9u

125

− 12u

124

+ ··· + 2836642102u + 259858639)

− 3u + 1)(u

− 3u

+ ··· + u + 1)

· (u

125

− 3u

124

+ ··· + 3u − 1)

− u − 1)(u

125

+ 2u

124

+ ··· + 512u + 512)

(9u

+ 9u + 1)(u

− u

+ 2u

− u

+ 3u

− u

+ 2u

+ u + 1)

· (9u

125

− 21u

124

+ ··· + 122889219u + 5290529)

+ 3u + 1)(u

+ 3u

+ ··· + u − 1)

· (u

125

− 3u

124

+ ··· + 3u − 1)

(u + 1)

− u

− 2u

+ 3u

+ u

− 3u

+ 2u

− u + 1)

· (u

125

+ 4u

124

+ ··· − 2358u + 81)

+ u

+ 2u

+ u

+ 3u

+ u

+ 2u

+ u − 1)

· (u

125

− 2u

124

+ ··· − 756u + 324)

(u − 1)

+ u

− 2u

− 3u

+ u

+ 3u

+ 2u

− u − 1)

· (u

125

+ 4u

124

+ ··· − 2358u + 81)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y −1)

)(y

− 7y + 1)(y

125

+ 9y

124

+ ··· + 91007y −1)

, c

((y −1)

)(y

− 3y + 1)(y

125

− 63y

124

+ ··· + 271y −1)

, c

− 3y + 1)(y

125

+ 54y

124

+ ··· − 1572864y −262144)

(9y −1)

− y

+ 12y

− 7y

+ 37y

+ y

− 10y

+ 5y −1)

· (81y

125

− 3294y

124

+ ··· + 2.87 × 10

y −6.75 × 10

)

, c

− 7y + 1)(y

+ 7y

+ ··· + 13y −1)

· (y

125

+ 85y

124

+ ··· + 31y −1)

(81y

− 63y + 1)

· (y

+ 3y

+ 8y

+ 13y

+ 17y

+ 12y

+ 6y

+ y −1)

· (81y

125

− 4023y

124

+ ··· + 7567318376329835y −27989697099841)

, c

(y −1)

− 5y

+ 12y

− 15y

+ 9y

+ y

− 4y

+ 2y

+ y −1)

· (y

125

− 90y

124

+ ··· + 665982y −6561)

+ 3y

+ 8y

+ 13y

+ 17y

+ 12y

+ 6y

+ y −1)

· (y

125

− 12y

124

+ ··· + 16685352y −104976)