12a

1074

(K12a

1074

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

5,12

1,9

10 4 2 3 8 11 7

, c

Ideals for irreducible components

of X

par

= h−2.13559 × 10

526

120

− 5.74073 × 10

526

119

+ ··· + 1.31201 × 10

528

b − 3.70864 × 10

528

− 2.82909 × 10

528

120

− 9.33657 × 10

528

119

+ ··· + 2.37473 × 10

530

a − 1.67417 × 10

531

121

+ 3u

120

+ ··· + 1450u − 181i

= h−2231694469u

− 1226056090u

+ ··· + 4164425005b − 7694689318,

− 4558154114u

− 8410552925u

+ ··· + 4164425005a − 26590478038,

+ 2u

+ ··· + 10u − 1i

= hau + b + u − 1, 3a

+ 5au − a − u − 1, u

− u + 1i

* 3 irreducible components of dim

= 0, with total 146 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−2.14 × 10

526

120

− 5.74 × 10

526

119

+ · · · + 1.31 × 10

528

b − 3.71 ×

528

, −2.83 × 10

528

120

− 9.34 × 10

528

119

+ · · · + 2.37 × 10

530

a − 1.67 ×

531

, u

121

+ 3u

120

+ · · · + 1450u − 181i

(i) Arc colorings











−u









0.0119133u

120

+ 0.0393164u

119

+ ··· − 24.0871u + 7.04992

0.0162773u

120

+ 0.0437554u

119

+ ··· − 13.5908u + 2.82670





0.0305520u

120

+ 0.0872986u

119

+ ··· − 37.4239u + 8.61611

0.0349160u

120

+ 0.0917376u

119

+ ··· − 26.9275u + 4.39289





0.00834731u

120

+ 0.0202093u

119

+ ··· − 8.92810u − 2.19712

0.0107908u

120

+ 0.0304109u

119

+ ··· − 8.31838u + 0.839455





−0.0107132u

120

− 0.0229770u

119

+ ··· + 15.8883u − 5.22605

−0.00537169u

120

− 0.0154859u

119

+ ··· + 2.14823u + 0.152098





−0.00167720u

120

+ 0.00967718u

119

+ ··· + 51.0564u − 10.8752

0.00864426u

120

+ 0.0627551u

119

+ ··· + 32.5635u − 4.96936





0.0278504u

120

+ 0.0806356u

119

+ ··· − 40.7073u + 10.5239

0.0341964u

120

+ 0.0879060u

119

+ ··· − 25.8887u + 4.00174





0.00356820u

120

+ 0.0105675u

119

+ ··· − 3.51017u + 8.89582

−0.0106742u

120

− 0.0401533u

119

+ ··· + 0.141025u + 0.717633





−0.0197899u

120

− 0.0323881u

119

+ ··· + 12.0684u + 4.91754

−0.0397528u

120

− 0.0871958u

119

+ ··· + 45.3723u − 5.06625



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.00625773u

120

+ 0.0304442u

119

+ ··· − 36.4250u + 2.96180

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

5(5u

121

− 64u

120

+ ··· + 4296u − 144)

, c

121

− 2u

120

+ ··· + 16178u + 383

, c

3(3u

121

+ 3u

120

+ ··· + 1609956u + 261691)

15(15u

121

+ 72u

120

+ ··· + 140u − 29)

, c

121

− 3u

120

+ ··· + 1450u + 181

, c

5(5u

121

+ 8u

120

+ ··· − 10917u − 4981)

3(3u

121

− 45u

120

+ ··· + 6.34847 × 10

u − 4.47793 × 10

)

121

+ 4u

120

+ ··· + 125847u − 25899

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

25(25y

121

+ 94y

120

+ ··· + 2546496y −20736)

, c

121

− 88y

120

+ ··· + 86309854y −146689

, c

9(9y

121

+ 1023y

120

+ ··· + 3.08179 × 10

y −6.84822 × 10

)

225(225y

121

+ 2346y

120

+ ··· + 73134y −841)

, c

121

+ 99y

120

+ ··· + 1609818y −32761

, c

25(25y

121

− 3284y

120

+ ··· + 1.46387 × 10

y −2.48104 × 10

)

· (9y

121

− 435y

120

+ ··· + 46885882861787876y −2005189738629025)

121

− 46y

120

+ ··· + 37919317395y −670758201

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.022340 + 0.009120I

a = −0.242541 − 0.181469I

b = 0.776282 − 0.785492I

−3.80048 + 7.14105I 0

u = −1.022340 − 0.009120I

a = −0.242541 + 0.181469I

b = 0.776282 + 0.785492I

−3.80048 − 7.14105I 0

u = 0.922714 + 0.289721I

a = −0.275385 − 0.108522I

b = −0.783960 + 0.951417I

−2.70950 + 7.34236I 0

u = 0.922714 − 0.289721I

a = −0.275385 + 0.108522I

b = −0.783960 − 0.951417I

−2.70950 − 7.34236I 0

u = −0.474189 + 0.840234I

a = 0.555027 − 0.472580I

b = 0.264974 + 0.753965I

−0.00933 − 1.96008I 0

u = −0.474189 − 0.840234I

a = 0.555027 + 0.472580I

b = 0.264974 − 0.753965I

−0.00933 + 1.96008I 0

u = 0.528297 + 0.799355I

a = −0.40673 − 1.48975I

b = −0.320808 + 0.500076I

−1.83670 + 2.30670I 0

u = 0.528297 − 0.799355I

a = −0.40673 + 1.48975I

b = −0.320808 − 0.500076I

−1.83670 − 2.30670I 0

u = 0.957844 + 0.014072I

a = 0.353123 − 0.157882I

b = −0.605381 + 0.634924I

−0.20287 + 3.82489I 0

u = 0.957844 − 0.014072I

a = 0.353123 + 0.157882I

b = −0.605381 − 0.634924I

−0.20287 − 3.82489I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.060511 + 0.935302I

a = 1.57543 − 1.64152I

b = 1.17243 − 1.12497I

−5.94582 − 1.40487I 0

u = −0.060511 − 0.935302I

a = 1.57543 + 1.64152I

b = 1.17243 + 1.12497I

−5.94582 + 1.40487I 0

u = −0.689945 + 0.819206I

a = −0.600596 + 1.145110I

b = −0.013533 − 0.584783I

−4.38555 − 2.66513I 0

u = −0.689945 − 0.819206I

a = −0.600596 − 1.145110I

b = −0.013533 + 0.584783I

−4.38555 + 2.66513I 0

u = −1.029900 + 0.321000I

a = 0.152897 − 0.056636I

b = 0.497317 + 0.767887I

0.70176 − 3.38003I 0

u = −1.029900 − 0.321000I

a = 0.152897 + 0.056636I

b = 0.497317 − 0.767887I

0.70176 + 3.38003I 0

u = 0.299735 + 1.045810I

a = −1.83923 + 0.32494I

b = −0.519863 + 0.497910I

−4.58942 + 5.33357I 0

u = 0.299735 − 1.045810I

a = −1.83923 − 0.32494I

b = −0.519863 − 0.497910I

−4.58942 − 5.33357I 0

u = 0.159861 + 0.872828I

a = 0.270231 + 1.150450I

b = 0.249673 − 0.935457I

−0.15646 + 3.50547I 0

u = 0.159861 − 0.872828I

a = 0.270231 − 1.150450I

b = 0.249673 + 0.935457I

−0.15646 − 3.50547I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.316646 + 1.074730I

a = −1.308740 − 0.270194I

b = −0.313587 − 0.109541I

−2.69879 + 1.53463I 0

u = 0.316646 − 1.074730I

a = −1.308740 + 0.270194I

b = −0.313587 + 0.109541I

−2.69879 − 1.53463I 0

u = −0.030630 + 1.120100I

a = −0.01175 − 2.08893I

b = 0.00611 − 3.04806I

−6.55002 + 0.45879I 0

u = −0.030630 − 1.120100I

a = −0.01175 + 2.08893I

b = 0.00611 + 3.04806I

−6.55002 − 0.45879I 0

u = 0.805315 + 0.310316I

a = −0.635861 + 0.962292I

b = −0.240042 − 0.826388I

−8.49552 − 5.40077I 0

u = 0.805315 − 0.310316I

a = −0.635861 − 0.962292I

b = −0.240042 + 0.826388I

−8.49552 + 5.40077I 0

u = −0.231644 + 0.814629I

a = 1.171320 − 0.298246I

b = 0.163209 + 0.367042I

−0.01580 − 1.58349I 0

u = −0.231644 − 0.814629I

a = 1.171320 + 0.298246I

b = 0.163209 − 0.367042I

−0.01580 + 1.58349I 0

u = −0.050240 + 1.153920I

a = −1.028920 − 0.755889I

b = −0.435896 − 0.162913I

−1.91827 − 2.69742I 0

u = −0.050240 − 1.153920I

a = −1.028920 + 0.755889I

b = −0.435896 + 0.162913I

−1.91827 + 2.69742I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.189499 + 1.187980I

a = −1.84930 − 0.21352I

b = −1.50373 + 0.55250I

−4.90801 + 2.13134I 0

u = 0.189499 − 1.187980I

a = −1.84930 + 0.21352I

b = −1.50373 − 0.55250I

−4.90801 − 2.13134I 0

u = 0.016176 + 1.206930I

a = −0.980033 − 0.097239I

b = −0.64985 + 1.34099I

−8.15940 + 2.80868I 0

u = 0.016176 − 1.206930I

a = −0.980033 + 0.097239I

b = −0.64985 − 1.34099I

−8.15940 − 2.80868I 0

u = 0.407852 + 1.144410I

a = 1.86020 + 0.23523I

b = 0.319835 − 0.428833I

−11.0421 + 9.9007I 0

u = 0.407852 − 1.144410I

a = 1.86020 − 0.23523I

b = 0.319835 + 0.428833I

−11.0421 − 9.9007I 0

u = 0.020583 + 1.216020I

a = −1.50759 − 0.15475I

b = −1.05285 − 0.99302I

−4.91369 + 0.61656I 0

u = 0.020583 − 1.216020I

a = −1.50759 + 0.15475I

b = −1.05285 + 0.99302I

−4.91369 − 0.61656I 0

u = −0.382210 + 0.662903I

a = −0.33079 + 2.20870I

b = −1.19951 + 1.10983I

−7.06278 − 0.70692I −4.00000 + 0.I

u = −0.382210 − 0.662903I

a = −0.33079 − 2.20870I

b = −1.19951 − 1.10983I

−7.06278 + 0.70692I −4.00000 + 0.I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.737114 + 0.066944I

a = 0.462389 + 0.004012I

b = −0.349052 + 0.833100I

2.49912 − 0.05962I 2.63807 + 1.88743I

u = −0.737114 − 0.066944I

a = 0.462389 − 0.004012I

b = −0.349052 − 0.833100I

2.49912 + 0.05962I 2.63807 − 1.88743I

u = −0.209534 + 1.248830I

a = 1.65129 + 0.70435I

b = 0.365469 + 0.100547I

−7.44223 − 3.92659I 0

u = −0.209534 − 1.248830I

a = 1.65129 − 0.70435I

b = 0.365469 − 0.100547I

−7.44223 + 3.92659I 0

u = 0.011485 + 1.269170I

a = 1.86992 − 0.56189I

b = 1.010960 + 0.681278I

−14.6335 − 7.2486I 0

u = 0.011485 − 1.269170I

a = 1.86992 + 0.56189I

b = 1.010960 − 0.681278I

−14.6335 + 7.2486I 0

u = 0.213791 + 1.252970I

a = 1.339260 − 0.051118I

b = 1.40192 − 0.69182I

−5.21112 + 0.23468I 0

u = 0.213791 − 1.252970I

a = 1.339260 + 0.051118I

b = 1.40192 + 0.69182I

−5.21112 − 0.23468I 0

u = −1.228090 + 0.339234I

a = −0.1296310 + 0.0373765I

b = −0.755863 − 0.837074I

−9.4401 − 12.7748I 0

u = −1.228090 − 0.339234I

a = −0.1296310 − 0.0373765I

b = −0.755863 + 0.837074I

−9.4401 + 12.7748I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.330316 + 1.239210I

a = 1.397660 + 0.208551I

b = 1.07470 + 1.07681I

−1.13573 − 3.83643I 0

u = −0.330316 − 1.239210I

a = 1.397660 − 0.208551I

b = 1.07470 − 1.07681I

−1.13573 + 3.83643I 0

u = 0.124104 + 1.313070I

a = 1.57672 + 0.55923I

b = 1.56836 + 1.20234I

−15.4412 + 9.2136I 0

u = 0.124104 − 1.313070I

a = 1.57672 − 0.55923I

b = 1.56836 − 1.20234I

−15.4412 − 9.2136I 0

u = −0.290086 + 1.290960I

a = −1.43392 + 0.48396I

b = −0.974027 − 0.789928I

−10.19190 − 5.66988I 0

u = −0.290086 − 1.290960I

a = −1.43392 − 0.48396I

b = −0.974027 + 0.789928I

−10.19190 + 5.66988I 0

u = −0.108199 + 1.318820I

a = 2.57773 − 0.03109I

b = 1.93179 − 0.26017I

−8.61538 − 1.18236I 0

u = −0.108199 − 1.318820I

a = 2.57773 + 0.03109I

b = 1.93179 + 0.26017I

−8.61538 + 1.18236I 0

u = 0.641214 + 0.090897I

a = −0.522311 + 0.015492I

b = 0.608590 − 0.936126I

1.39715 + 4.27966I 0.96817 − 5.82626I

u = 0.641214 − 0.090897I

a = −0.522311 − 0.015492I

b = 0.608590 + 0.936126I

1.39715 − 4.27966I 0.96817 + 5.82626I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.302763 + 1.319770I

a = −1.60720 + 0.42776I

b = −1.31943 + 1.27371I

−3.02240 + 7.81264I 0

u = 0.302763 − 1.319770I

a = −1.60720 − 0.42776I

b = −1.31943 − 1.27371I

−3.02240 − 7.81264I 0

u = 1.35516

a = −0.133599

b = −0.580947

−5.89826 0

u = −1.356190 + 0.004675I

a = −0.119759 + 0.196038I

b = −0.696315 − 0.295138I

−10.52060 + 2.35330I 0

u = −1.356190 − 0.004675I

a = −0.119759 − 0.196038I

b = −0.696315 + 0.295138I

−10.52060 − 2.35330I 0

u = 0.721060 + 1.149960I

a = 0.189133 + 0.606593I

b = 0.553190 + 0.406994I

−4.90744 − 1.63438I 0

u = 0.721060 − 1.149960I

a = 0.189133 − 0.606593I

b = 0.553190 − 0.406994I

−4.90744 + 1.63438I 0

u = −0.104136 + 1.361060I

a = −1.260990 + 0.210760I

b = −1.23089 + 0.90630I

−10.88540 − 3.73003I 0

u = −0.104136 − 1.361060I

a = −1.260990 − 0.210760I

b = −1.23089 − 0.90630I

−10.88540 + 3.73003I 0

u = 0.409563 + 1.310960I

a = 1.381620 − 0.019101I

b = 1.14323 − 1.12648I

−4.37784 + 8.61034I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.409563 − 1.310960I

a = 1.381620 + 0.019101I

b = 1.14323 + 1.12648I

−4.37784 − 8.61034I 0

u = −0.469396 + 1.307450I

a = −1.55110 − 0.09204I

b = −1.38068 − 1.14377I

−7.8701 − 12.3854I 0

u = −0.469396 − 1.307450I

a = −1.55110 + 0.09204I

b = −1.38068 + 1.14377I

−7.8701 + 12.3854I 0

u = 0.224581 + 0.555638I

a = 1.225180 − 0.574453I

b = −0.204818 + 0.042322I

−0.20475 − 1.54591I −2.26783 + 4.24475I

u = 0.224581 − 0.555638I

a = 1.225180 + 0.574453I

b = −0.204818 − 0.042322I

−0.20475 + 1.54591I −2.26783 − 4.24475I

u = 0.035104 + 1.411250I

a = −0.20565 − 2.05359I

b = −0.22717 − 2.42005I

−7.54670 − 0.46592I 0

u = 0.035104 − 1.411250I

a = −0.20565 + 2.05359I

b = −0.22717 + 2.42005I

−7.54670 + 0.46592I 0

u = 0.531459 + 0.245760I

a = 0.583624 − 0.405997I

b = 0.299281 + 1.076830I

−2.32007 − 2.01771I −4.62460 + 0.08491I

u = 0.531459 − 0.245760I

a = 0.583624 + 0.405997I

b = 0.299281 − 1.076830I

−2.32007 + 2.01771I −4.62460 − 0.08491I

u = 0.340821 + 0.456240I

a = 0.026431 − 0.732116I

b = 0.430135 − 0.914497I

−1.94000 + 0.97114I −10.63969 + 0.13238I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.340821 − 0.456240I

a = 0.026431 + 0.732116I

b = 0.430135 + 0.914497I

−1.94000 − 0.97114I −10.63969 − 0.13238I

u = −0.518874 + 0.198720I

a = −0.04637 − 1.57067I

b = 1.041570 + 0.109265I

−5.84022 − 2.60029I −9.35063 + 2.25636I

u = −0.518874 − 0.198720I

a = −0.04637 + 1.57067I

b = 1.041570 − 0.109265I

−5.84022 + 2.60029I −9.35063 − 2.25636I

u = 1.42746 + 0.34142I

a = 0.125641 + 0.096762I

b = 0.599915 − 0.675820I

−4.36285 + 5.23411I 0

u = 1.42746 − 0.34142I

a = 0.125641 − 0.096762I

b = 0.599915 + 0.675820I

−4.36285 − 5.23411I 0

u = 0.17365 + 1.46402I

a = 0.525300 + 0.328473I

b = 0.556501 + 1.105140I

−14.5306 − 1.9666I 0

u = 0.17365 − 1.46402I

a = 0.525300 − 0.328473I

b = 0.556501 − 1.105140I

−14.5306 + 1.9666I 0

u = 0.37688 + 1.44182I

a = 1.70645 − 0.25860I

b = 1.27781 − 1.12368I

−8.2036 + 12.0004I 0

u = 0.37688 − 1.44182I

a = 1.70645 + 0.25860I

b = 1.27781 + 1.12368I

−8.2036 − 12.0004I 0

u = 0.00550 + 1.49053I

a = 0.429417 − 0.572355I

b = 0.375842 + 0.288891I

−14.1924 − 1.5887I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.00550 − 1.49053I

a = 0.429417 + 0.572355I

b = 0.375842 − 0.288891I

−14.1924 + 1.5887I 0

u = −0.42917 + 1.44757I

a = −1.394580 − 0.196137I

b = −1.09253 − 1.04210I

−4.80590 − 8.55401I 0

u = −0.42917 − 1.44757I

a = −1.394580 + 0.196137I

b = −1.09253 + 1.04210I

−4.80590 + 8.55401I 0

u = 0.51124 + 1.43735I

a = 1.177190 + 0.193204I

b = 1.060620 − 0.597161I

−10.86410 + 6.28199I 0

u = 0.51124 − 1.43735I

a = 1.177190 − 0.193204I

b = 1.060620 + 0.597161I

−10.86410 − 6.28199I 0

u = −0.49655 + 1.45926I

a = −0.664026 − 0.006783I

b = −0.488572 − 0.316789I

−2.66917 − 3.90264I 0

u = −0.49655 − 1.45926I

a = −0.664026 + 0.006783I

b = −0.488572 + 0.316789I

−2.66917 + 3.90264I 0

u = −0.56494 + 1.45866I

a = 1.151820 − 0.244624I

b = 0.944352 + 0.876457I

−15.3332 − 4.2378I 0

u = −0.56494 − 1.45866I

a = 1.151820 + 0.244624I

b = 0.944352 − 0.876457I

−15.3332 + 4.2378I 0

u = −0.51619 + 1.48893I

a = 1.083510 − 0.195090I

b = 1.267710 + 0.345221I

−15.6838 − 8.9310I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.51619 − 1.48893I

a = 1.083510 + 0.195090I

b = 1.267710 − 0.345221I

−15.6838 + 8.9310I 0

u = −0.48544 + 1.49961I

a = 1.44977 + 0.13964I

b = 1.21602 + 1.17355I

−15.1920 − 18.7481I 0

u = −0.48544 − 1.49961I

a = 1.44977 − 0.13964I

b = 1.21602 − 1.17355I

−15.1920 + 18.7481I 0

u = 0.51621 + 1.52241I

a = −1.245620 + 0.067624I

b = −1.04512 + 1.12378I

−10.1998 + 11.7877I 0

u = 0.51621 − 1.52241I

a = −1.245620 − 0.067624I

b = −1.04512 − 1.12378I

−10.1998 − 11.7877I 0

u = −0.377678 + 0.014743I

a = −3.18967 + 0.66718I

b = −0.179356 − 0.829029I

−3.68084 − 1.55057I −3.21971 + 4.21559I

u = −0.377678 − 0.014743I

a = −3.18967 − 0.66718I

b = −0.179356 + 0.829029I

−3.68084 + 1.55057I −3.21971 − 4.21559I

u = −0.335388 + 0.157476I

a = −1.59623 − 0.09530I

b = −1.33982 − 1.16101I

−4.01387 + 0.45479I 14.6406 + 6.1497I

u = −0.335388 − 0.157476I

a = −1.59623 + 0.09530I

b = −1.33982 + 1.16101I

−4.01387 − 0.45479I 14.6406 − 6.1497I

u = 0.365435

a = −0.299871

b = 0.873931

−1.58749 −2.61860

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.48890 + 1.58677I

a = −0.211346 + 0.304967I

b = −0.445652 − 0.138505I

−8.51138 + 1.30633I 0

u = −0.48890 − 1.58677I

a = −0.211346 − 0.304967I

b = −0.445652 + 0.138505I

−8.51138 − 1.30633I 0

u = −0.054728 + 0.330524I

a = −0.14776 + 4.26458I

b = 0.631561 + 0.217685I

−5.40320 − 2.73968I −12.84076 + 2.28451I

u = −0.054728 − 0.330524I

a = −0.14776 − 4.26458I

b = 0.631561 − 0.217685I

−5.40320 + 2.73968I −12.84076 − 2.28451I

u = 0.39124 + 1.68170I

a = −0.779829 + 0.282564I

b = −0.869501 + 0.693561I

−9.87843 + 3.64795I 0

u = 0.39124 − 1.68170I

a = −0.779829 − 0.282564I

b = −0.869501 − 0.693561I

−9.87843 − 3.64795I 0

u = 0.211229 + 0.100342I

a = −3.53839 + 4.40818I

b = −1.047710 − 0.235799I

−10.94850 + 7.81060I −11.31954 − 4.68345I

u = 0.211229 − 0.100342I

a = −3.53839 − 4.40818I

b = −1.047710 + 0.235799I

−10.94850 − 7.81060I −11.31954 + 4.68345I

u = 0.176942

a = 4.24643

b = 0.693149

−1.46101 −4.87080

u = −1.17013 + 1.93777I

a = 0.143439 − 0.126282I

b = 0.383096 + 0.026772I

−12.32860 + 4.17898I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.17013 − 1.93777I

a = 0.143439 + 0.126282I

b = 0.383096 − 0.026772I

−12.32860 − 4.17898I 0

II.

= h−2.23 × 10

− 1.23 × 10

+ · · · + 4.16 × 10

b − 7.69 × 10

, −4.56 ×

−8.41×10

+· · ·+4.16×10

a−2.66×10

, u

+2u

+· · ·+10u−1i

(i) Arc colorings











−u









1.09455u

+ 2.01962u

+ ··· + 33.3111u + 6.38515

0.535895u

+ 0.294412u

+ ··· − 8.29149u + 1.84772





0.985437u

+ 1.49513u

+ ··· + 27.7907u + 6.99306

0.426786u

− 0.230079u

+ ··· − 13.8119u + 2.45563





−1.64810u

− 3.62277u

+ ··· − 44.9956u − 5.48655

−0.0435294u

− 0.342012u

+ ··· − 6.18042u − 0.741698





−0.160574u

− 1.60193u

+ ··· − 37.9076u − 2.13219

0.684125u

+ 0.231403u

+ ··· − 13.4866u + 0.507992





−1.02645u

− 1.96684u

+ ··· − 11.7659u − 0.865916

0.904450u

+ 1.90674u

+ ··· + 3.99361u − 0.856469





1.42598u

+ 2.11170u

+ ··· + 27.8089u + 8.06340

0.462593u

− 0.152102u

+ ··· − 14.3308u + 2.41851





1.30735u

+ 1.64339u

+ ··· + 11.7568u + 6.62435

0.487125u

+ 0.381448u

+ ··· − 6.44302u + 1.43581





−0.192177u

+ 0.230124u

+ ··· + 24.7489u + 2.80644

−0.119601u

− 1.03826u

+ ··· − 11.6121u + 1.62961



(ii) Obstruction class = 1

(iii) Cusp Shapes

686470800819

104110625125

244123936684

20822125025

+ ··· −

3902536941714

104110625125

u −

2147815459402

104110625125

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

5(5u

− 31u

+ ··· + 169u − 61)

+ u

+ ··· + 2u − 1

+ 11u

+ ··· − u − 1

5(5u

+ 9u

+ ··· − 7u − 1)

+ 2u

+ ··· + 10u − 1

− u

+ ··· + 2u + 1

5(5u

+ 17u

+ ··· − u − 1)

+ 3u

+ ··· + 14u + 5

+ 4u

+ ··· + 8u

− 1

+ 11u

+ ··· − u + 1

5(5u

− 17u

+ ··· − u + 1)

− 2u

+ ··· + 10u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

25(25y

− 11y

+ ··· + 16849y −3721)

, c

− 11y

+ ··· + 8y −1

, c

+ 22y

+ ··· − 21y −1

25(25y

− 11y

+ ··· + y −1)

, c

+ 20y

+ ··· + 200y −1

, c

25(25y

− 429y

+ ··· − 77y −1)

− 7y

+ ··· + 116y −25

− 12y

+ ··· + 16y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.036680 + 0.222294I

a = −0.013763 − 0.189499I

b = 0.660682 + 0.676613I

−0.88157 − 4.32093I −9.24254 + 8.10881I

u = −1.036680 − 0.222294I

a = −0.013763 + 0.189499I

b = 0.660682 − 0.676613I

−0.88157 + 4.32093I −9.24254 − 8.10881I

u = −0.657311 + 0.575090I

a = 0.25820 + 1.63221I

b = −0.335365 − 0.559305I

−4.57696 − 3.41359I −7.02899 + 8.15451I

u = −0.657311 − 0.575090I

a = 0.25820 − 1.63221I

b = −0.335365 + 0.559305I

−4.57696 + 3.41359I −7.02899 − 8.15451I

u = −0.092410 + 1.195380I

a = −1.94593 − 0.36913I

b = −1.88653 − 1.15638I

−5.99931 − 0.30532I −16.7808 − 3.2068I

u = −0.092410 − 1.195380I

a = −1.94593 + 0.36913I

b = −1.88653 + 1.15638I

−5.99931 + 0.30532I −16.7808 + 3.2068I

u = 0.419031 + 1.135220I

a = 1.70730 + 0.86533I

b = 0.919540 − 0.271947I

−12.1227 + 9.7002I −13.8642 − 7.5342I

u = 0.419031 − 1.135220I

a = 1.70730 − 0.86533I

b = 0.919540 + 0.271947I

−12.1227 − 9.7002I −13.8642 + 7.5342I

u = −0.320861 + 0.671213I

a = −0.02766 − 1.53686I

b = −0.104828 − 0.850227I

−4.73939 + 0.65981I −9.72782 + 0.65487I

u = −0.320861 − 0.671213I

a = −0.02766 + 1.53686I

b = −0.104828 + 0.850227I

−4.73939 − 0.65981I −9.72782 − 0.65487I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.154817 + 0.694283I

a = 0.36059 − 1.52207I

b = 0.334827 + 0.848128I

0.28217 − 3.24555I 2.82499 + 2.64646I

u = −0.154817 − 0.694283I

a = 0.36059 + 1.52207I

b = 0.334827 − 0.848128I

0.28217 + 3.24555I 2.82499 − 2.64646I

u = 0.213375 + 1.296620I

a = −0.899376 + 0.294739I

b = −0.484933 + 0.033724I

−2.73211 + 3.18016I −11.34850 − 3.23329I

u = 0.213375 − 1.296620I

a = −0.899376 − 0.294739I

b = −0.484933 − 0.033724I

−2.73211 − 3.18016I −11.34850 + 3.23329I

u = 0.106029 + 1.370470I

a = 0.81198 − 1.29320I

b = 0.82238 − 1.75564I

−7.58118 − 0.74448I −16.6449 + 6.9771I

u = 0.106029 − 1.370470I

a = 0.81198 + 1.29320I

b = 0.82238 + 1.75564I

−7.58118 + 0.74448I −16.6449 − 6.9771I

u = −0.40785 + 1.40980I

a = −1.48443 − 0.11988I

b = −1.21342 − 1.07962I

−6.01954 − 9.28556I −11.76954 + 7.07733I

u = −0.40785 − 1.40980I

a = −1.48443 + 0.11988I

b = −1.21342 + 1.07962I

−6.01954 + 9.28556I −11.76954 − 7.07733I

u = 0.0690864

a = 9.44183

b = 1.13221

−2.13952 −22.6930

u = 0.89695 + 1.80846I

a = 0.1121760 + 0.0160469I

b = −0.178461 + 0.200785I

−12.13230 − 4.17684I 2.79294 + 5.21993I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.89695 − 1.80846I

a = 0.1121760 − 0.0160469I

b = −0.178461 − 0.200785I

−12.13230 + 4.17684I 2.79294 − 5.21993I

III. I

= hau + b + u − 1, 3a

+ 5au − a − u − 1, u

− u + 1i

(i) Arc colorings











−u + 1









−au − u + 1





au − a − u

−2a − 2u + 1





−

au +

a +

u +

−

au +

a +

u +









u − 1





−u + 1

−a − 2u + 1





−u + 1

−a − u + 1





−u



(ii) Obstruction class = 1

(iii) Cusp Shapes =

au −

a −

u −

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

, c

3(3u

+ 4u

+ u + 1)

, c

+ u + 1)

(u − 1)

3(3u

+ 9u

+ 10u

+ 6u + 3)

− u

+ u

+ 3u + 3

3(3u

+ 4u

− u + 1)

(u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1)

, c

9(9y

+ 24y

+ 22y

+ 7y + 1)

, c

(y −1)

9(9y

− 21y

+ 10y

+ 24y + 9)

+ y

+ 13y

− 3y + 9

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.500000 + 0.866025I

a = −0.83844 − 1.27359I

b = −0.183740 + 0.496878I

−1.64493 + 2.02988I 1.95261 + 4.44629I

u = 0.500000 + 0.866025I

a = 0.338439 − 0.169788I

b = 0.183740 − 1.074230I

−1.64493 + 2.02988I −7.67484 − 4.15762I

u = 0.500000 − 0.866025I

a = −0.83844 + 1.27359I

b = −0.183740 − 0.496878I

−1.64493 − 2.02988I 1.95261 − 4.44629I

u = 0.500000 − 0.866025I

a = 0.338439 + 0.169788I

b = 0.183740 + 1.074230I

−1.64493 − 2.02988I −7.67484 + 4.15762I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

25u

(5u

− 31u

+ ··· + 169u − 61)

· (5u

121

− 64u

120

+ ··· + 4296u − 144)

((u

− u + 1)

)(u

+ u

+ ··· + 2u − 1)

· (u

121

− 2u

120

+ ··· + 16178u + 383)

9(3u

+ 4u

+ u + 1)(u

+ 11u

+ ··· − u − 1)

· (3u

121

+ 3u

120

+ ··· + 1609956u + 261691)

225(3u

+ 4u

+ u + 1)(5u

+ 9u

+ ··· − 7u − 1)

· (15u

121

+ 72u

120

+ ··· + 140u − 29)

((u

− u + 1)

)(u

+ 2u

+ ··· + 10u − 1)

· (u

121

− 3u

120

+ ··· + 1450u + 181)

((u

+ u + 1)

)(u

− u

+ ··· + 2u + 1)

· (u

121

− 2u

120

+ ··· + 16178u + 383)

25(u − 1)

(5u

+ 17u

+ ··· − u − 1)

· (5u

121

+ 8u

120

+ ··· − 10917u − 4981)

9(3u

+ 9u

+ ··· + 6u + 3)(u

+ 3u

+ ··· + 14u + 5)

· (3u

121

− 45u

120

+ ··· + 634846856u − 44779345)

− u

+ u

+ 3u + 3)(u

+ 4u

+ ··· + 8u

− 1)

· (u

121

+ 4u

120

+ ··· + 125847u − 25899)

9(3u

+ 4u

− u + 1)(u

+ 11u

+ ··· − u + 1)

· (3u

121

+ 3u

120

+ ··· + 1609956u + 261691)

25(u + 1)

(5u

− 17u

+ ··· − u + 1)

· (5u

121

+ 8u

120

+ ··· − 10917u − 4981)

((u

+ u + 1)

)(u

− 2u

+ ··· + 10u + 1)

· (u

121

− 3u

120

+ ··· + 1450u + 181)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

625y

(25y

− 11y

+ ··· + 16849y −3721)

· (25y

121

+ 94y

120

+ ··· + 2546496y −20736)

, c

((y

+ y + 1)

)(y

− 11y

+ ··· + 8y −1)

· (y

121

− 88y

120

+ ··· + 86309854y −146689)

, c

81(9y

+ 24y

+ ··· + 7y + 1)(y

+ 22y

+ ··· − 21y −1)

· (9y

121

+ 1023y

120

+ ··· + 308178871408y −68482179481)

50625(9y

+ 24y

+ ··· + 7y + 1)(25y

− 11y

+ ··· + y −1)

· (225y

121

+ 2346y

120

+ ··· + 73134y −841)

, c

((y

+ y + 1)

)(y

+ 20y

+ ··· + 200y −1)

· (y

121

+ 99y

120

+ ··· + 1609818y −32761)

, c

625(y −1)

(25y

− 429y

+ ··· − 77y −1)

· (25y

121

− 3284y

120

+ ··· + 146387111y −24810361)

81(9y

− 21y

+ ··· + 24y + 9)(y

− 7y

+ ··· + 116y −25)

· (9y

121

− 435y

120

+ ··· + 46885882861787876y −2005189738629025)

+ y

+ 13y

− 3y + 9)(y

− 12y

+ ··· + 16y −1)

· (y

121

− 46y

120

+ ··· + 37919317395y −670758201)