12a

0350

(K12a

0350

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

3,9 4,6

2 7 5 1 10 8 12 11

, c

Ideals for irreducible components

of X

par

= h−1.64650 × 10

477

119

− 2.04219 × 10

477

118

+ ··· + 5.37967 × 10

477

b + 4.63499 × 10

477

− 3.01914 × 10

477

119

− 5.15986 × 10

477

118

+ ··· + 1.39872 × 10

478

a − 8.49918 × 10

477

120

+ u

119

+ ··· + 20u − 4i

= h−3au + b − 6a − 2u − 5, 18a

− 3au + 30a − 4u + 15, u

− 2i

= ha, b − v, v

+ v + 1i

* 3 irreducible components of dim

= 0, with total 126 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−1.65 × 10

477

119

− 2.04 × 10

477

118

+ · · · + 5.38 × 10

477

b + 4.63 ×

477

, −3.02 × 10

477

119

− 5.16 × 10

477

118

+ · · · + 1.40 × 10

478

a − 8.50 ×

477

, u

120

+ u

119

+ · · · + 20u − 4i

(i) Arc colorings















0.215851u

119

+ 0.368900u

118

+ ··· − 7.05008u + 0.607642

0.306060u

119

+ 0.379613u

118

+ ··· + 5.50411u − 0.861574





−0.332303u

119

− 0.00324083u

118

+ ··· + 13.9294u + 1.86986

0.0130671u

119

− 0.181215u

118

+ ··· − 8.87043u + 1.39199





1.04132u

119

+ 1.06701u

118

+ ··· − 15.4491u + 4.99065

−0.237104u

119

− 0.338198u

118

+ ··· + 5.15503u − 0.569560





−0.224721u

119

+ 0.373611u

118

+ ··· + 35.9761u − 7.40116

0.00695986u

119

+ 0.265753u

118

+ ··· + 10.9571u − 2.73290





−0.319236u

119

− 0.184456u

118

+ ··· + 5.05899u + 3.26185

0.0130671u

119

− 0.181215u

118

+ ··· − 8.87043u + 1.39199





−1.29087u

119

− 0.889115u

118

+ ··· + 28.2364u − 6.80811

−0.0403642u

119

+ 0.0496315u

118

+ ··· + 0.215259u + 0.360299





+ u





−0.476243u

119

− 0.238640u

118

+ ··· + 10.5808u + 2.24891

−0.0571666u

119

− 0.190125u

118

+ ··· − 6.03312u + 0.790341





−0.281956u

119

+ 0.848688u

118

+ ··· + 44.4292u − 6.63066

0.0206301u

119

+ 0.0726329u

118

+ ··· − 0.388572u + 0.172894



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.797956u

119

+ 1.82037u

118

+ ··· + 33.6708u − 21.8023

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

120

+ 44u

119

+ ··· − 3756u + 289

, c

120

− 2u

119

+ ··· + 64u + 17

, c

120

+ u

119

+ ··· + 20u − 4

28561(28561u

120

+ 43940u

119

+ ··· − 1.49875 × 10

u + 1.98894 × 10

)

, c

120

+ u

119

+ ··· − 36u − 4

, c

120

+ 3u

119

+ ··· − 495u − 343

28561(28561u

120

+ 160381u

119

+ ··· − 9126759u − 5810977)

120

+ 55u

119

+ ··· + 208u + 16

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

120

+ 68y

119

+ ··· − 12388564y + 83521

, c

120

+ 44y

119

+ ··· − 3756y + 289

, c

120

+ 65y

119

+ ··· + 176y + 16

815730721

· (8.16 × 10

120

+ 3.97 × 10

119

+ ··· − 1.14 × 10

y + 3.96 × 10

)

, c

120

− 55y

119

+ ··· − 208y + 16

, c

120

− 69y

119

+ ··· − 633301y + 117649

815730721

· (8.16 × 10

120

+ 1.20 × 10

119

+ ··· − 3.67 × 10

y + 3.38 × 10

)

120

+ 25y

119

+ ··· − 26880y + 256

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.202989 + 0.990498I

a = 1.83289 − 0.71222I

b = −0.954993 + 0.764552I

−0.32290 − 2.49959I 0

u = 0.202989 − 0.990498I

a = 1.83289 + 0.71222I

b = −0.954993 − 0.764552I

−0.32290 + 2.49959I 0

u = 0.125340 + 0.971618I

a = 2.29726 − 1.15154I

b = −0.720096 + 0.848381I

−0.16867 − 2.70921I 0

u = 0.125340 − 0.971618I

a = 2.29726 + 1.15154I

b = −0.720096 − 0.848381I

−0.16867 + 2.70921I 0

u = −0.215875 + 0.921340I

a = −2.05386 − 0.66138I

b = 0.97482 + 1.02658I

−1.27200 + 6.24574I 0

u = −0.215875 − 0.921340I

a = −2.05386 + 0.66138I

b = 0.97482 − 1.02658I

−1.27200 − 6.24574I 0

u = 1.067700 + 0.000614I

a = 0.699094 + 0.164069I

b = −0.790349 + 0.550536I

−0.94837 + 7.62370I 0

u = 1.067700 − 0.000614I

a = 0.699094 − 0.164069I

b = −0.790349 − 0.550536I

−0.94837 − 7.62370I 0

u = 0.147019 + 1.070360I

a = 1.49597 + 0.11383I

b = 0.387476 + 0.924439I

0.041800 + 0.517074I 0

u = 0.147019 − 1.070360I

a = 1.49597 − 0.11383I

b = 0.387476 − 0.924439I

0.041800 − 0.517074I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.852150 + 0.335345I

a = 0.862162 − 0.729618I

b = 0.007238 − 1.142000I

−6.79846 − 6.21229I 0

u = −0.852150 − 0.335345I

a = 0.862162 + 0.729618I

b = 0.007238 + 1.142000I

−6.79846 + 6.21229I 0

u = 0.914607

a = 0.851655

b = −0.435552

−5.82465 0

u = 0.780664 + 0.465076I

a = −1.096220 − 0.807047I

b = −0.008377 − 0.989825I

−4.16799 + 1.47675I 0

u = 0.780664 − 0.465076I

a = −1.096220 + 0.807047I

b = −0.008377 + 0.989825I

−4.16799 − 1.47675I 0

u = −0.887719 + 0.193758I

a = −0.588745 + 0.560769I

b = 0.650690 + 0.951781I

2.29091 + 2.82384I 0

u = −0.887719 − 0.193758I

a = −0.588745 − 0.560769I

b = 0.650690 − 0.951781I

2.29091 − 2.82384I 0

u = 0.240892 + 1.065480I

a = −0.498725 + 0.703933I

b = −0.317623 − 0.022486I

1.14757 + 2.11836I 0

u = 0.240892 − 1.065480I

a = −0.498725 − 0.703933I

b = −0.317623 + 0.022486I

1.14757 − 2.11836I 0

u = 0.290138 + 0.858508I

a = −0.03373 − 2.51112I

b = 0.281653 − 0.886609I

−0.31268 − 4.67708I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.290138 − 0.858508I

a = −0.03373 + 2.51112I

b = 0.281653 + 0.886609I

−0.31268 + 4.67708I 0

u = 0.258264 + 1.075510I

a = 1.50891 − 0.07679I

b = −1.143560 + 0.311585I

1.67115 − 7.31624I 0

u = 0.258264 − 1.075510I

a = 1.50891 + 0.07679I

b = −1.143560 − 0.311585I

1.67115 + 7.31624I 0

u = 0.764474 + 0.461851I

a = −0.298629 + 0.362400I

b = 0.670058 + 0.722219I

2.98659 + 2.31380I 0

u = 0.764474 − 0.461851I

a = −0.298629 − 0.362400I

b = 0.670058 − 0.722219I

2.98659 − 2.31380I 0

u = −0.160215 + 0.875406I

a = −0.178043 + 0.956426I

b = 0.237759 + 0.257881I

1.78046 + 2.19670I 0

u = −0.160215 − 0.875406I

a = −0.178043 − 0.956426I

b = 0.237759 − 0.257881I

1.78046 − 2.19670I 0

u = −1.115540 + 0.028792I

a = −0.719250 + 0.216715I

b = 0.717128 + 0.648150I

0.99396 − 1.73965I 0

u = −1.115540 − 0.028792I

a = −0.719250 − 0.216715I

b = 0.717128 − 0.648150I

0.99396 + 1.73965I 0

u = −0.240281 + 1.106510I

a = −1.232710 + 0.037129I

b = 0.996617 + 0.162947I

2.78737 + 2.78465I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.240281 − 1.106510I

a = −1.232710 − 0.037129I

b = 0.996617 − 0.162947I

2.78737 − 2.78465I 0

u = −0.185554 + 1.130230I

a = −0.482242 + 0.322174I

b = 0.564824 + 0.004451I

2.28964 + 2.10386I 0

u = −0.185554 − 1.130230I

a = −0.482242 − 0.322174I

b = 0.564824 − 0.004451I

2.28964 − 2.10386I 0

u = 0.845851 + 0.117669I

a = 0.432782 + 0.605481I

b = −0.643954 + 1.038350I

0.98227 − 8.35275I 0

u = 0.845851 − 0.117669I

a = 0.432782 − 0.605481I

b = −0.643954 − 1.038350I

0.98227 + 8.35275I 0

u = −0.171786 + 0.834696I

a = −1.92251 − 0.56569I

b = 0.729359 + 1.199970I

−2.12298 + 0.96742I 0

u = −0.171786 − 0.834696I

a = −1.92251 + 0.56569I

b = 0.729359 − 1.199970I

−2.12298 − 0.96742I 0

u = −1.034480 + 0.561437I

a = 1.085660 − 0.500482I

b = −0.207120 − 0.980921I

−8.61583 + 2.18923I 0

u = −1.034480 − 0.561437I

a = 1.085660 + 0.500482I

b = −0.207120 + 0.980921I

−8.61583 − 2.18923I 0

u = 0.509258 + 1.080060I

a = −0.693221 − 0.384489I

b = 0.161413 − 1.188380I

−2.20069 − 6.31530I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.509258 − 1.080060I

a = −0.693221 + 0.384489I

b = 0.161413 + 1.188380I

−2.20069 + 6.31530I 0

u = −1.200420 + 0.103729I

a = 0.773407 + 0.381234I

b = −0.665350 + 1.057800I

−2.44940 − 13.11410I 0

u = −1.200420 − 0.103729I

a = 0.773407 − 0.381234I

b = −0.665350 − 1.057800I

−2.44940 + 13.11410I 0

u = −0.616678 + 1.060240I

a = 0.185913 − 0.231296I

b = 0.017347 − 1.145710I

−6.86455 + 3.65797I 0

u = −0.616678 − 1.060240I

a = 0.185913 + 0.231296I

b = 0.017347 + 1.145710I

−6.86455 − 3.65797I 0

u = 0.071139 + 0.767821I

a = −0.766900 + 0.278980I

b = 0.414325 + 1.037240I

−0.71039 + 1.36487I −6.45479 + 0.I

u = 0.071139 − 0.767821I

a = −0.766900 − 0.278980I

b = 0.414325 − 1.037240I

−0.71039 − 1.36487I −6.45479 + 0.I

u = 1.225120 + 0.196206I

a = −0.734550 + 0.348848I

b = 0.663880 + 0.999341I

−0.04980 + 7.04998I 0

u = 1.225120 − 0.196206I

a = −0.734550 − 0.348848I

b = 0.663880 − 0.999341I

−0.04980 − 7.04998I 0

u = −0.527948 + 1.123740I

a = 0.720724 − 0.101032I

b = −0.139915 − 1.287900I

−4.36117 + 11.26390I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.527948 − 1.123740I

a = 0.720724 + 0.101032I

b = −0.139915 + 1.287900I

−4.36117 − 11.26390I 0

u = 0.040199 + 1.251880I

a = −0.974076 − 0.823210I

b = −0.177940 + 0.691389I

−0.72258 − 3.71661I 0

u = 0.040199 − 1.251880I

a = −0.974076 + 0.823210I

b = −0.177940 − 0.691389I

−0.72258 + 3.71661I 0

u = 0.151062 + 0.722891I

a = 1.43814 − 0.59435I

b = −0.484144 + 1.294440I

−2.51414 − 4.12934I −16.4536 + 7.0812I

u = 0.151062 − 0.722891I

a = 1.43814 + 0.59435I

b = −0.484144 − 1.294440I

−2.51414 + 4.12934I −16.4536 − 7.0812I

u = −0.641582 + 0.334485I

a = 0.157238 + 0.522437I

b = −0.703427 + 0.562473I

2.37369 + 3.13295I −5.19542 − 2.99721I

u = −0.641582 − 0.334485I

a = 0.157238 − 0.522437I

b = −0.703427 − 0.562473I

2.37369 − 3.13295I −5.19542 + 2.99721I

u = −0.092146 + 1.281900I

a = −1.13710 + 1.04294I

b = 0.542386 − 0.612790I

2.11803 + 1.48065I 0

u = −0.092146 − 1.281900I

a = −1.13710 − 1.04294I

b = 0.542386 + 0.612790I

2.11803 − 1.48065I 0

u = −0.301148 + 1.254700I

a = −1.19267 + 0.79638I

b = 1.046590 − 0.593449I

6.96547 + 6.35967I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.301148 − 1.254700I

a = −1.19267 − 0.79638I

b = 1.046590 + 0.593449I

6.96547 − 6.35967I 0

u = −0.066911 + 0.696541I

a = −2.64854 − 2.78771I

b = −0.335906 − 0.774807I

−0.521713 − 0.088016I −14.1626 + 0.5129I

u = −0.066911 − 0.696541I

a = −2.64854 + 2.78771I

b = −0.335906 + 0.774807I

−0.521713 + 0.088016I −14.1626 − 0.5129I

u = 0.294325 + 1.288810I

a = 1.145480 + 0.813247I

b = −0.966050 − 0.664872I

8.11911 − 1.05080I 0

u = 0.294325 − 1.288810I

a = 1.145480 − 0.813247I

b = −0.966050 + 0.664872I

8.11911 + 1.05080I 0

u = 0.341475 + 1.280630I

a = −1.90105 − 0.00872I

b = 0.602369 − 1.033590I

0.76201 − 6.19196I 0

u = 0.341475 − 1.280630I

a = −1.90105 + 0.00872I

b = 0.602369 + 1.033590I

0.76201 + 6.19196I 0

u = −0.796395 + 1.099760I

a = −1.39317 + 0.55781I

b = 0.680943 + 0.865093I

3.81397 + 2.16376I 0

u = −0.796395 − 1.099760I

a = −1.39317 − 0.55781I

b = 0.680943 − 0.865093I

3.81397 − 2.16376I 0

u = 0.423195 + 1.291600I

a = −1.82406 + 0.03051I

b = 0.763275 − 1.134570I

5.24553 − 12.87400I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.423195 − 1.291600I

a = −1.82406 − 0.03051I

b = 0.763275 + 1.134570I

5.24553 + 12.87400I 0

u = −0.414925 + 1.307140I

a = 1.82897 + 0.01688I

b = −0.763150 − 1.074800I

6.81555 + 7.35933I 0

u = −0.414925 − 1.307140I

a = 1.82897 − 0.01688I

b = −0.763150 + 1.074800I

6.81555 − 7.35933I 0

u = 0.193170 + 0.594552I

a = 0.740458 − 0.666529I

b = −0.098240 + 1.240000I

−2.62261 + 1.47478I −15.3851 − 1.4664I

u = 0.193170 − 0.594552I

a = 0.740458 + 0.666529I

b = −0.098240 − 1.240000I

−2.62261 − 1.47478I −15.3851 + 1.4664I

u = 0.655153 + 1.238030I

a = −0.453361 − 0.509072I

b = 0.676490 + 0.837280I

3.89800 + 3.07288I 0

u = 0.655153 − 1.238030I

a = −0.453361 + 0.509072I

b = 0.676490 − 0.837280I

3.89800 − 3.07288I 0

u = −0.287460 + 0.509167I

a = −1.030630 + 0.288101I

b = 0.294151 + 0.891432I

−0.56479 + 1.45174I −5.69061 − 3.81457I

u = −0.287460 − 0.509167I

a = −1.030630 − 0.288101I

b = 0.294151 − 0.891432I

−0.56479 − 1.45174I −5.69061 + 3.81457I

u = −0.150834 + 0.552483I

a = 0.224663 − 0.926766I

b = −0.284188 + 1.222330I

−2.60685 + 1.42151I −15.3519 − 4.1761I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.150834 − 0.552483I

a = 0.224663 + 0.926766I

b = −0.284188 − 1.222330I

−2.60685 − 1.42151I −15.3519 + 4.1761I

u = 0.52628 + 1.33490I

a = −0.952515 − 0.880427I

b = 0.959021 + 0.573110I

3.19983 − 13.23160I 0

u = 0.52628 − 1.33490I

a = −0.952515 + 0.880427I

b = 0.959021 − 0.573110I

3.19983 + 13.23160I 0

u = −0.53445 + 1.33597I

a = 0.888636 − 0.841711I

b = −0.909341 + 0.611982I

5.11042 + 7.48156I 0

u = −0.53445 − 1.33597I

a = 0.888636 + 0.841711I

b = −0.909341 − 0.611982I

5.11042 − 7.48156I 0

u = 0.74543 + 1.23902I

a = 1.57046 + 0.44108I

b = −0.703722 + 0.938834I

4.89450 − 8.45588I 0

u = 0.74543 − 1.23902I

a = 1.57046 − 0.44108I

b = −0.703722 − 0.938834I

4.89450 + 8.45588I 0

u = 0.551421 + 0.017870I

a = 0.19708 − 1.54303I

b = −0.397472 − 1.008780I

−3.11028 + 2.85114I −15.0953 − 5.2463I

u = 0.551421 − 0.017870I

a = 0.19708 + 1.54303I

b = −0.397472 + 1.008780I

−3.11028 − 2.85114I −15.0953 + 5.2463I

u = −0.39398 + 1.39456I

a = 1.74350 + 0.04414I

b = −0.712038 − 0.891443I

5.99648 + 3.81310I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.39398 − 1.39456I

a = 1.74350 − 0.04414I

b = −0.712038 + 0.891443I

5.99648 − 3.81310I 0

u = −0.60580 + 1.31894I

a = 0.637580 − 0.640539I

b = −0.739316 + 0.759070I

5.43801 + 2.96205I 0

u = −0.60580 − 1.31894I

a = 0.637580 + 0.640539I

b = −0.739316 − 0.759070I

5.43801 − 2.96205I 0

u = 0.52914 + 1.37088I

a = −0.941382 − 0.654409I

b = 0.754936 + 0.529073I

−1.28468 − 5.21244I 0

u = 0.52914 − 1.37088I

a = −0.941382 + 0.654409I

b = 0.754936 − 0.529073I

−1.28468 + 5.21244I 0

u = 0.24828 + 1.44950I

a = 1.118450 + 0.722661I

b = −0.731705 − 0.815881I

6.22710 + 1.68218I 0

u = 0.24828 − 1.44950I

a = 1.118450 − 0.722661I

b = −0.731705 + 0.815881I

6.22710 − 1.68218I 0

u = −0.59764 + 1.35597I

a = −1.89626 + 0.18431I

b = 0.727490 + 1.115030I

1.5129 + 19.3967I 0

u = −0.59764 − 1.35597I

a = −1.89626 − 0.18431I

b = 0.727490 − 1.115030I

1.5129 − 19.3967I 0

u = 0.62148 + 1.34536I

a = 1.84103 + 0.23572I

b = −0.725741 + 1.080140I

3.66188 − 13.51110I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.62148 − 1.34536I

a = 1.84103 − 0.23572I

b = −0.725741 − 1.080140I

3.66188 + 13.51110I 0

u = 0.45750 + 1.47072I

a = −1.59958 + 0.00596I

b = 0.683108 − 0.786787I

3.66093 + 1.77132I 0

u = 0.45750 − 1.47072I

a = −1.59958 − 0.00596I

b = 0.683108 + 0.786787I

3.66093 − 1.77132I 0

u = −0.427567 + 0.124510I

a = −1.27938 + 0.74577I

b = −0.520833 − 0.306625I

−0.410665 + 0.350990I −9.14009 − 0.28858I

u = −0.427567 − 0.124510I

a = −1.27938 − 0.74577I

b = −0.520833 + 0.306625I

−0.410665 − 0.350990I −9.14009 + 0.28858I

u = −0.67604 + 1.40424I

a = −1.68215 + 0.15655I

b = 0.650729 + 1.052630I

−2.80574 + 10.55840I 0

u = −0.67604 − 1.40424I

a = −1.68215 − 0.15655I

b = 0.650729 − 1.052630I

−2.80574 − 10.55840I 0

u = −1.54967 + 0.37438I

a = 0.769588 + 0.204123I

b = −0.577365 + 0.931964I

−6.61511 − 3.02974I 0

u = −1.54967 − 0.37438I

a = 0.769588 − 0.204123I

b = −0.577365 − 0.931964I

−6.61511 + 3.02974I 0

u = 1.60506 + 0.18152I

a = 0.884414 + 0.227938I

b = −0.545678 + 0.787014I

−6.11465 − 1.47265I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.60506 − 0.18152I

a = 0.884414 − 0.227938I

b = −0.545678 − 0.787014I

−6.11465 + 1.47265I 0

u = −0.33661 + 1.58852I

a = −1.030070 + 0.585576I

b = 0.672963 − 0.909232I

3.28785 − 7.00671I 0

u = −0.33661 − 1.58852I

a = −1.030070 − 0.585576I

b = 0.672963 + 0.909232I

3.28785 + 7.00671I 0

u = −0.373865

a = −0.539447

b = −0.335233

−0.794733 −12.4810

u = 0.336296 + 0.040421I

a = 1.66344 + 1.98608I

b = 0.711214 − 0.564146I

−1.12664 − 4.84437I −10.81095 + 6.16099I

u = 0.336296 − 0.040421I

a = 1.66344 − 1.98608I

b = 0.711214 + 0.564146I

−1.12664 + 4.84437I −10.81095 − 6.16099I

u = −0.108600 + 0.306225I

a = 1.42426 − 2.32937I

b = −0.564521 + 1.107430I

−2.48368 − 3.99664I −14.3466 + 4.3294I

u = −0.108600 − 0.306225I

a = 1.42426 + 2.32937I

b = −0.564521 − 1.107430I

−2.48368 + 3.99664I −14.3466 − 4.3294I

u = 0.171725 + 0.147653I

a = −0.47354 − 4.27439I

b = 0.677264 + 0.943220I

−2.15402 + 0.44006I −13.51281 + 1.33837I

u = 0.171725 − 0.147653I

a = −0.47354 + 4.27439I

b = 0.677264 − 0.943220I

−2.15402 − 0.44006I −13.51281 − 1.33837I

II. I

= h−3au + b − 6a − 2u − 5, 18a

− 3au + 30a − 4u + 15, u

− 2i

(i) Arc colorings















3au + 6a + 2u + 5





−2au − 4a −

u −

3au + 6a + 2u + 4





au + 2a +

u +

3au + 6a + 2u + 4





−

au − a −

u +

−3au − 4a − 2u − 1





au + 2a +

u +

3au + 6a + 2u + 4





−

a +

u −

au + 2u









au + 2a −

u +

3au + 6a − u + 4





au +

a −

u +

5au + 6a + 3u + 4



(ii) Obstruction class = 1

(iii) Cusp Shapes = −12au − 24a − 8u − 32

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

, c

− 2)

81(81u

+ 54u

− 9u

− 6u + 7)

+ u + 1)

(u + 1)

81(81u

+ 108u

+ 72u

+ 24u + 7)

(u + 2)

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1)

, c

(y −2)

6561(6561y

− 4374y

+ 1863y

− 162y + 49)

, c

(y −1)

6561(6561y

+ 1134y

+ 432y + 49)

(y −4)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.41421

a = −0.715482 + 0.084551I

b = 0.500000 + 0.866025I

−6.57974 + 2.02988I −14.0000 − 3.4641I

u = 1.41421

a = −0.715482 − 0.084551I

b = 0.500000 − 0.866025I

−6.57974 − 2.02988I −14.0000 + 3.4641I

u = −1.41421

a = −0.951184 + 0.492799I

b = 0.500000 + 0.866025I

−6.57974 + 2.02988I −14.0000 − 3.4641I

u = −1.41421

a = −0.951184 − 0.492799I

b = 0.500000 − 0.866025I

−6.57974 − 2.02988I −14.0000 + 3.4641I

III. I

= ha, b − v, v

+ v + 1i

(i) Arc colorings



















−v − 1





v + 1









−v

−v − 1





−v − 1









−v − 1





−v − 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4v − 10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1

+ u + 1

, c

(u − 1)

(u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1

, c

(y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = −0.500000 + 0.866025I

a = 0

b = −0.500000 + 0.866025I

−1.64493 − 2.02988I −12.00000 + 3.46410I

v = −0.500000 − 0.866025I

a = 0

b = −0.500000 − 0.866025I

−1.64493 + 2.02988I −12.00000 − 3.46410I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

120

+ 44u

119

+ ··· − 3756u + 289)

((u

− u + 1)

)(u

+ u + 1)(u

120

− 2u

119

+ ··· + 64u + 17)

, c

− 2)

120

+ u

119

+ ··· + 20u − 4)

2313441(u

− u + 1)(81u

+ 54u

− 9u

− 6u + 7)

· (28561u

120

+ 43940u

119

+ ··· − 149875040u + 19889425)

, c

− 2)

120

+ u

119

+ ··· − 36u − 4)

− u + 1)(u

+ u + 1)

120

− 2u

119

+ ··· + 64u + 17)

((u − 1)

)(u + 1)

120

+ 3u

119

+ ··· − 495u − 343)

2313441(u − 1)

(81u

+ 108u

+ 72u

+ 24u + 7)

· (28561u

120

+ 160381u

119

+ ··· − 9126759u − 5810977)

(u + 2)

120

+ 55u

119

+ ··· + 208u + 16)

((u − 1)

)(u + 1)

120

+ 3u

119

+ ··· − 495u − 343)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

120

+ 68y

119

+ ··· − 1.23886 × 10

y + 83521)

, c

((y

+ y + 1)

)(y

120

+ 44y

119

+ ··· − 3756y + 289)

, c

(y − 2)

120

+ 65y

119

+ ··· + 176y + 16)

5352009260481(y

+ y + 1)

· (6561y

− 4374y

+ 1863y

− 162y + 49)

· (8.16 × 10

120

+ 3.97 × 10

119

+ ··· − 1.14 × 10

y + 3.96 × 10

)

, c

(y − 2)

120

− 55y

119

+ ··· − 208y + 16)

, c

((y − 1)

)(y

120

− 69y

119

+ ··· − 633301y + 117649)

5352009260481(y − 1)

(6561y

+ 1134y

+ 432y + 49)

· (8.16 × 10

120

+ 1.20 × 10

119

+ ··· − 3.67 × 10

y + 3.38 × 10

)

(y − 4)

120

+ 25y

119

+ ··· − 26880y + 256)