12a

0959

(K12a

0959

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,11

3,12

6 2 5 10 4 1 9

, c

Ideals for irreducible components

of X

par

= h8.35200 × 10

510

141

− 4.09385 × 10

511

140

+ ··· + 2.45826 × 10

513

b − 8.83000 × 10

512

6.00094 × 10

514

141

− 2.96953 × 10

515

140

+ ··· + 2.13869 × 10

515

a − 1.26630 × 10

517

142

− 5u

141

+ ··· − 332u + 29i

= h75418015u

+ 613925564u

+ ··· + 89877703b − 104428676,

227579646u

+ 1595720565u

+ ··· + 89877703a + 471832864, u

+ 6u

+ ··· + 27u

− 1i

= hb − 1, 3a − u + 1, u

+ u + 1i

= hb − 1, a + u, u

+ u + 1i

* 4 irreducible components of dim

= 0, with total 177 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

= h8.35 × 10

510

141

− 4.09 × 10

511

140

+ · · · + 2.46 × 10

513

b − 8.83 ×

512

, 6.00 × 10

514

141

− 2.97 × 10

515

140

+ · · · + 2.14 × 10

515

a − 1.27 ×

517

, u

142

− 5u

141

+ · · · − 332u + 29i

(i) Arc colorings











−u





−0.280590u

141

+ 1.38848u

140

+ ··· − 228.267u + 59.2090

−0.00339752u

141

+ 0.0166534u

140

+ ··· + 1.73708u + 0.359197









−0.161778u

141

+ 0.754742u

140

+ ··· − 182.653u + 47.6645

0.0494736u

141

− 0.275149u

140

+ ··· + 7.41354u − 0.302281





0.000859398u

141

+ 0.0173947u

140

+ ··· − 87.6362u + 22.3884

0.0988280u

141

− 0.484196u

140

+ ··· − 0.641859u + 0.706963





−0.174032u

141

+ 0.814178u

140

+ ··· − 185.281u + 48.4292

0.0372198u

141

− 0.215713u

140

+ ··· + 4.78579u + 0.462379





−u

+ u





−0.267746u

141

+ 1.28141u

140

+ ··· − 216.097u + 57.4617

−0.00572144u

141

− 0.00711253u

140

+ ··· + 4.17014u + 0.863544





0.400381u

141

− 1.89645u

140

+ ··· + 318.441u − 68.7080

0.0321004u

141

− 0.116898u

140

+ ··· − 13.3500u + 3.03495





0.228624u

141

− 1.18663u

140

+ ··· + 64.1107u − 11.5201

0.199469u

141

− 1.13061u

140

+ ··· + 19.9646u − 0.792164



(ii) Obstruction class = −1

(iii) Cusp Shapes = 2.49543u

141

− 12.0492u

140

+ ··· + 2253.52u − 500.102

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

3(3u

142

− 20u

140

+ ··· + 29u − 1)

, c

142

+ 2u

141

+ ··· − 356u + 304

3(3u

142

− 6u

141

+ ··· − 261246u − 14332)

142

+ 2u

141

+ ··· + 32895u − 13173

, c

3(3u

142

+ 12u

141

+ ··· − 1.16737 × 10

u − 729697)

, c

142

− 5u

141

+ ··· − 332u + 29

142

+ 22u

140

+ ··· + 3840u + 576

142

− 2u

141

+ ··· + 29864u − 11279

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

9(9y

142

− 120y

141

+ ··· − 57y + 1)

, c

142

− 62y

141

+ ··· + 425936y + 92416

9(9y

142

− 138y

141

+ ··· + 2.20180 × 10

y + 2.05406 × 10

)

142

+ 26y

141

+ ··· + 7659337353y + 173527929

, c

9(9y

142

+ 852y

141

+ ··· + 1.69390 × 10

y + 5.32458 × 10

)

, c

142

+ 139y

141

+ ··· − 94158y + 841

142

+ 44y

141

+ ··· − 2230272y + 331776

142

+ 2y

141

+ ··· − 7484772366y + 127215841

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.642590 + 0.816128I

a = 0.017475 − 0.603353I

b = −1.090570 − 0.186235I

2.74568 + 3.72052I 0

u = 0.642590 − 0.816128I

a = 0.017475 + 0.603353I

b = −1.090570 + 0.186235I

2.74568 − 3.72052I 0

u = 0.943307 + 0.013606I

a = 0.523454 − 0.510396I

b = −0.918496 − 0.691900I

0.70494 + 2.70160I 0

u = 0.943307 − 0.013606I

a = 0.523454 + 0.510396I

b = −0.918496 + 0.691900I

0.70494 − 2.70160I 0

u = −0.966558 + 0.452108I

a = −0.535878 − 0.706338I

b = 1.158380 − 0.655861I

−1.3841 − 14.7096I 0

u = −0.966558 − 0.452108I

a = −0.535878 + 0.706338I

b = 1.158380 + 0.655861I

−1.3841 + 14.7096I 0

u = 0.875728 + 0.317953I

a = 0.439140 − 0.569516I

b = −1.044380 − 0.109811I

4.26985 + 1.50980I 0

u = 0.875728 − 0.317953I

a = 0.439140 + 0.569516I

b = −1.044380 + 0.109811I

4.26985 − 1.50980I 0

u = 0.493472 + 0.961325I

a = −0.340616 − 0.322389I

b = 1.089300 − 0.079315I

1.53464 + 2.38535I 0

u = 0.493472 − 0.961325I

a = −0.340616 + 0.322389I

b = 1.089300 + 0.079315I

1.53464 − 2.38535I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.790119 + 0.452760I

a = −1.356870 − 0.396797I

b = 0.728522 − 0.516306I

−3.29487 + 4.30574I 0

u = −0.790119 − 0.452760I

a = −1.356870 + 0.396797I

b = 0.728522 + 0.516306I

−3.29487 − 4.30574I 0

u = 0.208817 + 1.079900I

a = −0.223436 + 0.626423I

b = −0.429029 + 0.204141I

−2.34458 + 3.04452I 0

u = 0.208817 − 1.079900I

a = −0.223436 − 0.626423I

b = −0.429029 − 0.204141I

−2.34458 − 3.04452I 0

u = 1.020410 + 0.442473I

a = −0.521102 + 0.238186I

b = 1.088850 + 0.444342I

0.64936 + 4.75757I 0

u = 1.020410 − 0.442473I

a = −0.521102 − 0.238186I

b = 1.088850 − 0.444342I

0.64936 − 4.75757I 0

u = 0.707431 + 0.499654I

a = −0.386233 + 0.646196I

b = 1.219560 + 0.648628I

−1.03167 + 5.58242I 0

u = 0.707431 − 0.499654I

a = −0.386233 − 0.646196I

b = 1.219560 − 0.648628I

−1.03167 − 5.58242I 0

u = 0.749048 + 0.402762I

a = −0.087163 + 1.372770I

b = 0.981884 + 0.276958I

3.02954 + 2.04599I 0

u = 0.749048 − 0.402762I

a = −0.087163 − 1.372770I

b = 0.981884 − 0.276958I

3.02954 − 2.04599I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.737530 + 0.384331I

a = 0.857728 + 0.749010I

b = −1.154610 + 0.661050I

−2.52747 − 7.11688I 0

u = −0.737530 − 0.384331I

a = 0.857728 − 0.749010I

b = −1.154610 − 0.661050I

−2.52747 + 7.11688I 0

u = −0.643956 + 0.508889I

a = −0.338789 + 0.319747I

b = 0.376743 + 0.950292I

−3.72501 − 8.90092I 0

u = −0.643956 − 0.508889I

a = −0.338789 − 0.319747I

b = 0.376743 − 0.950292I

−3.72501 + 8.90092I 0

u = 1.065310 + 0.522095I

a = 0.583609 − 0.675353I

b = −0.995320 − 0.551462I

0.87974 + 5.44723I 0

u = 1.065310 − 0.522095I

a = 0.583609 + 0.675353I

b = −0.995320 + 0.551462I

0.87974 − 5.44723I 0

u = −0.693685 + 0.398764I

a = 0.451970 + 1.337320I

b = −1.211880 + 0.404517I

3.98949 − 8.94716I 0

u = −0.693685 − 0.398764I

a = 0.451970 − 1.337320I

b = −1.211880 − 0.404517I

3.98949 + 8.94716I 0

u = 0.340372 + 1.157210I

a = 0.34956 − 2.02425I

b = −0.821720 − 0.784733I

−2.82768 + 7.38570I 0

u = 0.340372 − 1.157210I

a = 0.34956 + 2.02425I

b = −0.821720 + 0.784733I

−2.82768 − 7.38570I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.333359 + 0.713404I

a = −0.475634 + 0.135045I

b = −1.303340 − 0.251159I

3.04704 + 5.02224I 0

u = −0.333359 − 0.713404I

a = −0.475634 − 0.135045I

b = −1.303340 + 0.251159I

3.04704 − 5.02224I 0

u = −0.240579 + 1.193860I

a = 0.932308 − 0.268323I

b = 1.380920 + 0.175400I

0.47775 − 3.33774I 0

u = −0.240579 − 1.193860I

a = 0.932308 + 0.268323I

b = 1.380920 − 0.175400I

0.47775 + 3.33774I 0

u = 0.548703 + 1.091500I

a = −0.527923 + 0.273988I

b = −0.823315 + 0.539077I

−2.62567 + 2.51585I 0

u = 0.548703 − 1.091500I

a = −0.527923 − 0.273988I

b = −0.823315 − 0.539077I

−2.62567 − 2.51585I 0

u = 0.853051 + 0.882884I

a = 0.186871 + 0.078567I

b = −0.689713 + 0.477853I

−0.187221 + 1.160760I 0

u = 0.853051 − 0.882884I

a = 0.186871 − 0.078567I

b = −0.689713 − 0.477853I

−0.187221 − 1.160760I 0

u = −0.163374 + 1.218340I

a = −1.02663 − 1.89218I

b = −0.092596 − 0.262769I

−4.71635 − 7.36833I 0

u = −0.163374 − 1.218340I

a = −1.02663 + 1.89218I

b = −0.092596 + 0.262769I

−4.71635 + 7.36833I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.871082 + 0.873688I

a = 0.224041 − 0.128263I

b = 0.956294 + 0.527645I

−2.54329 + 8.54907I 0

u = −0.871082 − 0.873688I

a = 0.224041 + 0.128263I

b = 0.956294 − 0.527645I

−2.54329 − 8.54907I 0

u = −0.509071 + 0.547445I

a = −0.157483 + 0.680723I

b = −0.867139 − 0.575732I

−3.33250 + 2.82467I 0

u = −0.509071 − 0.547445I

a = −0.157483 − 0.680723I

b = −0.867139 + 0.575732I

−3.33250 − 2.82467I 0

u = 0.328825 + 0.657498I

a = 0.704188 + 0.606675I

b = −0.008280 + 0.398492I

−0.40637 + 1.82781I 0

u = 0.328825 − 0.657498I

a = 0.704188 − 0.606675I

b = −0.008280 − 0.398492I

−0.40637 − 1.82781I 0

u = 0.097968 + 1.268690I

a = 0.78424 + 1.56513I

b = 0.746783 + 0.781991I

−1.52986 + 2.94544I 0

u = 0.097968 − 1.268690I

a = 0.78424 − 1.56513I

b = 0.746783 − 0.781991I

−1.52986 − 2.94544I 0

u = −0.006619 + 1.292480I

a = 0.13050 + 2.44173I

b = −0.133227 + 1.311720I

−7.54127 + 0.89803I 0

u = −0.006619 − 1.292480I

a = 0.13050 − 2.44173I

b = −0.133227 − 1.311720I

−7.54127 − 0.89803I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.168089 + 1.283240I

a = −0.94002 + 1.07137I

b = −0.964706 + 0.361388I

−1.70264 + 3.21989I 0

u = −0.168089 − 1.283240I

a = −0.94002 − 1.07137I

b = −0.964706 − 0.361388I

−1.70264 − 3.21989I 0

u = 0.057100 + 1.324370I

a = 0.345602 − 0.380089I

b = 1.49368 − 0.11239I

−1.23352 + 0.72597I 0

u = 0.057100 − 1.324370I

a = 0.345602 + 0.380089I

b = 1.49368 + 0.11239I

−1.23352 − 0.72597I 0

u = −0.201131 + 1.310480I

a = 0.39729 − 1.76605I

b = 1.119060 − 0.706966I

−0.30789 − 2.94943I 0

u = −0.201131 − 1.310480I

a = 0.39729 + 1.76605I

b = 1.119060 + 0.706966I

−0.30789 + 2.94943I 0

u = 0.558574 + 0.358142I

a = 0.31244 + 1.61475I

b = 0.941529 − 0.330493I

−0.83700 − 1.33766I 0

u = 0.558574 − 0.358142I

a = 0.31244 − 1.61475I

b = 0.941529 + 0.330493I

−0.83700 + 1.33766I 0

u = −0.189121 + 1.325790I

a = −0.71099 − 1.70974I

b = −0.176301 − 0.714324I

−4.63200 − 7.40725I 0

u = −0.189121 − 1.325790I

a = −0.71099 + 1.70974I

b = −0.176301 + 0.714324I

−4.63200 + 7.40725I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.873456 + 1.020830I

a = 0.035777 + 0.409646I

b = 0.752464 − 0.266551I

−0.90582 + 1.76298I 0

u = 0.873456 − 1.020830I

a = 0.035777 − 0.409646I

b = 0.752464 + 0.266551I

−0.90582 − 1.76298I 0

u = −0.635804 + 0.150451I

a = 1.47210 − 0.05433I

b = −0.755655 + 0.592582I

−3.68254 − 1.82520I 0

u = −0.635804 − 0.150451I

a = 1.47210 + 0.05433I

b = −0.755655 − 0.592582I

−3.68254 + 1.82520I 0

u = −0.044396 + 1.351350I

a = −0.18490 + 1.64708I

b = −1.23408 + 0.78519I

−7.00217 − 3.33315I 0

u = −0.044396 − 1.351350I

a = −0.18490 − 1.64708I

b = −1.23408 − 0.78519I

−7.00217 + 3.33315I 0

u = −0.645165 + 0.054390I

a = −0.806804 − 0.445214I

b = 1.229590 − 0.404665I

3.92422 + 0.06439I 0

u = −0.645165 − 0.054390I

a = −0.806804 + 0.445214I

b = 1.229590 + 0.404665I

3.92422 − 0.06439I 0

u = −0.055605 + 1.354360I

a = −0.858508 + 0.157201I

b = −1.85397 + 0.05924I

−1.07564 − 6.31405I 0

u = −0.055605 − 1.354360I

a = −0.858508 − 0.157201I

b = −1.85397 − 0.05924I

−1.07564 + 6.31405I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.109009 + 1.360100I

a = 0.50860 + 1.62021I

b = 0.503762 + 0.129477I

−5.96355 + 0.91867I 0

u = 0.109009 − 1.360100I

a = 0.50860 − 1.62021I

b = 0.503762 − 0.129477I

−5.96355 − 0.91867I 0

u = 0.094013 + 1.373090I

a = 0.50435 − 1.56561I

b = 0.835374 − 0.604403I

−3.21335 + 1.13985I 0

u = 0.094013 − 1.373090I

a = 0.50435 + 1.56561I

b = 0.835374 + 0.604403I

−3.21335 − 1.13985I 0

u = 0.047673 + 1.382060I

a = −0.53024 + 2.46707I

b = 0.939459 + 0.260395I

−5.11402 + 0.68211I 0

u = 0.047673 − 1.382060I

a = −0.53024 − 2.46707I

b = 0.939459 − 0.260395I

−5.11402 − 0.68211I 0

u = 0.226425 + 0.574051I

a = 2.05635 − 2.42714I

b = −0.780073 − 0.475319I

−2.86698 + 6.92930I 3.42159 − 10.37880I

u = 0.226425 − 0.574051I

a = 2.05635 + 2.42714I

b = −0.780073 + 0.475319I

−2.86698 − 6.92930I 3.42159 + 10.37880I

u = −0.065349 + 1.385010I

a = 0.21400 + 1.57674I

b = −0.408080 + 0.684531I

−6.89459 + 0.86791I 0

u = −0.065349 − 1.385010I

a = 0.21400 − 1.57674I

b = −0.408080 − 0.684531I

−6.89459 − 0.86791I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.575616 + 0.208751I

a = −0.488825 − 0.593288I

b = 0.034455 − 0.837209I

0.18610 − 4.61045I 6.00000 + 7.28544I

u = −0.575616 − 0.208751I

a = −0.488825 + 0.593288I

b = 0.034455 + 0.837209I

0.18610 + 4.61045I 6.00000 − 7.28544I

u = −0.33407 + 1.38157I

a = 0.330549 + 1.362890I

b = −1.059480 + 0.676117I

−8.45107 − 5.56059I 0

u = −0.33407 − 1.38157I

a = 0.330549 − 1.362890I

b = −1.059480 − 0.676117I

−8.45107 + 5.56059I 0

u = −0.397175 + 0.416339I

a = 0.0397112 + 0.0396057I

b = −0.419872 − 1.036180I

−4.82118 − 1.14145I −3.17765 + 7.01904I

u = −0.397175 − 0.416339I

a = 0.0397112 − 0.0396057I

b = −0.419872 + 1.036180I

−4.82118 + 1.14145I −3.17765 − 7.01904I

u = −0.225495 + 0.507809I

a = 1.16640 + 1.00371I

b = 0.048260 + 0.563484I

−1.14702 + 1.78911I 1.00281 − 1.12035I

u = −0.225495 − 0.507809I

a = 1.16640 − 1.00371I

b = 0.048260 − 0.563484I

−1.14702 − 1.78911I 1.00281 + 1.12035I

u = 0.34333 + 1.41646I

a = −0.152141 − 1.211710I

b = −0.979069 − 0.395764I

−1.20544 + 5.88296I 0

u = 0.34333 − 1.41646I

a = −0.152141 + 1.211710I

b = −0.979069 + 0.395764I

−1.20544 − 5.88296I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.16196 + 1.45079I

a = −0.77757 − 1.41013I

b = −0.61496 − 1.31797I

−10.82780 − 3.31481I 0

u = −0.16196 − 1.45079I

a = −0.77757 + 1.41013I

b = −0.61496 + 1.31797I

−10.82780 + 3.31481I 0

u = 0.11893 + 1.45940I

a = 0.48863 − 1.65260I

b = 0.53766 − 1.56090I

−10.21780 + 0.80786I 0

u = 0.11893 − 1.45940I

a = 0.48863 + 1.65260I

b = 0.53766 + 1.56090I

−10.21780 − 0.80786I 0

u = −0.10051 + 1.46785I

a = 0.89905 − 1.63901I

b = 0.992133 − 0.444265I

−4.24703 − 1.99121I 0

u = −0.10051 − 1.46785I

a = 0.89905 + 1.63901I

b = 0.992133 + 0.444265I

−4.24703 + 1.99121I 0

u = −0.28003 + 1.47044I

a = −0.19310 + 1.71437I

b = −1.27509 + 0.81538I

−8.51253 − 10.83600I 0

u = −0.28003 − 1.47044I

a = −0.19310 − 1.71437I

b = −1.27509 − 0.81538I

−8.51253 + 10.83600I 0

u = −0.25470 + 1.48414I

a = −0.54064 + 1.72717I

b = −1.137500 + 0.588329I

−2.14091 − 12.41600I 0

u = −0.25470 − 1.48414I

a = −0.54064 − 1.72717I

b = −1.137500 − 0.588329I

−2.14091 + 12.41600I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.19637 + 1.50341I

a = −0.551614 − 0.650419I

b = −0.595444 − 0.816822I

−9.87357 + 0.03826I 0

u = −0.19637 − 1.50341I

a = −0.551614 + 0.650419I

b = −0.595444 + 0.816822I

−9.87357 − 0.03826I 0

u = −0.23545 + 1.49943I

a = 0.59355 + 1.34991I

b = 0.517545 + 1.305810I

−10.2251 − 12.1553I 0

u = −0.23545 − 1.49943I

a = 0.59355 − 1.34991I

b = 0.517545 − 1.305810I

−10.2251 + 12.1553I 0

u = 0.27997 + 1.49439I

a = 0.49688 + 1.51195I

b = 0.857275 + 0.575483I

−3.16407 + 5.81342I 0

u = 0.27997 − 1.49439I

a = 0.49688 − 1.51195I

b = 0.857275 − 0.575483I

−3.16407 − 5.81342I 0

u = 0.11388 + 1.51903I

a = −0.224209 − 1.221250I

b = −0.158453 − 1.159590I

−10.04230 + 3.46563I 0

u = 0.11388 − 1.51903I

a = −0.224209 + 1.221250I

b = −0.158453 + 1.159590I

−10.04230 − 3.46563I 0

u = 0.467947 + 0.082376I

a = 0.20095 + 1.61703I

b = 1.061320 + 0.299676I

2.49343 + 0.76222I 8.97618 + 6.78934I

u = 0.467947 − 0.082376I

a = 0.20095 − 1.61703I

b = 1.061320 − 0.299676I

2.49343 − 0.76222I 8.97618 − 6.78934I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.16019 + 1.51773I

a = 0.161334 − 1.389530I

b = −1.165360 − 0.532914I

−9.81043 + 8.85249I 0

u = 0.16019 − 1.51773I

a = 0.161334 + 1.389530I

b = −1.165360 + 0.532914I

−9.81043 − 8.85249I 0

u = 0.471529 + 0.034714I

a = 0.724237 + 0.854589I

b = 0.189168 + 0.252378I

1.130630 + 0.395757I 9.73572 − 1.85939I

u = 0.471529 − 0.034714I

a = 0.724237 − 0.854589I

b = 0.189168 − 0.252378I

1.130630 − 0.395757I 9.73572 + 1.85939I

u = 0.27262 + 1.51013I

a = 0.43826 + 1.57436I

b = 1.33352 + 0.92106I

−7.55128 + 9.24082I 0

u = 0.27262 − 1.51013I

a = 0.43826 − 1.57436I

b = 1.33352 − 0.92106I

−7.55128 − 9.24082I 0

u = 0.15346 + 1.53004I

a = −0.688242 − 1.214960I

b = −1.080210 − 0.654743I

−4.94512 + 6.18384I 0

u = 0.15346 − 1.53004I

a = −0.688242 + 1.214960I

b = −1.080210 + 0.654743I

−4.94512 − 6.18384I 0

u = 0.36147 + 1.51681I

a = 0.213386 + 1.183390I

b = 1.35152 + 0.64187I

−5.64604 + 9.68033I 0

u = 0.36147 − 1.51681I

a = 0.213386 − 1.183390I

b = 1.35152 − 0.64187I

−5.64604 − 9.68033I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.25466 + 1.54065I

a = −0.151629 − 1.104120I

b = 1.137050 − 0.553487I

−9.93865 + 0.42751I 0

u = −0.25466 − 1.54065I

a = −0.151629 + 1.104120I

b = 1.137050 + 0.553487I

−9.93865 − 0.42751I 0

u = −0.36101 + 1.52897I

a = 0.17111 − 1.60929I

b = 1.26889 − 0.80370I

−7.7580 − 19.5165I 0

u = −0.36101 − 1.52897I

a = 0.17111 + 1.60929I

b = 1.26889 + 0.80370I

−7.7580 + 19.5165I 0

u = 0.22488 + 1.55770I

a = −0.388858 + 1.130520I

b = −0.442685 + 0.996940I

−8.08216 + 4.56639I 0

u = 0.22488 − 1.55770I

a = −0.388858 − 1.130520I

b = −0.442685 − 0.996940I

−8.08216 − 4.56639I 0

u = −0.259450 + 0.296585I

a = −0.43913 − 2.89349I

b = 1.105900 − 0.177648I

1.65486 − 0.64880I 1.44968 − 4.85704I

u = −0.259450 − 0.296585I

a = −0.43913 + 2.89349I

b = 1.105900 + 0.177648I

1.65486 + 0.64880I 1.44968 + 4.85704I

u = 0.38304 + 1.57313I

a = −0.07108 − 1.44660I

b = −1.164860 − 0.701696I

−5.88179 + 10.70490I 0

u = 0.38304 − 1.57313I

a = −0.07108 + 1.44660I

b = −1.164860 + 0.701696I

−5.88179 − 10.70490I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.114533 + 0.357347I

a = −1.35824 + 1.81438I

b = −0.768213 − 0.676906I

−3.17629 + 2.69246I −0.28093 − 4.84720I

u = −0.114533 − 0.357347I

a = −1.35824 − 1.81438I

b = −0.768213 + 0.676906I

−3.17629 − 2.69246I −0.28093 + 4.84720I

u = 0.199086 + 0.312708I

a = −1.043320 − 0.040655I

b = 0.206884 − 1.238140I

−4.26384 − 0.61629I −0.55814 − 8.09106I

u = 0.199086 − 0.312708I

a = −1.043320 + 0.040655I

b = 0.206884 + 1.238140I

−4.26384 + 0.61629I −0.55814 + 8.09106I

u = −0.300707 + 0.176178I

a = −0.73109 + 1.94677I

b = −1.42436 − 0.01880I

2.99963 + 5.36465I 12.00185 − 5.42830I

u = −0.300707 − 0.176178I

a = −0.73109 − 1.94677I

b = −1.42436 + 0.01880I

2.99963 − 5.36465I 12.00185 + 5.42830I

u = 0.05719 + 1.68348I

a = −0.506400 + 0.609047I

b = −0.347661 + 0.495378I

−12.33570 + 4.40392I 0

u = 0.05719 − 1.68348I

a = −0.506400 − 0.609047I

b = −0.347661 − 0.495378I

−12.33570 − 4.40392I 0

u = −0.06429 + 1.75109I

a = 0.275749 + 0.446728I

b = 0.439231 + 0.416422I

−12.19390 + 4.78155I 0

u = −0.06429 − 1.75109I

a = 0.275749 − 0.446728I

b = 0.439231 − 0.416422I

−12.19390 − 4.78155I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.142557

a = −21.6522

b = 0.835651

−0.427188 291.940

u = 0.113032

a = 7.26839

b = 0.697821

1.16360 10.1550

II. I

= h7.54 × 10

+ 6.14 × 10

+ · · · + 8.99 × 10

b − 1.04 × 10

, 2.28 ×

+1.60×10

+· · ·+8.99×10

a+4.72×10

, u

+6u

+· · ·+27u

−1i

(i) Arc colorings











−u





−2.53210u

− 17.7544u

+ ··· − 71.3633u − 5.24972

−0.839118u

− 6.83068u

+ ··· + 1.62587u + 1.16190









−2.17968u

− 9.31290u

+ ··· − 59.8579u − 8.18588

−1.28897u

− 4.20054u

+ ··· + 7.12225u − 3.10181





−2.83987u

− 19.0985u

+ ··· − 29.4731u + 1.62448

−0.256171u

− 3.06243u

+ ··· − 1.50377u − 0.879822





−1.26989u

− 4.98483u

+ ··· − 60.7486u − 7.95395

−0.379172u

+ 0.127534u

+ ··· + 6.23153u − 2.86988





−u

+ u





−2.80831u

− 20.0829u

+ ··· − 70.3192u − 4.37596

−0.645109u

− 5.78072u

+ ··· + 0.857948u + 0.959447





1.97743u

+ 11.1095u

+ ··· + 127.357u + 18.0892

1.02402u

+ 5.42485u

+ ··· − 5.14949u − 0.162049





−0.603868u

− 5.03515u

+ ··· + 36.8306u + 1.93288

−0.686689u

− 5.47183u

+ ··· − 4.98451u + 3.10493



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

1461514683

89877703

−

8086163338

89877703

+ ··· −

51551548380

89877703

u −

5515258640

89877703

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 12u

+ ··· − 3u

− 1

− 7u

+ ··· − 10u + 1

− 2u

+ ··· − u + 13

+ 4u

+ ··· − 2u + 1

+ 6u

+ ··· − 12u + 1

+ 7u

+ ··· − 10u − 1

+ 6u

+ ··· + 27u

− 1

+ u

+ ··· + 156u + 49

+ u

+ ··· − 15u

− 1

, c

− 6u

+ ··· − 27u

+ 1

− 6u

+ ··· − 12u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 22y

+ ··· − 6y −1

, c

− 13y

+ ··· + 28y −1

− 18y

+ ··· − 1455y −169

+ 8y

+ ··· + 16y

− 1

, c

+ 10y

+ ··· + 16y −1

, c

+ 34y

+ ··· + 54y −1

+ 29y

+ ··· + 39722y −2401

+ 17y

+ ··· − 30y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.965390 + 0.529714I

a = 0.556150 + 0.489722I

b = −1.061210 + 0.508762I

0.10637 − 5.02110I 3.13722 + 7.80756I

u = −0.965390 − 0.529714I

a = 0.556150 − 0.489722I

b = −1.061210 − 0.508762I

0.10637 + 5.02110I 3.13722 − 7.80756I

u = 0.032221 + 1.171400I

a = −1.386770 + 0.084190I

b = −1.60455 − 0.07381I

0.43030 + 5.74357I 6.00000 − 5.60976I

u = 0.032221 − 1.171400I

a = −1.386770 − 0.084190I

b = −1.60455 + 0.07381I

0.43030 − 5.74357I 6.00000 + 5.60976I

u = 0.195145 + 1.193150I

a = 1.10190 − 2.35628I

b = −0.566095 − 0.444169I

−4.60693 + 8.02154I 0. − 13.88052I

u = 0.195145 − 1.193150I

a = 1.10190 + 2.35628I

b = −0.566095 + 0.444169I

−4.60693 − 8.02154I 0. + 13.88052I

u = −0.211598 + 1.206560I

a = 0.410374 + 0.203269I

b = 1.275200 + 0.226168I

−0.08729 − 1.73503I 6.00000 + 4.05768I

u = −0.211598 − 1.206560I

a = 0.410374 − 0.203269I

b = 1.275200 − 0.226168I

−0.08729 + 1.73503I 6.00000 − 4.05768I

u = −0.003155 + 0.730855I

a = 0.035636 + 0.575912I

b = −1.44512 + 0.15145I

2.13309 − 5.55164I 2.31699 + 7.15311I

u = −0.003155 − 0.730855I

a = 0.035636 − 0.575912I

b = −1.44512 − 0.15145I

2.13309 + 5.55164I 2.31699 − 7.15311I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.687065 + 0.208171I

a = −0.297047 − 1.061110I

b = 0.970172 − 0.301221I

2.86190 − 1.36449I 13.50429 + 1.58498I

u = −0.687065 − 0.208171I

a = −0.297047 + 1.061110I

b = 0.970172 + 0.301221I

2.86190 + 1.36449I 13.50429 − 1.58498I

u = 0.375229 + 0.609839I

a = 0.47768 − 2.17422I

b = −0.513348 + 0.224655I

−2.53264 − 5.92324I 6.56403 + 3.62035I

u = 0.375229 − 0.609839I

a = 0.47768 + 2.17422I

b = −0.513348 − 0.224655I

−2.53264 + 5.92324I 6.56403 − 3.62035I

u = −0.040678 + 1.288960I

a = 0.22049 + 2.54227I

b = 0.142465 + 1.248760I

−7.66939 + 0.31322I 0

u = −0.040678 − 1.288960I

a = 0.22049 − 2.54227I

b = 0.142465 − 1.248760I

−7.66939 − 0.31322I 0

u = −0.865616 + 0.997186I

a = −0.032189 + 0.145586I

b = −0.754831 − 0.389568I

−1.14639 − 1.39055I 0

u = −0.865616 − 0.997186I

a = −0.032189 − 0.145586I

b = −0.754831 + 0.389568I

−1.14639 + 1.39055I 0

u = 0.054834 + 1.398650I

a = 0.14781 + 2.40858I

b = 0.844242 + 0.251626I

−5.28196 + 0.64943I 0

u = 0.054834 − 1.398650I

a = 0.14781 − 2.40858I

b = 0.844242 − 0.251626I

−5.28196 − 0.64943I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.33057 + 1.39092I

a = 0.214549 − 1.335150I

b = 0.755038 − 0.537490I

−2.25696 − 5.16117I 0

u = −0.33057 − 1.39092I

a = 0.214549 + 1.335150I

b = 0.755038 + 0.537490I

−2.25696 + 5.16117I 0

u = −0.11973 + 1.47233I

a = −0.31732 − 1.39329I

b = −0.287392 − 1.344580I

−10.07670 − 2.28079I 0

u = −0.11973 − 1.47233I

a = −0.31732 + 1.39329I

b = −0.287392 + 1.344580I

−10.07670 + 2.28079I 0

u = −0.30019 + 1.52833I

a = −0.27317 + 1.40504I

b = −1.30238 + 0.74131I

−6.61918 − 9.43308I 0

u = −0.30019 − 1.52833I

a = −0.27317 − 1.40504I

b = −1.30238 − 0.74131I

−6.61918 + 9.43308I 0

u = −0.175986 + 0.238164I

a = 1.20947 + 0.74353I

b = −0.020359 − 1.200950I

−4.12466 − 0.99187I 8.09761 + 9.09408I

u = −0.175986 − 0.238164I

a = 1.20947 − 0.74353I

b = −0.020359 + 1.200950I

−4.12466 + 0.99187I 8.09761 − 9.09408I

u = −0.01650 + 1.74532I

a = −0.292008 − 0.300798I

b = −0.342131 − 0.079341I

−11.90070 − 4.45233I 0

u = −0.01650 − 1.74532I

a = −0.292008 + 0.300798I

b = −0.342131 + 0.079341I

−11.90070 + 4.45233I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.118124

a = −24.5511

b = 0.820564

−0.443607 −199.230

III. I

= hb − 1, 3a − u + 1, u

+ u + 1i

(i) Arc colorings











u + 1





u −









u +





−1





u +





−u

u + 1





u +

−

u −





−0.333333





u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

u +

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

3(3u

+ 1)

(u + 1)

3(3u

+ 6u + 4)

+ 3u + 3

(u − 1)

+ u + 1

, c

− u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

9(3y + 1)

, c

(y −1)

9(9y

− 12y + 16)

− 3y + 9

, c

+ y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.500000 + 0.866025I

a = −0.500000 + 0.288675I

b = 1.00000

1.64493 − 2.02988I 12.55556 − 4.23390I

u = −0.500000 − 0.866025I

a = −0.500000 − 0.288675I

b = 1.00000

1.64493 + 2.02988I 12.55556 + 4.23390I

IV. I

= hb − 1, a + u, u

+ u + 1i

(i) Arc colorings











u + 1





−u









−u + 1





−1





−u





−u

u + 1





−u + 1

u + 1





u + 1





u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4u + 11

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ u + 1

(u + 1)

, c

− u + 1

, c

(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

u = −0.500000 + 0.866025I

a = 0.500000 − 0.866025I

b = 1.00000

1.64493 − 2.02988I 9.00000 + 3.46410I

u = −0.500000 − 0.866025I

a = 0.500000 + 0.866025I

b = 1.00000

1.64493 + 2.02988I 9.00000 − 3.46410I

V. u-Polynomials

Crossings u-Polynomials at each crossing

9(u

+ u + 1)(3u

+ 1)(u

− 12u

+ ··· − 3u

− 1)

· (3u

142

− 20u

140

+ ··· + 29u − 1)

((u + 1)

)(u

− 7u

+ ··· − 10u + 1)(u

142

+ 2u

141

+ ··· − 356u + 304)

9(u

− u + 1)(3u

+ 6u + 4)(u

− 2u

+ ··· − u + 13)

· (3u

142

− 6u

141

+ ··· − 261246u − 14332)

((u − 1)

)(u

+ 3u + 3)(u

+ 4u

+ ··· − 2u + 1)

· (u

142

+ 2u

141

+ ··· + 32895u − 13173)

9(u

− u + 1)(3u

+ 1)(u

+ 6u

+ ··· − 12u + 1)

· (3u

142

+ 12u

141

+ ··· − 11673715u − 729697)

((u − 1)

)(u

+ 7u

+ ··· − 10u − 1)(u

142

+ 2u

141

+ ··· − 356u + 304)

((u

+ u + 1)

)(u

+ 6u

+ ··· + 27u

− 1)

· (u

142

− 5u

141

+ ··· − 332u + 29)

+ u

+ ··· + 156u + 49)(u

142

+ 22u

140

+ ··· + 3840u + 576)

((u

− u + 1)

)(u

+ u

+ ··· − 15u

− 1)

· (u

142

− 2u

141

+ ··· + 29864u − 11279)

, c

((u

− u + 1)

)(u

− 6u

+ ··· − 27u

+ 1)

· (u

142

− 5u

141

+ ··· − 332u + 29)

9(u

+ u + 1)(3u

+ 1)(u

− 6u

+ ··· − 12u − 1)

· (3u

142

+ 12u

141

+ ··· − 11673715u − 729697)

VI. Riley Polynomials

Crossings Riley Polynomials at each crossing

81(3y + 1)

+ y + 1)(y

− 22y

+ ··· − 6y −1)

· (9y

142

− 120y

141

+ ··· − 57y + 1)

, c

((y −1)

)(y

− 13y

+ ··· + 28y −1)

· (y

142

− 62y

141

+ ··· + 425936y + 92416)

81(y

+ y + 1)(9y

− 12y + 16)(y

− 18y

+ ··· − 1455y −169)

· (9y

142

− 138y

141

+ ··· + 22018021060y + 205406224)

((y −1)

)(y

− 3y + 9)(y

+ 8y

+ ··· + 16y

− 1)

· (y

142

+ 26y

141

+ ··· + 7659337353y + 173527929)

, c

81(3y + 1)

+ y + 1)(y

+ 10y

+ ··· + 16y −1)

· (9y

142

+ 852y

141

+ ··· + 16938989993629y + 532457711809)

, c

((y

+ y + 1)

)(y

+ 34y

+ ··· + 54y −1)

· (y

142

+ 139y

141

+ ··· − 94158y + 841)

+ 29y

+ ··· + 39722y −2401)

· (y

142

+ 44y

141

+ ··· − 2230272y + 331776)

((y

+ y + 1)

)(y

+ 17y

+ ··· − 30y −1)

· (y

142

+ 2y

141

+ ··· − 7484772366y + 127215841)