12a

0798

(K12a

0798

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

6,10 1,5

4 9 12 7 8 11 3 2

, c

Ideals for irreducible components

of X

par

= h2.00309 × 10

− 3.21474 × 10

+ ··· + 9.90975 × 10

b − 9.19958 × 10

− 3.05614 × 10

− 3.56503 × 10

+ ··· + 4.95488 × 10

a + 3.30827 × 10

, u

+ u

+ ··· + 8u + 1i

= h2.20369 × 10

113

+ 5.25148 × 10

112

+ ··· + 2.19562 × 10

115

b + 2.18119 × 10

115

5.47739 × 10

116

+ 3.09471 × 10

115

+ ··· + 1.16368 × 10

117

a + 1.96706 × 10

118

+ u

+ ··· + 434u + 53i

= h300a

+ 95a

+ 2260b + 654a − 1651, 25a

− 40a

− 98a

+ 64a + 197, u + 1i

= hb + u, 8a

+ 12a

u − 4a

− 4au − 2a + u, u

+ 1i

= h−a

+ 8b + 2a + 3, a

+ 3a

+ 3a + 1, u − 1i

* 5 irreducible components of dim

= 0, with total 132 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.

= h2.00×10

−3.21×10

+· · ·+9.91×10

b−9.20×10

, −3.06×

−3.57×10

+· · ·+4.95×10

a+3.31×10

, u

+· · ·+8u+1i

(i) Arc colorings











0.616794u

+ 0.00719500u

+ ··· − 24.9481u − 6.67680

−0.202134u

+ 0.00324402u

+ ··· + 4.56122u + 0.928336





−u





2.44394u

+ 2.29985u

+ ··· + 67.1776u + 6.08652

−0.404222u

− 0.323237u

+ ··· − 9.06575u − 0.414661





−u

+ u





0.414661u

+ 0.0104390u

+ ··· − 20.3869u − 5.74847

−0.202134u

+ 0.00324402u

+ ··· + 4.56122u + 0.928336





−1.53794u

− 1.54132u

+ ··· − 47.9985u − 3.48227

0.344085u

+ 0.255951u

+ ··· + 7.86170u + 0.499407





−1.51259u

− 1.48491u

+ ··· − 47.1606u − 3.63014

0.434697u

+ 0.337745u

+ ··· + 8.97345u + 0.382603





0.270574u

− 0.255160u

+ ··· − 33.8519u − 8.19241

−0.121149u

+ 0.0602775u

+ ··· + 7.38033u + 1.33256





2.96967u

+ 2.72241u

+ ··· + 77.5346u + 6.35709

−0.585648u

− 0.423585u

+ ··· − 11.3675u − 0.535810





0.858872u

+ 1.20916u

+ ··· + 51.2976u + 8.24260

−0.477090u

− 0.426611u

+ ··· − 15.0209u − 2.17841



(ii) Obstruction class = −1

(iii) Cusp Shapes = −3.15453u

− 2.18463u

+ ··· − 60.6939u − 13.0765

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 17u

+ ··· − 236u − 100

, c

− 3u

+ ··· + 22u + 10

, c

+ u

+ ··· + 8u + 1

, c

64(64u

− 128u

+ ··· + 20u + 1)

, c

+ 3u

+ ··· + 186u + 50

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 33y

+ ··· − 115504y −10000

, c

+ 17y

+ ··· − 236y −100

, c

− 15y

+ ··· − 16y −1

, c

4096(4096y

+ 73728y

+ ··· − 62y −1)

, c

+ 21y

+ ··· − 112004y −2500

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.981538 + 0.257391I

a = 1.55206 − 0.93078I

b = −1.23894 + 0.72248I

−5.77516 + 2.35068I −11.35180 + 4.63129I

u = 0.981538 − 0.257391I

a = 1.55206 + 0.93078I

b = −1.23894 − 0.72248I

−5.77516 − 2.35068I −11.35180 − 4.63129I

u = −0.810441 + 0.532063I

a = 2.11896 − 0.39965I

b = −0.643779 + 0.920170I

5.03502 + 0.73563I −5.79688 − 4.57205I

u = −0.810441 − 0.532063I

a = 2.11896 + 0.39965I

b = −0.643779 − 0.920170I

5.03502 − 0.73563I −5.79688 + 4.57205I

u = 0.877698 + 0.561491I

a = −2.08820 − 0.30060I

b = 0.653043 + 0.991957I

5.31366 − 7.02170I −5.51690 + 9.17495I

u = 0.877698 − 0.561491I

a = −2.08820 + 0.30060I

b = 0.653043 − 0.991957I

5.31366 + 7.02170I −5.51690 − 9.17495I

u = −0.995699 + 0.372749I

a = −1.36330 − 0.86812I

b = 1.104890 + 0.550579I

−3.06110 + 2.74516I −8.49807 − 6.15151I

u = −0.995699 − 0.372749I

a = −1.36330 + 0.86812I

b = 1.104890 − 0.550579I

−3.06110 − 2.74516I −8.49807 + 6.15151I

u = 0.875340 + 0.605659I

a = 0.219349 + 0.234083I

b = 0.214791 − 1.396630I

5.30349 − 2.15840I −3.93083 + 3.29725I

u = 0.875340 − 0.605659I

a = 0.219349 − 0.234083I

b = 0.214791 + 1.396630I

5.30349 + 2.15840I −3.93083 − 3.29725I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.952373 + 0.520378I

a = −0.168176 + 0.392073I

b = −0.22875 − 1.47692I

4.08293 + 7.70387I −6.80678 − 8.64886I

u = −0.952373 − 0.520378I

a = −0.168176 − 0.392073I

b = −0.22875 + 1.47692I

4.08293 − 7.70387I −6.80678 + 8.64886I

u = 0.452697 + 0.787769I

a = 0.288931 − 0.311418I

b = 0.127804 − 1.164260I

3.71295 − 0.68830I 0.52323 + 2.74701I

u = 0.452697 − 0.787769I

a = 0.288931 + 0.311418I

b = 0.127804 + 1.164260I

3.71295 + 0.68830I 0.52323 − 2.74701I

u = 0.817518 + 0.099039I

a = −2.07999 − 0.26336I

b = 1.288930 + 0.381664I

−4.95390 − 4.13277I −5.04587 + 8.33177I

u = 0.817518 − 0.099039I

a = −2.07999 + 0.26336I

b = 1.288930 − 0.381664I

−4.95390 + 4.13277I −5.04587 − 8.33177I

u = 1.147530 + 0.376229I

a = 1.35388 − 0.64687I

b = −1.218000 + 0.378064I

−8.08094 − 5.83164I −15.5949 + 6.7506I

u = 1.147530 − 0.376229I

a = 1.35388 + 0.64687I

b = −1.218000 − 0.378064I

−8.08094 + 5.83164I −15.5949 − 6.7506I

u = −1.137970 + 0.439927I

a = 1.72337 − 0.29059I

b = −0.79502 + 1.21714I

−3.88494 + 4.95670I −12.24760 − 4.43222I

u = −1.137970 − 0.439927I

a = 1.72337 + 0.29059I

b = −0.79502 − 1.21714I

−3.88494 − 4.95670I −12.24760 + 4.43222I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.688687 + 0.308958I

a = −0.878871 + 0.471910I

b = 0.07117 − 1.41606I

−0.16229 + 1.40976I −9.53355 − 4.57288I

u = −0.688687 − 0.308958I

a = −0.878871 − 0.471910I

b = 0.07117 + 1.41606I

−0.16229 − 1.40976I −9.53355 + 4.57288I

u = −0.286451 + 1.239410I

a = 0.020365 − 0.390591I

b = −0.214987 − 0.936488I

1.83503 − 0.92197I −13.0094 + 8.1328I

u = −0.286451 − 1.239410I

a = 0.020365 + 0.390591I

b = −0.214987 + 0.936488I

1.83503 + 0.92197I −13.0094 − 8.1328I

u = 1.156850 + 0.550225I

a = −1.74873 − 0.14409I

b = 0.706757 + 1.215220I

−0.79278 − 9.29438I −8.00000 + 7.50073I

u = 1.156850 − 0.550225I

a = −1.74873 + 0.14409I

b = 0.706757 − 1.215220I

−0.79278 + 9.29438I −8.00000 − 7.50073I

u = −1.163070 + 0.539405I

a = −1.160470 − 0.653820I

b = 1.087680 + 0.283705I

−0.80094 + 6.65775I −8.00000 + 0.I

u = −1.163070 − 0.539405I

a = −1.160470 + 0.653820I

b = 1.087680 − 0.283705I

−0.80094 − 6.65775I −8.00000 + 0.I

u = −0.079925 + 0.692755I

a = −0.057126 − 1.297370I

b = 0.053644 + 0.267090I

4.56105 + 2.90065I −5.11259 − 3.32387I

u = −0.079925 − 0.692755I

a = −0.057126 + 1.297370I

b = 0.053644 − 0.267090I

4.56105 − 2.90065I −5.11259 + 3.32387I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.021549 + 1.328260I

a = 0.023794 − 0.515824I

b = −0.058851 − 0.693519I

5.08062 + 2.68757I −8.00000 + 0.I

u = −0.021549 − 1.328260I

a = 0.023794 + 0.515824I

b = −0.058851 + 0.693519I

5.08062 − 2.68757I −8.00000 + 0.I

u = −0.671080

a = 1.79535

b = −0.940047

−1.58789 −4.29000

u = 1.220900 + 0.538472I

a = 1.155260 − 0.596939I

b = −1.115300 + 0.247129I

−2.05345 − 12.68030I 0

u = 1.220900 − 0.538472I

a = 1.155260 + 0.596939I

b = −1.115300 − 0.247129I

−2.05345 + 12.68030I 0

u = 0.627660 + 1.221110I

a = −0.031390 − 0.235628I

b = 0.331694 − 1.079920I

7.31454 − 0.58694I 0

u = 0.627660 − 1.221110I

a = −0.031390 + 0.235628I

b = 0.331694 + 1.079920I

7.31454 + 0.58694I 0

u = −1.260280 + 0.553994I

a = 1.62317 − 0.09420I

b = −0.69242 + 1.27875I

−5.13578 + 12.53380I 0

u = −1.260280 − 0.553994I

a = 1.62317 + 0.09420I

b = −0.69242 − 1.27875I

−5.13578 − 12.53380I 0

u = −0.58514 + 1.29446I

a = 0.057217 − 0.263592I

b = −0.345871 − 1.041880I

6.79396 − 5.08385I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.58514 − 1.29446I

a = 0.057217 + 0.263592I

b = −0.345871 + 1.041880I

6.79396 + 5.08385I 0

u = 1.25870 + 0.66450I

a = −1.66771 + 0.03866I

b = 0.63511 + 1.26857I

2.30602 − 12.80540I 0

u = 1.25870 − 0.66450I

a = −1.66771 − 0.03866I

b = 0.63511 − 1.26857I

2.30602 + 12.80540I 0

u = −1.29293 + 0.66685I

a = 1.62720 + 0.05274I

b = −0.63273 + 1.28478I

1.2109 + 18.8792I 0

u = −1.29293 − 0.66685I

a = 1.62720 − 0.05274I

b = −0.63273 − 1.28478I

1.2109 − 18.8792I 0

u = −0.208725 + 0.263076I

a = 0.636904 − 0.809965I

b = −0.176417 + 0.283511I

−0.386214 + 0.820546I −8.61529 − 8.26097I

u = −0.208725 − 0.263076I

a = 0.636904 + 0.809965I

b = −0.176417 − 0.283511I

−0.386214 − 0.820546I −8.61529 + 8.26097I

u = −0.097656 + 0.221062I

a = −1.55418 − 4.92473I

b = 0.055569 + 0.876388I

4.71535 + 2.88833I −6.61461 − 3.16484I

u = −0.097656 − 0.221062I

a = −1.55418 + 4.92473I

b = 0.055569 − 0.876388I

4.71535 − 2.88833I −6.61461 + 3.16484I

II. I

= h2.20 × 10

113

+ 5.25 × 10

112

+ · · · + 2.20 × 10

115

b + 2.18 ×

115

, 5.48 × 10

116

+ 3.09 × 10

115

+ · · · + 1.16 × 10

117

a + 1.97 ×

118

, u

+ u

+ · · · + 434u + 53i

(i) Arc colorings











−0.470697u

− 0.0265942u

+ ··· − 149.260u − 16.9039

−0.0100368u

− 0.00239180u

+ ··· − 2.54768u − 0.993431





−u





−6.01017u

+ 0.310008u

+ ··· − 2255.61u − 308.627

−0.226244u

+ 0.0311423u

+ ··· − 77.8654u − 11.1406





−u

+ u





−0.480734u

− 0.0289860u

+ ··· − 151.807u − 17.8973

−0.0100368u

− 0.00239180u

+ ··· − 2.54768u − 0.993431





0.155671u

− 0.0389813u

+ ··· + 43.7618u + 4.64741

−0.0580571u

− 0.00135076u

+ ··· − 19.8965u − 2.18136





0.143997u

− 0.0275353u

+ ··· + 38.2166u + 3.85369

−0.0460225u

+ 0.0000400031u

+ ··· − 16.0263u − 1.74972





−6.43551u

+ 0.0646646u

+ ··· − 2338.34u − 323.669

−0.222739u

+ 0.0292459u

+ ··· − 71.9426u − 10.0199





0.120256u

− 0.0236167u

+ ··· + 41.4888u + 9.39135

−0.0209187u

+ 0.000811014u

+ ··· − 9.03896u − 1.96341





0.363436u

+ 0.0187985u

+ ··· + 118.612u + 19.4997

0.00913425u

− 0.000942294u

+ ··· + 1.20552u − 0.169703



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.0239601u

− 0.00841492u

+ ··· + 18.6490u − 3.90520

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 11u

+ ··· − 2u − 1)

, c

+ u

+ ··· + 2u + 1)

, c

+ u

+ ··· + 434u + 53

, c

+ 19u

+ ··· + 60600u − 5375

, c

− u

+ ··· − 2u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 27y

+ ··· − 22y −1)

, c

+ 11y

+ ··· − 2y −1)

, c

− 41y

+ ··· − 86596y + 2809

, c

− 21y

+ ··· − 1096015000y + 28890625

, c

+ 19y

+ ··· − 2y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.119514 + 1.003680I

a = −0.124946 + 0.339745I

b = 0.491471 + 1.162520I

−1.63653 − 7.02473I −10.39842 + 6.93954I

u = −0.119514 − 1.003680I

a = −0.124946 − 0.339745I

b = 0.491471 − 1.162520I

−1.63653 + 7.02473I −10.39842 − 6.93954I

u = 0.967240 + 0.057432I

a = 2.54114 − 12.61520I

b = 0.030366 − 1.049680I

1.36125 + 2.79178I −2.56555 − 3.12849I

u = 0.967240 − 0.057432I

a = 2.54114 + 12.61520I

b = 0.030366 + 1.049680I

1.36125 − 2.79178I −2.56555 + 3.12849I

u = −1.037220 + 0.046542I

a = −11.49130 − 3.57082I

b = 0.030366 − 1.049680I

1.36125 + 2.79178I −2.56555 − 3.12849I

u = −1.037220 − 0.046542I

a = −11.49130 + 3.57082I

b = 0.030366 + 1.049680I

1.36125 − 2.79178I −2.56555 + 3.12849I

u = 0.992816 + 0.307203I

a = −1.86835 + 0.59825I

b = 0.274169 + 0.754223I

−2.90212 − 1.21814I −7.56786 + 5.43737I

u = 0.992816 − 0.307203I

a = −1.86835 − 0.59825I

b = 0.274169 − 0.754223I

−2.90212 + 1.21814I −7.56786 − 5.43737I

u = 0.812668 + 0.700215I

a = −0.796936 + 1.003470I

b = 0.475306 + 0.917107I

−1.67002 − 2.07827I −8.00000 + 3.40333I

u = 0.812668 − 0.700215I

a = −0.796936 − 1.003470I

b = 0.475306 − 0.917107I

−1.67002 + 2.07827I −8.00000 − 3.40333I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.041410 + 0.270926I

a = −1.52455 + 0.29351I

b = 0.407102 − 1.144230I

−1.01725 + 1.14078I −8.93962 + 0.35223I

u = −1.041410 − 0.270926I

a = −1.52455 − 0.29351I

b = 0.407102 + 1.144230I

−1.01725 − 1.14078I −8.93962 − 0.35223I

u = 0.133172 + 0.888260I

a = −0.513616 + 0.654211I

b = 0.817305 + 0.125028I

1.19431 + 7.52211I −8.37393 − 5.45189I

u = 0.133172 − 0.888260I

a = −0.513616 − 0.654211I

b = 0.817305 − 0.125028I

1.19431 − 7.52211I −8.37393 + 5.45189I

u = −0.977207 + 0.510227I

a = 0.223970 − 0.121731I

b = 0.510838 + 0.446804I

−2.91461 − 1.90476I −11.61760 + 3.26312I

u = −0.977207 − 0.510227I

a = 0.223970 + 0.121731I

b = 0.510838 − 0.446804I

−2.91461 + 1.90476I −11.61760 − 3.26312I

u = −0.895460

a = 1.21237

b = −0.714433

−1.48735 −6.22320

u = −0.744917 + 0.469702I

a = −0.771318 − 0.328880I

b = 0.386425 + 1.221160I

5.25248 + 3.42594I −3.89028 − 2.22817I

u = −0.744917 − 0.469702I

a = −0.771318 + 0.328880I

b = 0.386425 − 1.221160I

5.25248 − 3.42594I −3.89028 + 2.22817I

u = 0.672202 + 0.568802I

a = 0.588099 − 0.277287I

b = −0.402291 + 1.220240I

5.91946 + 2.50696I −2.73890 − 2.94934I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.672202 − 0.568802I

a = 0.588099 + 0.277287I

b = −0.402291 − 1.220240I

5.91946 − 2.50696I −2.73890 + 2.94934I

u = 0.657413 + 0.573036I

a = 1.95056 − 0.17929I

b = −0.402291 − 1.220240I

5.91946 − 2.50696I −2.73890 + 2.94934I

u = 0.657413 − 0.573036I

a = 1.95056 + 0.17929I

b = −0.402291 + 1.220240I

5.91946 + 2.50696I −2.73890 − 2.94934I

u = 0.276214 + 0.810444I

a = 0.0549455 + 0.0810153I

b = −0.453184 + 1.179210I

1.83551 + 4.24996I −3.13542 − 3.77353I

u = 0.276214 − 0.810444I

a = 0.0549455 − 0.0810153I

b = −0.453184 − 1.179210I

1.83551 − 4.24996I −3.13542 + 3.77353I

u = −0.223135 + 0.814237I

a = 0.614394 + 0.692076I

b = −0.812555 + 0.099238I

1.97019 − 1.67857I −6.82266 + 0.36674I

u = −0.223135 − 0.814237I

a = 0.614394 − 0.692076I

b = −0.812555 − 0.099238I

1.97019 + 1.67857I −6.82266 − 0.36674I

u = 0.337448 + 1.122360I

a = 0.279152 + 0.257589I

b = −0.498606 + 1.204550I

5.23403 + 6.46046I 0

u = 0.337448 − 1.122360I

a = 0.279152 − 0.257589I

b = −0.498606 − 1.204550I

5.23403 − 6.46046I 0

u = −1.165920 + 0.188060I

a = 0.066157 − 1.277360I

b = 0.274169 + 0.754223I

−2.90212 − 1.21814I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.165920 − 0.188060I

a = 0.066157 + 1.277360I

b = 0.274169 − 0.754223I

−2.90212 + 1.21814I 0

u = 1.068030 + 0.544420I

a = 1.46092 + 0.01825I

b = −0.453184 − 1.179210I

1.83551 − 4.24996I 0

u = 1.068030 − 0.544420I

a = 1.46092 − 0.01825I

b = −0.453184 + 1.179210I

1.83551 + 4.24996I 0

u = −0.298459 + 1.176530I

a = −0.284974 + 0.293575I

b = 0.509525 + 1.201690I

4.37931 − 12.37660I 0

u = −0.298459 − 1.176530I

a = −0.284974 − 0.293575I

b = 0.509525 − 1.201690I

4.37931 + 12.37660I 0

u = −1.101900 + 0.519411I

a = 0.959687 + 0.178430I

b = −0.812555 − 0.099238I

1.97019 + 1.67857I 0

u = −1.101900 − 0.519411I

a = 0.959687 − 0.178430I

b = −0.812555 + 0.099238I

1.97019 − 1.67857I 0

u = 1.205300 + 0.207889I

a = −1.031590 + 0.049162I

b = 0.703066 − 0.147767I

−4.55305 − 2.51214I 0

u = 1.205300 − 0.207889I

a = −1.031590 − 0.049162I

b = 0.703066 + 0.147767I

−4.55305 + 2.51214I 0

u = −0.931544 + 0.800142I

a = 0.795980 + 0.807318I

b = −0.528952 + 0.892872I

−2.47115 + 7.33485I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.931544 − 0.800142I

a = 0.795980 − 0.807318I

b = −0.528952 − 0.892872I

−2.47115 − 7.33485I 0

u = −0.539710 + 0.522535I

a = −2.20446 − 0.19474I

b = 0.386425 − 1.221160I

5.25248 − 3.42594I −3.89028 + 2.22817I

u = −0.539710 − 0.522535I

a = −2.20446 + 0.19474I

b = 0.386425 + 1.221160I

5.25248 + 3.42594I −3.89028 − 2.22817I

u = −1.138700 + 0.596407I

a = 1.054870 + 0.623315I

b = −0.511218 + 0.765398I

−6.72846 + 2.09817I 0

u = −1.138700 − 0.596407I

a = 1.054870 − 0.623315I

b = −0.511218 − 0.765398I

−6.72846 − 2.09817I 0

u = 1.191760 + 0.514634I

a = −0.940468 + 0.144170I

b = 0.817305 − 0.125028I

1.19431 − 7.52211I 0

u = 1.191760 − 0.514634I

a = −0.940468 − 0.144170I

b = 0.817305 + 0.125028I

1.19431 + 7.52211I 0

u = 1.187310 + 0.528355I

a = 0.012010 − 0.274266I

b = −0.541549 + 0.582168I

−3.33212 − 3.00440I 0

u = 1.187310 − 0.528355I

a = 0.012010 + 0.274266I

b = −0.541549 − 0.582168I

−3.33212 + 3.00440I 0

u = 1.315410 + 0.197168I

a = −1.112060 + 0.162330I

b = 0.510838 + 0.446804I

−2.91461 − 1.90476I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.315410 − 0.197168I

a = −1.112060 − 0.162330I

b = 0.510838 − 0.446804I

−2.91461 + 1.90476I 0

u = −1.262910 + 0.569858I

a = −1.279310 + 0.022571I

b = 0.491471 − 1.162520I

−1.63653 + 7.02473I 0

u = −1.262910 − 0.569858I

a = −1.279310 − 0.022571I

b = 0.491471 + 1.162520I

−1.63653 − 7.02473I 0

u = −1.337050 + 0.368711I

a = 1.090190 + 0.311119I

b = −0.541549 + 0.582168I

−3.33212 − 3.00440I 0

u = −1.337050 − 0.368711I

a = 1.090190 − 0.311119I

b = −0.541549 − 0.582168I

−3.33212 + 3.00440I 0

u = −0.200762 + 0.571555I

a = 0.028580 + 0.953330I

b = 0.703066 + 0.147767I

−4.55305 + 2.51214I −14.0397 − 3.8785I

u = −0.200762 − 0.571555I

a = 0.028580 − 0.953330I

b = 0.703066 − 0.147767I

−4.55305 − 2.51214I −14.0397 + 3.8785I

u = 1.39235 + 0.32069I

a = 0.337466 − 0.509570I

b = −0.511218 + 0.765398I

−6.72846 + 2.09817I 0

u = 1.39235 − 0.32069I

a = 0.337466 + 0.509570I

b = −0.511218 − 0.765398I

−6.72846 − 2.09817I 0

u = −1.42930 + 0.06709I

a = −0.754539 − 0.588624I

b = 0.475306 + 0.917107I

−1.67002 − 2.07827I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.42930 − 0.06709I

a = −0.754539 + 0.588624I

b = 0.475306 − 0.917107I

−1.67002 + 2.07827I 0

u = 1.21033 + 0.76716I

a = 1.289950 − 0.141681I

b = −0.498606 − 1.204550I

5.23403 − 6.46046I 0

u = 1.21033 − 0.76716I

a = 1.289950 + 0.141681I

b = −0.498606 + 1.204550I

5.23403 + 6.46046I 0

u = −1.26708 + 0.77421I

a = −1.247750 − 0.134733I

b = 0.509525 − 1.201690I

4.37931 + 12.37660I 0

u = −1.26708 − 0.77421I

a = −1.247750 + 0.134733I

b = 0.509525 + 1.201690I

4.37931 − 12.37660I 0

u = −0.083030 + 0.485962I

a = 0.907222 − 0.069478I

b = 0.407102 + 1.144230I

−1.01725 − 1.14078I −8.93962 − 0.35223I

u = −0.083030 − 0.485962I

a = 0.907222 + 0.069478I

b = 0.407102 − 1.144230I

−1.01725 + 1.14078I −8.93962 + 0.35223I

u = 1.51967 + 0.13036I

a = 0.649262 − 0.463270I

b = −0.528952 + 0.892872I

−2.47115 + 7.33485I 0

u = 1.51967 − 0.13036I

a = 0.649262 + 0.463270I

b = −0.528952 − 0.892872I

−2.47115 − 7.33485I 0

u = −0.183629

a = 4.07848

b = −0.714433

−1.48735 −6.22320

III.

= h300a

+95a

+2260b+654a−1651, 25a

−40a

−98a

+64a+197, u+1i

(i) Arc colorings







−1





−0.132743a

− 0.0420354a

− 0.289381a + 0.730531





−1





0.254425a

− 0.190265a

− 1.07035a − 0.0460177

−0.0221239a

+ 0.201327a

+ 0.201770a − 0.919912





−1





−0.132743a

− 0.0420354a

+ 0.710619a + 0.730531

−0.132743a

− 0.0420354a

− 0.289381a + 0.730531





0.0221239a

− 0.201327a

− 0.201770a + 0.919912

0.276549a

+ 0.608407a

− 1.27212a − 1.12611





−0.254425a

− 0.809735a

+ 1.07035a + 2.04602

0.276549a

+ 0.608407a

− 1.27212a − 1.12611





0.121681a

− 0.232301a

− 0.359735a + 0.684513

−0.154867a

+ 0.159292a

− 0.0876106a − 0.189381





0.132743a

+ 0.0420354a

− 0.710619a − 0.730531

0.132743a

+ 0.0420354a

+ 0.289381a − 0.730531





−0.265487a

− 0.0840708a

+ 1.42124a + 0.461062

0.652655a

− 0.314159a

− 1.70221a − 0.987611



(ii) Obstruction class = 1

(iii) Cusp Shapes =

125

113

275

113

−

575

113

a −

2769

113

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 2u + 2)

, c

+ 2u

+ 2

, c

(u − 1)

, c

25(25u

− 40u

+ 12u

+ 4u + 1)

, c

(u + 1)

, c

− 2u

+ 2

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 4)

, c

+ 2y + 2)

, c

(y −1)

, c

625(625y

− 1000y

+ 514y

+ 8y + 1)

, c

− 2y + 2)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.00000

a = −1.229180 + 0.617389I

b = 1.098680 − 0.455090I

−5.75727 + 3.66386I −16.0000 − 4.0000I

u = −1.00000

a = −1.229180 − 0.617389I

b = 1.098680 + 0.455090I

−5.75727 − 3.66386I −16.0000 + 4.0000I

u = −1.00000

a = 2.02918 + 0.21739I

b = −1.098680 − 0.455090I

−5.75727 − 3.66386I −16.0000 + 4.0000I

u = −1.00000

a = 2.02918 − 0.21739I

b = −1.098680 + 0.455090I

−5.75727 + 3.66386I −16.0000 − 4.0000I

IV. I

= hb + u, 8a

+ 12a

u − 4a

− 4au − 2a + u, u

+ 1i

(i) Arc colorings











−u









+ au + 1

−au + 2









a − u

−u





−au

−1





au − 1

4au − 3





a + u





+ au + 1

−2au + 3





−2a

u + 2a

+ 2au + 3a +

−4a

u + 8a + 2u



(ii) Obstruction class = 1

(iii) Cusp Shapes = −16a

− 16au + 8a + 4u − 4

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 2u − 1)

, c

+ u

+ 2u

+ 1

, c

+ 1)

, c

64(64u

+ 64u

+ 128u

+ 80u

+ 44u

+ 8u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 3y

+ 2y −1)

, c

+ y

+ 2y + 1)

, c

(y + 1)

, c

4096(4096y

+ 12288y

+ 11776y

+ 3968y

+ 912y

+ 24y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.000000I

a = 0.107540 − 1.153570I

b = − 1.000000I

6.31400 + 2.82812I −0.49024 − 2.97945I

u = 1.000000I

a = 0.284920 − 0.500000I

b = − 1.000000I

2.17641 −7.01951 + 0.I

u = 1.000000I

a = 0.107540 + 0.153571I

b = − 1.000000I

6.31400 − 2.82812I −0.49024 + 2.97945I

u = − 1.000000I

a = 0.107540 + 1.153570I

b = 1.000000I

6.31400 − 2.82812I −0.49024 + 2.97945I

u = − 1.000000I

a = 0.284920 + 0.500000I

b = 1.000000I

2.17641 −7.01951 + 0.I

u = − 1.000000I

a = 0.107540 − 0.153571I

b = 1.000000I

6.31400 + 2.82812I −0.49024 − 2.97945I

V. I

= h−a

+ 8b + 2a + 3, a

+ 3a

+ 3a + 1, u − 1i

(i) Arc colorings











−

a −





−1





−

a +

a −









a −

−

a −





−

a +





−

a +





−

a +





a −

−

a −





a +

−

a −



(ii) Obstruction class = 1

(iii) Cusp Shapes = a

+ 2a − 11

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u + 1)

, c

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = −1.00000

b = 0

−3.28987 −12.0000

u = 1.00000

a = −1.00000

b = 0

−3.28987 −12.0000

u = 1.00000

a = −1.00000

b = 0

−3.28987 −12.0000

VI. u-Polynomials

Crossings u-Polynomials at each crossing

, c

− 2u + 2)

− u

+ 2u − 1)

+ 11u

+ ··· − 2u − 1)

· (u

+ 17u

+ ··· − 236u − 100)

, c

+ 2u

+ 2)(u

+ u

+ 2u

+ 1)(u

+ u

+ ··· + 2u + 1)

· (u

− 3u

+ ··· + 22u + 10)

, c

((u − 1)

)(u + 1)

+ 1)

+ u

+ ··· + 8u + 1)

· (u

+ u

+ ··· + 434u + 53)

, c

102400(u + 1)

(25u

− 40u

+ 12u

+ 4u + 1)

· (64u

+ 64u

+ 128u

+ 80u

+ 44u

+ 8u + 1)

· (64u

− 128u

+ ··· + 20u + 1)(u

+ 19u

+ ··· + 60600u − 5375)

, c

((u − 1)

)(u + 1)

+ 1)

+ u

+ ··· + 8u + 1)

· (u

+ u

+ ··· + 434u + 53)

, c

+ 1)

− 2u

+ 2)(u

− u

+ ··· − 2u + 1)

· (u

+ 3u

+ ··· + 186u + 50)

VII. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 4)

+ 3y

+ 2y −1)

+ 27y

+ ··· − 22y −1)

· (y

+ 33y

+ ··· − 115504y −10000)

, c

+ 2y + 2)

+ y

+ 2y + 1)

+ 11y

+ ··· − 2y −1)

· (y

+ 17y

+ ··· − 236y −100)

, c

((y −1)

)(y + 1)

− 15y

+ ··· − 16y −1)

· (y

− 41y

+ ··· − 86596y + 2809)

, c

10485760000(y −1)

(625y

− 1000y

+ 514y

+ 8y + 1)

· (4096y

+ 12288y

+ 11776y

+ 3968y

+ 912y

+ 24y + 1)

· (4096y

+ 73728y

+ ··· − 62y −1)

· (y

− 21y

+ ··· − 1096015000y + 28890625)

, c

(y + 1)

− 2y + 2)

+ 19y

+ ··· − 2y −1)

· (y

+ 21y

+ ··· − 112004y −2500)