12a

0456

(K12a

0456

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

4,11

5,9

1 8 7 10 3 2 6

, c

Ideals for irreducible components

of X

par

= h−2.53175 × 10

313

115

+ 2.92436 × 10

313

114

+ ··· + 2.25234 × 10

314

b + 8.23829 × 10

313

− 2.24989 × 10

314

115

+ 2.20110 × 10

314

114

+ ··· + 3.60375 × 10

315

a − 2.99578 × 10

315

116

+ 2u

115

+ ··· + 4u + 1i

= hb − 1, 3u

+ 2u

+ 16a + 7u + 11, u

− u

+ 3u

− 2u + 1i

* 2 irreducible components of dim

= 0, with total 120 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−2.53 × 10

313

115

+ 2.92 × 10

313

114

+ · · · + 2.25 × 10

314

b + 8.24 ×

313

, −2.25 × 10

314

115

+ 2.20 × 10

314

114

+ · · · + 3.60 × 10

315

a − 3.00 ×

315

, u

116

+ 2u

115

+ · · · + 4u + 1i

(i) Arc colorings















−u

+ u





0.0624320u

115

− 0.0610780u

114

+ ··· − 0.624844u + 0.831296

0.112405u

115

− 0.129836u

114

+ ··· − 3.13673u − 0.365765





−1.36566u

115

− 0.966684u

114

+ ··· − 0.101173u + 0.236304

−0.0575097u

115

+ 0.109899u

114

+ ··· + 3.11321u + 0.437787





−0.0499731u

115

+ 0.0687581u

114

+ ··· + 2.51188u + 1.19706

0.112405u

115

− 0.129836u

114

+ ··· − 3.13673u − 0.365765





0.376542u

115

+ 0.0535687u

114

+ ··· + 0.455051u + 0.877028

−0.313567u

115

− 1.13025u

114

+ ··· − 9.22734u − 2.08951





−0.0577405u

115

− 0.359290u

114

+ ··· − 2.23769u + 0.421032

0.277384u

115

+ 0.258423u

114

+ ··· − 1.17224u + 0.102366





1.10683u

115

+ 1.22497u

114

+ ··· + 5.46904u + 1.96029

−0.608411u

115

− 1.03975u

114

+ ··· − 1.36203u − 0.474932





−0.448108u

115

+ 1.00733u

114

+ ··· + 7.64578u + 1.31221

0.191247u

115

+ 0.929848u

114

+ ··· + 9.34460u + 2.37131





0.269740u

115

+ 0.274312u

114

+ ··· − 2.62641u − 1.27309

2.08463u

115

+ 3.62773u

114

+ ··· + 8.91773u + 0.133485



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4.00070u

115

− 9.56340u

114

+ ··· − 41.1381u − 13.7651

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

116

+ 38u

115

+ ··· − 2u + 1

, c

116

− 2u

115

+ ··· − u

+ 1

16(16u

116

− 117u

115

+ ··· − 5135u + 3001)

, c

116

+ 2u

115

+ ··· + 4u + 1

116

+ 10u

115

+ ··· + 1233680u + 97600

, c

116

+ 5u

115

+ ··· + 2505u + 256

116

+ 3u

115

+ ··· + 26496u + 4096

16(16u

116

+ 237u

115

+ ··· − 7715u + 289)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

116

+ 82y

115

+ ··· − 14y + 1

, c

116

+ 38y

115

+ ··· − 2y + 1

256(256y

116

+ 3815y

115

+ ··· − 5.95490 × 10

y + 9006001)

, c

116

− 62y

115

+ ··· − 2y + 1

116

+ 14y

115

+ ··· + 306040470400y + 9525760000

, c

116

− 67y

115

+ ··· − 938449y + 65536

116

− 27y

115

+ ··· + 438878208y + 16777216

256(256y

116

+ 14007y

115

+ ··· − 1.71712 × 10

y + 83521)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.932975 + 0.380055I

a = 0.50615 − 1.93295I

b = 1.18511 − 0.91051I

3.59446 − 4.25759I 0

u = 0.932975 − 0.380055I

a = 0.50615 + 1.93295I

b = 1.18511 + 0.91051I

3.59446 + 4.25759I 0

u = −0.942443 + 0.386528I

a = 0.48712 + 1.95718I

b = 1.16351 + 0.96120I

2.72521 + 9.87166I 0

u = −0.942443 − 0.386528I

a = 0.48712 − 1.95718I

b = 1.16351 − 0.96120I

2.72521 − 9.87166I 0

u = −1.015520 + 0.079924I

a = 2.86594 + 5.65897I

b = 0.943003 − 0.008732I

1.51330 − 0.01120I 0

u = −1.015520 − 0.079924I

a = 2.86594 − 5.65897I

b = 0.943003 + 0.008732I

1.51330 + 0.01120I 0

u = 0.921677 + 0.322581I

a = 0.47350 − 1.83013I

b = 1.102010 − 0.674058I

1.18239 − 2.90297I 0

u = 0.921677 − 0.322581I

a = 0.47350 + 1.83013I

b = 1.102010 + 0.674058I

1.18239 + 2.90297I 0

u = −0.966971 + 0.356693I

a = 0.42098 + 1.89144I

b = 0.991776 + 0.891367I

−2.25470 + 4.58566I 0

u = −0.966971 − 0.356693I

a = 0.42098 − 1.89144I

b = 0.991776 − 0.891367I

−2.25470 − 4.58566I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.025030 + 0.133441I

a = 2.16050 − 2.96069I

b = 0.820014 − 0.004042I

−3.74478 − 0.00361I 0

u = 1.025030 − 0.133441I

a = 2.16050 + 2.96069I

b = 0.820014 + 0.004042I

−3.74478 + 0.00361I 0

u = 1.032360 + 0.089616I

a = 3.52581 − 4.46017I

b = 0.924511 + 0.036679I

0.64084 + 5.41192I 0

u = 1.032360 − 0.089616I

a = 3.52581 + 4.46017I

b = 0.924511 − 0.036679I

0.64084 − 5.41192I 0

u = −0.933101 + 0.165578I

a = 0.15820 + 2.41425I

b = 0.963208 + 0.212678I

0.097528 + 0.717924I 0

u = −0.933101 − 0.165578I

a = 0.15820 − 2.41425I

b = 0.963208 − 0.212678I

0.097528 − 0.717924I 0

u = 1.040820 + 0.176639I

a = 1.70112 − 1.62243I

b = 0.587537 − 0.040637I

−0.10015 − 5.28988I 0

u = 1.040820 − 0.176639I

a = 1.70112 + 1.62243I

b = 0.587537 + 0.040637I

−0.10015 + 5.28988I 0

u = −1.051100 + 0.195133I

a = 1.13277 + 1.30258I

b = 0.433420 + 0.197090I

0.514456 + 0.135291I 0

u = −1.051100 − 0.195133I

a = 1.13277 − 1.30258I

b = 0.433420 − 0.197090I

0.514456 − 0.135291I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.168018 + 1.071190I

a = 0.338703 + 0.172300I

b = −1.151900 + 0.484030I

−1.45169 − 6.87895I 0

u = −0.168018 − 1.071190I

a = 0.338703 − 0.172300I

b = −1.151900 − 0.484030I

−1.45169 + 6.87895I 0

u = 0.837697 + 0.351028I

a = 0.63116 − 1.69354I

b = 1.40819 − 0.57266I

4.57854 − 2.68459I 0

u = 0.837697 − 0.351028I

a = 0.63116 + 1.69354I

b = 1.40819 + 0.57266I

4.57854 + 2.68459I 0

u = −0.133686 + 1.084940I

a = 0.288829 + 0.186794I

b = −1.250560 + 0.482907I

4.19362 − 13.02090I 0

u = −0.133686 − 1.084940I

a = 0.288829 − 0.186794I

b = −1.250560 − 0.482907I

4.19362 + 13.02090I 0

u = −0.255673 + 1.064880I

a = 0.403088 + 0.100874I

b = −1.002170 + 0.401779I

0.405726 − 0.191311I 0

u = −0.255673 − 1.064880I

a = 0.403088 − 0.100874I

b = −1.002170 − 0.401779I

0.405726 + 0.191311I 0

u = 0.139068 + 1.094320I

a = 0.288556 − 0.170981I

b = −1.242370 − 0.453261I

5.30484 + 7.16529I 0

u = 0.139068 − 1.094320I

a = 0.288556 + 0.170981I

b = −1.242370 + 0.453261I

5.30484 − 7.16529I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.064290 + 0.320997I

a = 0.25708 + 1.62401I

b = 0.484658 + 0.861383I

0.553410 − 0.120359I 0

u = −1.064290 − 0.320997I

a = 0.25708 − 1.62401I

b = 0.484658 − 0.861383I

0.553410 + 0.120359I 0

u = −0.815607 + 0.351086I

a = 0.66682 + 1.62768I

b = 1.45666 + 0.51569I

4.00667 − 2.83899I 0

u = −0.815607 − 0.351086I

a = 0.66682 − 1.62768I

b = 1.45666 − 0.51569I

4.00667 + 2.83899I 0

u = 0.197323 + 1.109430I

a = 0.334392 − 0.117534I

b = −1.125740 − 0.385168I

2.84490 + 4.28893I 0

u = 0.197323 − 1.109430I

a = 0.334392 + 0.117534I

b = −1.125740 + 0.385168I

2.84490 − 4.28893I 0

u = 1.108580 + 0.330328I

a = 0.07789 − 1.50159I

b = 0.268886 − 0.939607I

0.73853 − 5.21162I 0

u = 1.108580 − 0.330328I

a = 0.07789 + 1.50159I

b = 0.268886 + 0.939607I

0.73853 + 5.21162I 0

u = 1.030480 + 0.600228I

a = 0.787511 + 0.802602I

b = −0.629673 + 0.394217I

−1.91929 + 4.20741I 0

u = 1.030480 − 0.600228I

a = 0.787511 − 0.802602I

b = −0.629673 − 0.394217I

−1.91929 − 4.20741I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.033930 + 0.672720I

a = 0.632515 − 0.738424I

b = −0.713327 − 0.320995I

−0.60389 + 1.31728I 0

u = −1.033930 − 0.672720I

a = 0.632515 + 0.738424I

b = −0.713327 + 0.320995I

−0.60389 − 1.31728I 0

u = −0.712038 + 0.268205I

a = 0.544099 + 1.124880I

b = 1.41778 + 0.18424I

−0.13211 + 1.45451I −1.69686 − 4.01852I

u = −0.712038 − 0.268205I

a = 0.544099 − 1.124880I

b = 1.41778 − 0.18424I

−0.13211 − 1.45451I −1.69686 + 4.01852I

u = 0.239199 + 0.710424I

a = 0.779803 − 0.124579I

b = −0.398169 − 0.538145I

−1.17035 + 3.60756I −3.17763 − 3.80286I

u = 0.239199 − 0.710424I

a = 0.779803 + 0.124579I

b = −0.398169 + 0.538145I

−1.17035 − 3.60756I −3.17763 + 3.80286I

u = 1.190100 + 0.393431I

a = −0.50179 − 1.42134I

b = −0.195049 − 1.264670I

−1.98641 − 6.48143I 0

u = 1.190100 − 0.393431I

a = −0.50179 + 1.42134I

b = −0.195049 + 1.264670I

−1.98641 + 6.48143I 0

u = 1.205200 + 0.360020I

a = −0.401169 − 1.223780I

b = −0.236390 − 1.062780I

−3.83829 − 4.36811I 0

u = 1.205200 − 0.360020I

a = −0.401169 + 1.223780I

b = −0.236390 + 1.062780I

−3.83829 + 4.36811I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.193840 + 0.399946I

a = −0.54952 + 1.42991I

b = −0.225922 + 1.298760I

−3.05221 + 12.12590I 0

u = −1.193840 − 0.399946I

a = −0.54952 − 1.42991I

b = −0.225922 − 1.298760I

−3.05221 − 12.12590I 0

u = −1.211410 + 0.388213I

a = −0.559229 + 1.294670I

b = −0.310138 + 1.203680I

−8.10394 + 6.21848I 0

u = −1.211410 − 0.388213I

a = −0.559229 − 1.294670I

b = −0.310138 − 1.203680I

−8.10394 − 6.21848I 0

u = 1.133830 + 0.616400I

a = 0.594258 + 1.041120I

b = −0.797894 + 0.496771I

−6.67592 − 2.20639I 0

u = 1.133830 − 0.616400I

a = 0.594258 − 1.041120I

b = −0.797894 − 0.496771I

−6.67592 + 2.20639I 0

u = −1.238500 + 0.366883I

a = −0.541186 + 1.087490I

b = −0.411510 + 1.043980I

−5.39668 + 0.15552I 0

u = −1.238500 − 0.366883I

a = −0.541186 − 1.087490I

b = −0.411510 − 1.043980I

−5.39668 − 0.15552I 0

u = −0.619178 + 0.338799I

a = 0.942625 + 0.930733I

b = 1.57822 + 0.02039I

4.51489 + 6.13738I 5.17778 − 7.54514I

u = −0.619178 − 0.338799I

a = 0.942625 − 0.930733I

b = 1.57822 − 0.02039I

4.51489 − 6.13738I 5.17778 + 7.54514I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.593224 + 0.328294I

a = 0.945133 − 0.834395I

b = 1.54650 + 0.02847I

5.21239 − 0.58460I 6.91499 + 2.03694I

u = 0.593224 − 0.328294I

a = 0.945133 + 0.834395I

b = 1.54650 − 0.02847I

5.21239 + 0.58460I 6.91499 − 2.03694I

u = 1.287070 + 0.320286I

a = −0.445671 − 0.757330I

b = −0.517943 − 0.762187I

−4.95775 − 3.95723I 0

u = 1.287070 − 0.320286I

a = −0.445671 + 0.757330I

b = −0.517943 + 0.762187I

−4.95775 + 3.95723I 0

u = −1.314910 + 0.223822I

a = −0.192367 + 0.486790I

b = −0.469371 + 0.450322I

−3.07974 + 0.33761I 0

u = −1.314910 − 0.223822I

a = −0.192367 − 0.486790I

b = −0.469371 − 0.450322I

−3.07974 − 0.33761I 0

u = 0.107181 + 0.653140I

a = 0.906215 − 0.203840I

b = −0.147931 − 0.713160I

−4.33398 − 2.39690I −5.75709 + 3.17963I

u = 0.107181 − 0.653140I

a = 0.906215 + 0.203840I

b = −0.147931 + 0.713160I

−4.33398 + 2.39690I −5.75709 − 3.17963I

u = 0.178790 + 1.338570I

a = 0.266652 − 0.006836I

b = −1.120380 − 0.115989I

8.74835 + 3.17154I 0

u = 0.178790 − 1.338570I

a = 0.266652 + 0.006836I

b = −1.120380 + 0.115989I

8.74835 − 3.17154I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.206210 + 0.613574I

a = 0.384852 + 1.227350I

b = −0.959000 + 0.561231I

−3.65725 − 8.87599I 0

u = 1.206210 − 0.613574I

a = 0.384852 − 1.227350I

b = −0.959000 − 0.561231I

−3.65725 + 8.87599I 0

u = 0.033600 + 0.642239I

a = 0.985142 − 0.244254I

b = 0.011037 − 0.835334I

0.46430 − 8.24496I 0.50974 + 7.18818I

u = 0.033600 − 0.642239I

a = 0.985142 + 0.244254I

b = 0.011037 + 0.835334I

0.46430 + 8.24496I 0.50974 − 7.18818I

u = −1.193650 + 0.658691I

a = 0.345947 − 1.049920I

b = −0.944344 − 0.451052I

−1.78250 + 4.18645I 0

u = −1.193650 − 0.658691I

a = 0.345947 + 1.049920I

b = −0.944344 + 0.451052I

−1.78250 − 4.18645I 0

u = −0.034663 + 0.616794I

a = 0.998131 + 0.215645I

b = 0.056574 + 0.777691I

1.50714 + 2.68871I 2.49575 − 2.58539I

u = −0.034663 − 0.616794I

a = 0.998131 − 0.215645I

b = 0.056574 − 0.777691I

1.50714 − 2.68871I 2.49575 + 2.58539I

u = −0.340191 + 0.489590I

a = 0.901844 − 0.007398I

b = −0.213986 + 0.244163I

0.011500 + 1.083370I −2.30792 − 3.75059I

u = −0.340191 − 0.489590I

a = 0.901844 + 0.007398I

b = −0.213986 − 0.244163I

0.011500 − 1.083370I −2.30792 + 3.75059I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.275660 + 0.593237I

a = 0.06995 − 1.46230I

b = −1.192240 − 0.626878I

−2.86858 + 6.11454I 0

u = −1.275660 − 0.593237I

a = 0.06995 + 1.46230I

b = −1.192240 + 0.626878I

−2.86858 − 6.11454I 0

u = 1.381390 + 0.301986I

a = −0.486626 − 0.402298I

b = −0.726966 − 0.529704I

−6.88096 + 1.98077I 0

u = 1.381390 − 0.301986I

a = −0.486626 + 0.402298I

b = −0.726966 + 0.529704I

−6.88096 − 1.98077I 0

u = −1.29250 + 0.58088I

a = −0.03961 − 1.57216I

b = −1.28137 − 0.66517I

−4.98176 + 12.74390I 0

u = −1.29250 − 0.58088I

a = −0.03961 + 1.57216I

b = −1.28137 + 0.66517I

−4.98176 − 12.74390I 0

u = 1.29226 + 0.59404I

a = −0.04653 + 1.47058I

b = −1.261460 + 0.604557I

−0.62576 − 10.29630I 0

u = 1.29226 − 0.59404I

a = −0.04653 − 1.47058I

b = −1.261460 − 0.604557I

−0.62576 + 10.29630I 0

u = −1.30349 + 0.57782I

a = −0.13130 − 1.60635I

b = −1.34309 − 0.66340I

0.5378 + 18.9008I 0

u = −1.30349 − 0.57782I

a = −0.13130 + 1.60635I

b = −1.34309 + 0.66340I

0.5378 − 18.9008I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.30373 + 0.58142I

a = −0.13459 + 1.57454I

b = −1.33738 + 0.64400I

1.66025 − 13.08200I 0

u = 1.30373 − 0.58142I

a = −0.13459 − 1.57454I

b = −1.33738 − 0.64400I

1.66025 + 13.08200I 0

u = −0.386795 + 0.388376I

a = 1.229680 + 0.337965I

b = 1.35766 − 0.42189I

4.14545 − 6.42366I 5.06027 + 4.33078I

u = −0.386795 − 0.388376I

a = 1.229680 − 0.337965I

b = 1.35766 + 0.42189I

4.14545 + 6.42366I 5.06027 − 4.33078I

u = 0.405228 + 0.367597I

a = 1.185670 − 0.375547I

b = 1.37406 + 0.36367I

4.93612 + 0.86391I 6.86019 + 1.04991I

u = 0.405228 − 0.367597I

a = 1.185670 + 0.375547I

b = 1.37406 − 0.36367I

4.93612 − 0.86391I 6.86019 − 1.04991I

u = 1.31376 + 0.62961I

a = −0.158778 + 1.224320I

b = −1.266390 + 0.437367I

5.12704 − 9.72281I 0

u = 1.31376 − 0.62961I

a = −0.158778 − 1.224320I

b = −1.266390 − 0.437367I

5.12704 + 9.72281I 0

u = −1.31432 + 0.64276I

a = −0.140832 − 1.155560I

b = −1.239700 − 0.403441I

5.00542 + 3.74494I 0

u = −1.31432 − 0.64276I

a = −0.140832 + 1.155560I

b = −1.239700 + 0.403441I

5.00542 − 3.74494I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.26974 + 1.46073I

a = 0.262189 − 0.026077I

b = −1.054360 + 0.082304I

8.58527 + 3.04895I 0

u = −0.26974 − 1.46073I

a = 0.262189 + 0.026077I

b = −1.054360 − 0.082304I

8.58527 − 3.04895I 0

u = 1.46981 + 0.32497I

a = −0.532496 − 0.175783I

b = −0.886516 − 0.390567I

−1.19925 + 7.69678I 0

u = 1.46981 − 0.32497I

a = −0.532496 + 0.175783I

b = −0.886516 + 0.390567I

−1.19925 − 7.69678I 0

u = 0.459714 + 0.168334I

a = 0.786644 − 0.302575I

b = 1.281580 + 0.086509I

2.35130 + 0.01962I 6.92796 + 1.30693I

u = 0.459714 − 0.168334I

a = 0.786644 + 0.302575I

b = 1.281580 − 0.086509I

2.35130 − 0.01962I 6.92796 − 1.30693I

u = −0.162843 + 0.460600I

a = 0.963740 + 0.056991I

b = −0.004343 + 0.338203I

−0.011505 + 1.030340I 0.09970 − 5.57726I

u = −0.162843 − 0.460600I

a = 0.963740 − 0.056991I

b = −0.004343 − 0.338203I

−0.011505 − 1.030340I 0.09970 + 5.57726I

u = −1.48354 + 0.29138I

a = −0.463830 + 0.164782I

b = −0.843739 + 0.340266I

−0.22909 − 1.82469I 0

u = −1.48354 − 0.29138I

a = −0.463830 − 0.164782I

b = −0.843739 − 0.340266I

−0.22909 + 1.82469I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.163731 + 0.440161I

a = 1.185900 − 0.001397I

b = 0.819743 − 0.557047I

2.94920 + 3.29370I 5.18784 − 3.60846I

u = −0.163731 − 0.440161I

a = 1.185900 + 0.001397I

b = 0.819743 + 0.557047I

2.94920 − 3.29370I 5.18784 + 3.60846I

u = 0.116072 + 0.451977I

a = 1.153390 + 0.040725I

b = 0.680537 + 0.544028I

3.42477 + 2.02673I 6.58023 − 3.04514I

u = 0.116072 − 0.451977I

a = 1.153390 − 0.040725I

b = 0.680537 − 0.544028I

3.42477 − 2.02673I 6.58023 + 3.04514I

u = −0.291018 + 0.355390I

a = 1.161280 + 0.179300I

b = 1.145130 − 0.402487I

−0.58774 − 1.37393I −0.877677 + 0.764145I

u = −0.291018 − 0.355390I

a = 1.161280 − 0.179300I

b = 1.145130 + 0.402487I

−0.58774 + 1.37393I −0.877677 − 0.764145I

II. I

= hb − 1, 3u

+ 2u

+ 16a + 7u + 11, u

− u

+ 3u

− 2u + 1i

(i) Arc colorings















−u

+ u





−

u −





0.347656u

+ 0.0234375u

+ 0.832031u + 1.31641

−

u −





−

u −





−0.347656u

− 1.02344u

− 0.832031u − 1.31641

−0.812500u

+ 3.12500u

− 1.56250u + 1.68750





−

u −





0.371094u

− 0.210938u

+ 1.01172u − 0.347656

−

u +





0.507813u

− 0.0781250u

+ 1.22656u + 0.945313

−

u −





−1.37109u

+ 0.210938u

− 3.01172u + 0.347656

u +



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

631

256

1427

128

−

187

256

u +

1025

256

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 3u

− 2u + 1

− u

+ u

+ 1

16(16u

− 5u

+ 8u

− u + 1)

+ u

+ 3u

+ 2u + 1

+ u

+ 1

− 5u

+ 7u

− 2u + 1

(u + 1)

(u − 1)

16(16u

− 35u

+ 28u

− 9u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 5y

+ 7y

+ 2y + 1

, c

+ y

+ 3y

+ 2y + 1

256(256y

+ 231y

+ 86y

+ 15y + 1)

− 11y

+ 31y

+ 10y + 1

, c

(y −1)

256(256y

− 329y

+ 186y

− 25y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.395123 + 0.506844I

a = −0.802241 − 0.291908I

b = 1.00000

1.43393 − 1.41510I 3.19039 + 3.83087I

u = 0.395123 − 0.506844I

a = −0.802241 + 0.291908I

b = 1.00000

1.43393 + 1.41510I 3.19039 − 3.83087I

u = 0.10488 + 1.55249I

a = −0.291509 − 0.027926I

b = 1.00000

8.43568 − 3.16396I −20.9541 + 11.5932I

u = 0.10488 − 1.55249I

a = −0.291509 + 0.027926I

b = 1.00000

8.43568 + 3.16396I −20.9541 − 11.5932I

III. u-Polynomials

Crossings u-Polynomials at each crossing

, c

− u

+ 3u

− 2u + 1)(u

116

+ 38u

115

+ ··· − 2u + 1)

− u

+ u

+ 1)(u

116

− 2u

115

+ ··· − u

+ 1)

256(16u

− 5u

+ ··· − u + 1)(16u

116

− 117u

115

+ ··· − 5135u + 3001)

+ u

+ 3u

+ 2u + 1)(u

116

+ 2u

115

+ ··· + 4u + 1)

+ u

+ 1)(u

116

− 2u

115

+ ··· − u

+ 1)

− 5u

+ 7u

− 2u + 1)(u

116

+ 10u

115

+ ··· + 1233680u + 97600)

((u + 1)

)(u

116

+ 5u

115

+ ··· + 2505u + 256)

116

+ 3u

115

+ ··· + 26496u + 4096)

((u − 1)

)(u

116

+ 5u

115

+ ··· + 2505u + 256)

− u

+ 3u

− 2u + 1)(u

116

+ 2u

115

+ ··· + 4u + 1)

256(16u

− 35u

+ 28u

− 9u + 1)

· (16u

116

+ 237u

115

+ ··· − 7715u + 289)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 5y

+ 7y

+ 2y + 1)(y

116

+ 82y

115

+ ··· − 14y + 1)

, c

+ y

+ 3y

+ 2y + 1)(y

116

+ 38y

115

+ ··· − 2y + 1)

65536(256y

+ 231y

+ 86y

+ 15y + 1)

· (256y

116

+ 3815y

115

+ ··· − 595489869y + 9006001)

, c

+ 5y

+ 7y

+ 2y + 1)(y

116

− 62y

115

+ ··· − 2y + 1)

− 11y

+ 31y

+ 10y + 1)

· (y

116

+ 14y

115

+ ··· + 306040470400y + 9525760000)

, c

((y −1)

)(y

116

− 67y

115

+ ··· − 938449y + 65536)

116

− 27y

115

+ ··· + 4.38878 × 10

y + 1.67772 × 10

)

65536(256y

− 329y

+ 186y

− 25y + 1)

· (256y

116

+ 14007y

115

+ ··· − 17171165y + 83521)