12a

0224

(K12a

0224

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

5,8

10,12

1 4 7 3 11 6 2

, c

Ideals for irreducible components

of X

par

= h5.54139 × 10

211

118

− 1.77953 × 10

212

117

+ ··· + 1.16640 × 10

212

b + 2.45569 × 10

210

1.48602 × 10

212

118

− 2.52384 × 10

212

117

+ ··· + 1.16640 × 10

212

a − 2.66943 × 10

212

, u

119

− 2u

118

+ ··· + 4u − 1i

= h−2u

− 10u

+ 13b − 7u − 19, −7u

− 9u

+ 13a − 18u − 21, u

+ u

+ 3u

+ 2u + 1i

* 2 irreducible components of dim

= 0, with total 123 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

= h5.54 × 10

211

118

− 1.78 × 10

212

117

+ · · · + 1.17 × 10

212

b + 2.46 ×

210

, 1.49 × 10

212

118

− 2.52 × 10

212

117

+ · · · + 1.17 × 10

212

a − 2.67 ×

212

, u

119

− 2u

118

+ · · · + 4u − 1i

(i) Arc colorings















+ 1





−1.27402u

118

+ 2.16379u

117

+ ··· + 3.90194u + 2.28861

−0.475087u

118

+ 1.52566u

117

+ ··· + 3.68582u − 0.0210536





−1.05425u

118

+ 1.73753u

117

+ ··· + 2.83349u + 1.51971

−0.511788u

118

+ 1.44255u

117

+ ··· + 3.26316u + 0.148729





+ u





5.78938u

118

− 9.05492u

117

+ ··· − 16.0766u + 1.50354

2.96804u

118

− 7.67244u

117

+ ··· − 18.0668u + 4.40843





0.800386u

118

− 0.654146u

117

+ ··· − 2.68625u + 1.50085

1.52874u

118

− 2.03781u

117

+ ··· − 4.20547u + 1.56993





−1.24679u

118

+ 2.17866u

117

+ ··· + 4.01135u + 2.22723

−0.409852u

118

+ 1.43273u

117

+ ··· + 3.54515u − 0.0131086





−4.27793u

118

+ 6.86729u

117

+ ··· + 26.0602u − 4.12891

−2.27112u

118

+ 6.74915u

117

+ ··· + 21.1757u − 5.07591





0.0164683u

118

+ 0.631381u

117

+ ··· + 3.64517u + 0.716005

−0.625567u

118

+ 1.59469u

117

+ ··· + 0.143061u + 0.960630



(ii) Obstruction class = −1

(iii) Cusp Shapes = 8.20464u

118

− 9.79230u

117

+ ··· − 12.0561u − 5.30921

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

119

+ 60u

118

+ ··· − 4u − 1

, c

119

− 2u

118

+ ··· + 2u − 1

119

+ 2u

118

+ ··· − 391360u − 162248

, c

119

+ 2u

118

+ ··· + 4u + 1

13(13u

119

+ 45u

118

+ ··· − 9.53716 × 10

u + 8.13301 × 10

)

13(13u

119

+ 72u

118

+ ··· + 3.83586 × 10

u + 1.67631 × 10

)

119

− 48u

118

+ ··· − 4u + 1

, c

119

− 5u

118

+ ··· + 4638u + 169

119

− 5u

118

+ ··· − 3016u + 2704

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

119

+ 120y

117

+ ··· + 8y −1

, c

119

+ 60y

118

+ ··· − 4y −1

119

− 60y

118

+ ··· − 1006938781552y −26324413504

, c

119

+ 48y

118

+ ··· − 4y −1

169(169y

119

+ 20465y

118

+ ··· − 3.94300 × 10

y −6.61458 × 10

)

169

· (169y

119

+ 1134y

118

+ ··· + 560619390409464y −281003063817316)

119

+ 48y

118

+ ··· − 112y −1

, c

119

− 93y

118

+ ··· + 1876286y −28561

119

+ 27y

118

+ ··· − 531184576y −7311616

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.539418 + 0.840998I

a = −1.41285 − 3.92453I

b = 2.86930 − 3.88516I

−1.82418 − 1.97603I 0

u = 0.539418 − 0.840998I

a = −1.41285 + 3.92453I

b = 2.86930 + 3.88516I

−1.82418 + 1.97603I 0

u = 0.046971 + 1.018560I

a = −0.028457 − 0.767848I

b = −0.679310 + 1.026440I

0.75162 + 6.45433I 0

u = 0.046971 − 1.018560I

a = −0.028457 + 0.767848I

b = −0.679310 − 1.026440I

0.75162 − 6.45433I 0

u = −0.078413 + 1.020000I

a = 0.003241 + 0.649226I

b = −0.534367 − 0.951411I

3.26046 − 1.73121I 0

u = −0.078413 − 1.020000I

a = 0.003241 − 0.649226I

b = −0.534367 + 0.951411I

3.26046 + 1.73121I 0

u = −0.659946 + 0.783354I

a = 1.283510 − 0.311392I

b = 0.969241 + 0.277435I

−5.03562 + 0.41103I 0

u = −0.659946 − 0.783354I

a = 1.283510 + 0.311392I

b = 0.969241 − 0.277435I

−5.03562 − 0.41103I 0

u = 0.673685 + 0.775129I

a = 1.55336 + 0.38532I

b = 1.037470 − 0.181769I

−8.13975 + 3.86403I 0

u = 0.673685 − 0.775129I

a = 1.55336 − 0.38532I

b = 1.037470 + 0.181769I

−8.13975 − 3.86403I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.671736 + 0.796619I

a = 1.240250 + 0.644710I

b = 0.855354 − 0.170542I

−8.40527 − 4.37677I 0

u = 0.671736 − 0.796619I

a = 1.240250 − 0.644710I

b = 0.855354 + 0.170542I

−8.40527 + 4.37677I 0

u = −0.608259 + 0.726692I

a = 1.55701 + 0.53379I

b = 1.251790 + 0.275028I

−3.42582 − 0.69701I 0

u = −0.608259 − 0.726692I

a = 1.55701 − 0.53379I

b = 1.251790 − 0.275028I

−3.42582 + 0.69701I 0

u = 0.559945 + 0.891958I

a = −2.93671 + 0.94418I

b = −1.96748 − 2.48153I

−1.62898 − 2.41378I 0

u = 0.559945 − 0.891958I

a = −2.93671 − 0.94418I

b = −1.96748 + 2.48153I

−1.62898 + 2.41378I 0

u = −0.633152 + 0.845568I

a = −0.148666 − 0.555779I

b = 0.252806 + 0.751615I

−4.67693 + 2.47706I 0

u = −0.633152 − 0.845568I

a = −0.148666 + 0.555779I

b = 0.252806 − 0.751615I

−4.67693 − 2.47706I 0

u = −0.446454 + 0.824660I

a = 5.44391 − 1.11040I

b = 1.60652 − 4.51876I

−4.00299 − 1.55704I 0

u = −0.446454 − 0.824660I

a = 5.44391 + 1.11040I

b = 1.60652 + 4.51876I

−4.00299 + 1.55704I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.069950 + 0.934961I

a = 0.312469 − 0.726574I

b = −0.673000 + 0.632241I

−0.626086 − 1.186890I 0

u = 0.069950 − 0.934961I

a = 0.312469 + 0.726574I

b = −0.673000 − 0.632241I

−0.626086 + 1.186890I 0

u = 0.917495 + 0.542434I

a = −1.25859 + 0.96564I

b = −1.49694 + 0.80766I

−9.6630 + 13.1992I 0

u = 0.917495 − 0.542434I

a = −1.25859 − 0.96564I

b = −1.49694 − 0.80766I

−9.6630 − 13.1992I 0

u = −0.922448 + 0.546566I

a = −1.17166 − 0.90511I

b = −1.42673 − 0.77297I

−6.80262 − 7.99479I 0

u = −0.922448 − 0.546566I

a = −1.17166 + 0.90511I

b = −1.42673 + 0.77297I

−6.80262 + 7.99479I 0

u = 0.930348 + 0.539182I

a = −1.22943 + 0.74279I

b = −1.45164 + 0.64689I

−11.52010 + 4.26179I 0

u = 0.930348 − 0.539182I

a = −1.22943 − 0.74279I

b = −1.45164 − 0.64689I

−11.52010 − 4.26179I 0

u = −0.974458 + 0.464052I

a = −0.767249 + 0.225407I

b = −1.016070 + 0.066000I

−9.08388 + 8.22471I 0

u = −0.974458 − 0.464052I

a = −0.767249 − 0.225407I

b = −1.016070 − 0.066000I

−9.08388 − 8.22471I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.550074 + 0.933763I

a = 0.14546 − 1.56145I

b = −1.17975 − 0.97383I

−2.72220 − 1.73214I 0

u = −0.550074 − 0.933763I

a = 0.14546 + 1.56145I

b = −1.17975 + 0.97383I

−2.72220 + 1.73214I 0

u = −0.551834 + 0.943079I

a = −0.79925 − 2.16152I

b = −2.09153 − 0.35978I

−3.33941 + 5.68580I 0

u = −0.551834 − 0.943079I

a = −0.79925 + 2.16152I

b = −2.09153 + 0.35978I

−3.33941 − 5.68580I 0

u = 0.659514 + 0.622337I

a = 1.72648 − 0.86511I

b = 0.923703 − 0.477948I

−5.12870 − 0.71737I 0

u = 0.659514 − 0.622337I

a = 1.72648 + 0.86511I

b = 0.923703 + 0.477948I

−5.12870 + 0.71737I 0

u = 0.533310 + 0.955795I

a = −0.355768 + 1.171140I

b = −1.059370 + 0.421671I

−0.16207 − 2.47699I 0

u = 0.533310 − 0.955795I

a = −0.355768 − 1.171140I

b = −1.059370 − 0.421671I

−0.16207 + 2.47699I 0

u = −0.973549 + 0.502306I

a = −0.925732 − 0.061551I

b = −1.155010 − 0.152766I

−11.15970 − 0.90036I 0

u = −0.973549 − 0.502306I

a = −0.925732 + 0.061551I

b = −1.155010 + 0.152766I

−11.15970 + 0.90036I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.130607 + 1.092120I

a = −0.134163 + 0.411423I

b = −0.144643 − 0.954492I

4.94213 − 0.22183I 0

u = −0.130607 − 1.092120I

a = −0.134163 − 0.411423I

b = −0.144643 + 0.954492I

4.94213 + 0.22183I 0

u = 0.682031 + 0.587060I

a = 1.59450 − 1.08081I

b = 0.774323 − 0.632613I

−4.10775 + 7.30854I 0

u = 0.682031 − 0.587060I

a = 1.59450 + 1.08081I

b = 0.774323 + 0.632613I

−4.10775 − 7.30854I 0

u = 0.994202 + 0.476764I

a = −0.713312 − 0.073664I

b = −0.978129 + 0.056427I

−6.20252 − 2.86568I 0

u = 0.994202 − 0.476764I

a = −0.713312 + 0.073664I

b = −0.978129 − 0.056427I

−6.20252 + 2.86568I 0

u = −0.948881 + 0.578795I

a = −0.737186 − 0.750921I

b = −1.083840 − 0.714353I

−3.26565 − 5.72258I 0

u = −0.948881 − 0.578795I

a = −0.737186 + 0.750921I

b = −1.083840 + 0.714353I

−3.26565 + 5.72258I 0

u = 0.663407 + 0.892584I

a = −0.70152 + 1.69641I

b = −0.523674 − 0.243591I

−8.11332 − 0.79069I 0

u = 0.663407 − 0.892584I

a = −0.70152 − 1.69641I

b = −0.523674 + 0.243591I

−8.11332 + 0.79069I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.653196 + 0.902505I

a = −0.96221 − 1.58214I

b = −0.673782 + 0.386392I

−4.67219 + 4.69161I 0

u = −0.653196 − 0.902505I

a = −0.96221 + 1.58214I

b = −0.673782 − 0.386392I

−4.67219 − 4.69161I 0

u = −0.613693 + 0.933505I

a = −1.46824 − 1.31363I

b = −1.142650 + 0.651183I

−2.79223 + 5.53654I 0

u = −0.613693 − 0.933505I

a = −1.46824 + 1.31363I

b = −1.142650 − 0.651183I

−2.79223 − 5.53654I 0

u = −0.658134 + 0.582283I

a = 1.52930 + 0.95183I

b = 0.732852 + 0.515230I

−1.37744 − 2.68961I 0

u = −0.658134 − 0.582283I

a = 1.52930 − 0.95183I

b = 0.732852 − 0.515230I

−1.37744 + 2.68961I 0

u = 0.662513 + 0.909459I

a = −1.03375 + 1.78951I

b = −0.765897 − 0.257992I

−7.73252 − 9.03670I 0

u = 0.662513 − 0.909459I

a = −1.03375 − 1.78951I

b = −0.765897 + 0.257992I

−7.73252 + 9.03670I 0

u = 0.987963 + 0.581470I

a = −0.596782 + 0.532091I

b = −0.940516 + 0.566068I

−2.98815 + 0.27290I 0

u = 0.987963 − 0.581470I

a = −0.596782 − 0.532091I

b = −0.940516 − 0.566068I

−2.98815 − 0.27290I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.351471 + 0.773470I

a = 2.58714 − 1.56388I

b = −0.30248 − 2.06274I

−3.60723 + 5.96757I 0

u = −0.351471 − 0.773470I

a = 2.58714 + 1.56388I

b = −0.30248 + 2.06274I

−3.60723 − 5.96757I 0

u = 0.153792 + 1.146450I

a = −0.197319 − 0.303202I

b = 0.084898 + 0.871312I

4.36424 − 4.50432I 0

u = 0.153792 − 1.146450I

a = −0.197319 + 0.303202I

b = 0.084898 − 0.871312I

4.36424 + 4.50432I 0

u = 0.428182 + 0.707297I

a = 2.25893 + 0.55909I

b = 0.55178 + 1.36307I

−1.00838 − 1.74591I 0

u = 0.428182 − 0.707297I

a = 2.25893 − 0.55909I

b = 0.55178 − 1.36307I

−1.00838 + 1.74591I 0

u = 0.364581 + 0.735982I

a = 0.980469 + 0.160216I

b = −0.057859 + 0.579273I

0.01215 − 1.54922I 0

u = 0.364581 − 0.735982I

a = 0.980469 − 0.160216I

b = −0.057859 − 0.579273I

0.01215 + 1.54922I 0

u = 0.630700 + 0.997407I

a = −1.87823 + 0.89275I

b = −1.085260 − 0.620294I

−4.02362 − 4.33336I 0

u = 0.630700 − 0.997407I

a = −1.87823 − 0.89275I

b = −1.085260 + 0.620294I

−4.02362 + 4.33336I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.570892 + 1.041270I

a = −1.090840 + 0.298866I

b = −0.607006 − 0.322725I

1.77634 − 2.48623I 0

u = 0.570892 − 1.041270I

a = −1.090840 − 0.298866I

b = −0.607006 + 0.322725I

1.77634 + 2.48623I 0

u = −0.626255 + 1.012710I

a = −1.85586 − 0.63971I

b = −0.977706 + 0.667269I

−0.12752 + 7.72535I 0

u = −0.626255 − 1.012710I

a = −1.85586 + 0.63971I

b = −0.977706 − 0.667269I

−0.12752 − 7.72535I 0

u = −0.599316 + 1.030510I

a = −1.45023 − 0.37860I

b = −0.747793 + 0.523187I

1.99991 + 6.77961I 0

u = −0.599316 − 1.030510I

a = −1.45023 + 0.37860I

b = −0.747793 − 0.523187I

1.99991 − 6.77961I 0

u = 0.635102 + 1.014540I

a = −2.01018 + 0.62700I

b = −1.012350 − 0.736958I

−2.86181 − 12.42930I 0

u = 0.635102 − 1.014540I

a = −2.01018 − 0.62700I

b = −1.012350 + 0.736958I

−2.86181 + 12.42930I 0

u = −0.608097 + 0.485373I

a = 1.122160 + 0.734555I

b = 0.347130 + 0.332291I

0.49419 − 1.95496I 0

u = −0.608097 − 0.485373I

a = 1.122160 − 0.734555I

b = 0.347130 − 0.332291I

0.49419 + 1.95496I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.071841 + 1.265180I

a = −0.355437 + 0.135357I

b = 0.886169 − 0.725281I

−2.70501 + 11.17610I 0

u = −0.071841 − 1.265180I

a = −0.355437 − 0.135357I

b = 0.886169 + 0.725281I

−2.70501 − 11.17610I 0

u = 0.087038 + 1.275070I

a = −0.327605 − 0.135550I

b = 0.780458 + 0.645595I

0.26047 − 5.97490I 0

u = 0.087038 − 1.275070I

a = −0.327605 + 0.135550I

b = 0.780458 − 0.645595I

0.26047 + 5.97490I 0

u = −0.067606 + 1.303270I

a = −0.321966 + 0.090369I

b = 0.870196 − 0.448726I

−4.44384 + 2.05586I 0

u = −0.067606 − 1.303270I

a = −0.321966 − 0.090369I

b = 0.870196 + 0.448726I

−4.44384 − 2.05586I 0

u = 0.701980 + 1.107930I

a = 1.65747 − 0.94084I

b = 1.55337 + 1.05580I

−7.9282 − 19.1536I 0

u = 0.701980 − 1.107930I

a = 1.65747 + 0.94084I

b = 1.55337 − 1.05580I

−7.9282 + 19.1536I 0

u = −0.430980 + 0.536340I

a = 2.05565 − 1.34242I

b = 0.327938 − 1.261390I

−3.62566 + 6.02987I −6.64015 − 6.08277I

u = −0.430980 − 0.536340I

a = 2.05565 + 1.34242I

b = 0.327938 + 1.261390I

−3.62566 − 6.02987I −6.64015 + 6.08277I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.705292 + 1.107790I

a = 1.58262 + 0.88581I

b = 1.47278 − 1.03154I

−5.0786 + 13.9740I 0

u = −0.705292 − 1.107790I

a = 1.58262 − 0.88581I

b = 1.47278 + 1.03154I

−5.0786 − 13.9740I 0

u = 0.604663 + 0.318299I

a = 0.757036 − 0.480378I

b = 0.020954 − 0.223471I

−0.04814 − 2.08809I −0.78344 + 4.16869I

u = 0.604663 − 0.318299I

a = 0.757036 + 0.480378I

b = 0.020954 + 0.223471I

−0.04814 + 2.08809I −0.78344 − 4.16869I

u = −0.722645 + 1.101000I

a = 1.36579 + 0.56182I

b = 1.12117 − 1.04638I

−1.64257 + 11.82940I 0

u = −0.722645 − 1.101000I

a = 1.36579 − 0.56182I

b = 1.12117 + 1.04638I

−1.64257 − 11.82940I 0

u = 0.706409 + 1.113310I

a = 1.46286 − 0.98081I

b = 1.47651 + 0.89383I

−9.7571 − 10.2648I 0

u = 0.706409 − 1.113310I

a = 1.46286 + 0.98081I

b = 1.47651 − 0.89383I

−9.7571 + 10.2648I 0

u = 0.738011 + 1.104240I

a = 1.162980 − 0.466020I

b = 0.945749 + 0.947625I

−1.36081 − 6.52452I 0

u = 0.738011 − 1.104240I

a = 1.162980 + 0.466020I

b = 0.945749 − 0.947625I

−1.36081 + 6.52452I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.037590 + 0.666994I

a = 1.34528 + 0.72369I

b = −0.355360 + 0.201184I

0.22453 − 1.54530I 1.17875 + 5.54371I

u = 0.037590 − 0.666994I

a = 1.34528 − 0.72369I

b = −0.355360 − 0.201184I

0.22453 + 1.54530I 1.17875 − 5.54371I

u = −0.723615 + 1.144220I

a = 0.758451 + 0.855169I

b = 1.019340 − 0.459558I

−9.20080 + 7.07762I 0

u = −0.723615 − 1.144220I

a = 0.758451 − 0.855169I

b = 1.019340 + 0.459558I

−9.20080 − 7.07762I 0

u = 0.291072 + 0.557749I

a = 2.10548 + 1.04899I

b = 0.170539 + 0.954018I

−0.99783 − 1.71399I −3.04526 + 3.23022I

u = 0.291072 − 0.557749I

a = 2.10548 − 1.04899I

b = 0.170539 − 0.954018I

−0.99783 + 1.71399I −3.04526 − 3.23022I

u = 0.742996 + 1.167790I

a = 0.551376 − 0.625292I

b = 0.755847 + 0.427035I

−4.10574 − 3.43456I 0

u = 0.742996 − 1.167790I

a = 0.551376 + 0.625292I

b = 0.755847 − 0.427035I

−4.10574 + 3.43456I 0

u = −0.719081 + 1.183370I

a = 0.364011 + 0.735086I

b = 0.743183 − 0.244699I

−6.89898 − 2.04706I 0

u = −0.719081 − 1.183370I

a = 0.364011 − 0.735086I

b = 0.743183 + 0.244699I

−6.89898 + 2.04706I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.359766 + 0.405439I

a = 2.54808 − 1.18763I

b = 0.664409 − 1.001360I

−4.28515 − 1.65584I −8.74963 + 1.62245I

u = −0.359766 − 0.405439I

a = 2.54808 + 1.18763I

b = 0.664409 + 1.001360I

−4.28515 + 1.65584I −8.74963 − 1.62245I

u = 0.08688 + 1.57899I

a = −0.159136 − 0.031227I

b = 0.409318 + 0.066953I

5.08219 − 3.21414I 0

u = 0.08688 − 1.57899I

a = −0.159136 + 0.031227I

b = 0.409318 − 0.066953I

5.08219 + 3.21414I 0

u = −0.377517 + 0.035731I

a = 3.80534 − 0.17960I

b = 1.63596 − 0.13954I

−5.66161 + 3.95732I −6.96836 − 3.31121I

u = −0.377517 − 0.035731I

a = 3.80534 + 0.17960I

b = 1.63596 + 0.13954I

−5.66161 − 3.95732I −6.96836 + 3.31121I

u = 0.321909

a = 3.57094

b = 1.45256

−2.65593 −2.13400

u = 0.233250 + 0.182366I

a = 3.07453 + 0.43541I

b = 1.062060 + 0.348490I

−2.08724 − 0.78753I −7.27534 − 2.81901I

u = 0.233250 − 0.182366I

a = 3.07453 − 0.43541I

b = 1.062060 − 0.348490I

−2.08724 + 0.78753I −7.27534 + 2.81901I

II. I

h−2u

−10u

+13b−7u−19, −7u

−9u

+13a−18u−21, u

+3u

+2u+1i

(i) Arc colorings















+ 1





0.538462u

+ 0.692308u

+ 1.38462u + 1.61538

0.153846u

+ 0.769231u

+ 0.538462u + 1.46154





0.538462u

− 0.307692u

+ 1.38462u + 0.615385

0.153846u

− 0.230769u

+ 0.538462u + 1.46154





+ u





−0.644970u

− 0.994083u

− 1.75740u − 1.01183

−0.118343u

− 0.668639u

− 0.414201u − 1.66272





0.449704u

− 0.0591716u

+ 0.573964u + 0.118343

0.183432u

− 0.313609u

− 0.857988u − 0.372781





0.538462u

+ 0.692308u

+ 1.38462u + 1.61538

0.153846u

+ 0.769231u

+ 0.538462u + 1.46154





−0.0473373u

− 0.467456u

− 0.165680u − 1.06509

0.349112u

− 0.177515u

+ 1.72189u − 0.644970





1.04734u

+ 0.467456u

+ 2.16568u + 1.06509

0.650888u

+ 1.17751u

+ 1.27811u + 1.64497



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

2907

169

−

3927

169

−

4682

169

u −

1948

169

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 3u

− 2u + 1

− u

+ u

+ 1

+ u

+ 5u

− u + 2

13(13u

− 16u

+ 7u

− u + 1)

+ u

+ 1

13(13u

− 23u

+ 9u + 2)

+ u

+ 3u

+ 2u + 1

− 5u

+ 7u

− 2u + 1

(u − 1)

(u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 5y

+ 7y

+ 2y + 1

, c

+ y

+ 3y

+ 2y + 1

+ 9y

+ 31y

+ 19y + 4

169(169y

− 74y

+ 43y

+ 13y + 1)

169(169y

− 529y

+ 466y

− 81y + 4)

− 11y

+ 31y

+ 10y + 1

, c

(y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.395123 + 0.506844I

a = 1.129280 + 0.482208I

b = 1.208620 − 0.018695I

−1.85594 + 1.41510I −2.41540 − 6.57837I

u = −0.395123 − 0.506844I

a = 1.129280 − 0.482208I

b = 1.208620 + 0.018695I

−1.85594 − 1.41510I −2.41540 + 6.57837I

u = −0.10488 + 1.55249I

a = 0.216875 − 0.063104I

b = −0.324008 + 0.017675I

5.14581 + 3.16396I 34.1047 + 28.0396I

u = −0.10488 − 1.55249I

a = 0.216875 + 0.063104I

b = −0.324008 − 0.017675I

5.14581 − 3.16396I 34.1047 − 28.0396I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− u

+ 3u

− 2u + 1)(u

119

+ 60u

118

+ ··· − 4u − 1)

− u

+ u

+ 1)(u

119

− 2u

118

+ ··· + 2u − 1)

+ u

+ 5u

− u + 2)(u

119

+ 2u

118

+ ··· − 391360u − 162248)

− u

+ 3u

− 2u + 1)(u

119

+ 2u

118

+ ··· + 4u + 1)

169(13u

− 16u

+ 7u

− u + 1)

· (13u

119

+ 45u

118

+ ··· − 95371633u + 81330053)

+ u

+ 1)(u

119

− 2u

118

+ ··· + 2u − 1)

169(13u

− 23u

+ 9u + 2)

· (13u

119

+ 72u

118

+ ··· + 38358566u + 16763146)

+ u

+ 3u

+ 2u + 1)(u

119

+ 2u

118

+ ··· + 4u + 1)

− 5u

+ 7u

− 2u + 1)(u

119

− 48u

118

+ ··· − 4u + 1)

((u − 1)

)(u

119

− 5u

118

+ ··· + 4638u + 169)

119

− 5u

118

+ ··· − 3016u + 2704)

((u + 1)

)(u

119

− 5u

118

+ ··· + 4638u + 169)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 5y

+ 7y

+ 2y + 1)(y

119

+ 120y

117

+ ··· + 8y −1)

, c

+ y

+ 3y

+ 2y + 1)(y

119

+ 60y

118

+ ··· − 4y −1)

+ 9y

+ 31y

+ 19y + 4)

· (y

119

− 60y

118

+ ··· − 1006938781552y −26324413504)

, c

+ 5y

+ 7y

+ 2y + 1)(y

119

+ 48y

118

+ ··· − 4y −1)

28561(169y

− 74y

+ 43y

+ 13y + 1)

· (169y

119

+ 2.05 × 10

118

+ ··· − 3.94 × 10

y −6.61 × 10

)

28561(169y

− 529y

+ 466y

− 81y + 4)

· (169y

119

+ 1134y

118

+ ··· + 560619390409464y −281003063817316)

− 11y

+ 31y

+ 10y + 1)(y

119

+ 48y

118

+ ··· − 112y −1)

, c

((y −1)

)(y

119

− 93y

118

+ ··· + 1876286y −28561)

119

+ 27y

118

+ ··· − 5.31185 × 10

y −7311616)