12a

0634

(K12a

0634

)

A knot diagram

1

Linearized knot diagam

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

Solving Sequence

3,10 4,7

2 1 6 11 9 5 8 12

c

3

c

2

c

1

c

6

c

10

c

9

c

4

c

8

c

12

c

5

, c

7

, c

11

Ideals for irreducible components

2

of X

par

I

u

1

= h−2u

24

− 31u

22

+ ··· + 16b − 6, −u

24

+ u

23

+ ··· + 32a − 22, u

25

+ 15u

23

+ ··· − 2u − 2i

I

u

2

= h131149683608665u

33

− 237748805942401u

32

+ ··· + 4229403894019872b − 1000700151544160,

218876053189111u

33

− 464080060606921u

32

+ ··· + 1409801298006624a − 1994609262976856,

u

34

− 2u

33

+ ··· − 36u + 8i

I

u

3

= h−u

2

a + au + u

2

+ b, −2u

2

a + 2a

2

+ 3u

2

− 6a + u + 7, u

3

+ 2u − 1i

I

u

4

= h−u

2

+ b − 1, a − u, u

3

+ 2u − 1i

I

u

5

= ha

3

u + a

3

+ 3a

2

u + 2a

2

+ 3au + b + 5a + u + 3, 2a

4

+ a

3

u + 5a

3

− 2a

2

u + 8a

2

− 3au + 5a − u + 1, u

2

+ 1i

I

u

6

= h−6u

3

a

2

− 9a

2

u

2

+ 11u

3

a + 5a

2

u − 5u

2

a + 30u

3

+ 12a

2

− 2au + 2u

2

+ 43b + 21a + 18u + 26,

2u

3

a

2

+ 2u

3

a + a

3

+ 2a

2

u + u

2

a + 4u

3

+ 2a

2

+ au − u

2

+ 2a + 6u, u

4

+ u

3

+ 2u

2

+ 2u + 1i

I

u

7

= hb − 1, 6a + u − 3, u

2

+ 3i

I

v

1

= ha, b − 1, v −1i

* 8 irreducible components of dim

C

= 0, with total 91 representations.

1

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).

2

All coeﬃcients of polynomials are rational numbers. But the coeﬃcients are sometimes approximated

in decimal forms when there is not enough margin.

1

I. I

u

1

= h−2u

24

− 31u

22

+ · · · + 16b − 6, −u

24

+ u

23

+ · · · + 32a − 22, u

25

+

15u

23

+ · · · − 2u − 2i

(i) Arc colorings

a

3

=



1

0



a

10

=



0

u



a

4

=



1

−u

2



a

7

=



1

32

u

24

−

1

32

u

23

+ ··· +

5

4

u +

11

16

1

8

u

24

+

31

16

u

22

+ ··· −

3

2

u +

3

8



a

2

=



1

32

u

24

−

1

32

u

23

+ ··· +

5

4

u +

11

16

−

3

16

u

24

+

1

8

u

23

+ ··· +

9

8

u −

7

8



a

1

=



−0.156250u

24

+ 0.0937500u

23

+ ··· + 2.37500u − 0.187500

−

3

16

u

24

+

1

8

u

23

+ ··· +

9

8

u −

7

8



a

6

=



1

8

u

23

+

7

4

u

21

+ ··· −

1

4

u −

1

4



a

11

=



u

1

8

u

24

+

7

4

u

22

+ ··· −

1

4

u

2

+

3

4

u



a

9

=



−u

u

3

+ u



a

5

=



u

2

+ 1

−u

4

− 2u

2



a

8

=



1

32

u

24

−

3

32

u

23

+ ··· −

11

8

u −

1

16

1

16

u

24

+

1

16

u

23

+ ··· +

1

2

u −

1

8



a

12

=



u

3

+ 2u

1

8

u

24

+

7

4

u

22

+ ··· −

1

4

u

2

+

3

4

u



(ii) Obstruction class = −1

(iii) Cusp Shapes =

7

8

u

24

+

3

8

u

23

+ ··· +

1

2

u +

7

4

2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

25

+ 10u

24

+ ··· + 1455u + 169

c

2

, c

6

u

25

− 6u

24

+ ··· + 57u − 13

c

3

, c

4

, c

5

c

9

, c

10

, c

11

u

25

+ 15u

23

+ ··· − 2u − 2

c

7

, c

8

, c

12

u

25

+ 6u

24

+ ··· − 3u − 13

3

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

25

+ 14y

24

+ ··· + 367199y −28561

c

2

, c

6

y

25

− 10y

24

+ ··· + 1455y −169

c

3

, c

4

, c

5

c

9

, c

10

, c

11

y

25

+ 30y

24

+ ··· − 24y −4

c

7

, c

8

, c

12

y

25

− 26y

24

+ ··· + 191y −169

4

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = 0.755535 + 0.415934I

a = −0.08824 − 1.55070I

b = −1.036580 + 0.642790I

5.29214 + 6.95092I 9.63817 − 7.49283I

u = 0.755535 − 0.415934I

a = −0.08824 + 1.55070I

b = −1.036580 − 0.642790I

5.29214 − 6.95092I 9.63817 + 7.49283I

u = −0.781688 + 0.222090I

a = 0.567778 − 0.932154I

b = −0.523390 + 0.782479I

6.80658 − 1.60733I 12.68937 + 1.64186I

u = −0.781688 − 0.222090I

a = 0.567778 + 0.932154I

b = −0.523390 − 0.782479I

6.80658 + 1.60733I 12.68937 − 1.64186I

u = 0.048749 + 1.304960I

a = 0.055343 − 0.974408I

b = −0.941899 + 1.022970I

1.65681 + 3.64991I 0.77498 − 3.11405I

u = 0.048749 − 1.304960I

a = 0.055343 + 0.974408I

b = −0.941899 − 1.022970I

1.65681 − 3.64991I 0.77498 + 3.11405I

u = 0.071780 + 0.652870I

a = 0.451606 − 0.184043I

b = 0.898942 + 0.773875I

4.71249 − 2.92993I 11.02910 + 1.21081I

u = 0.071780 − 0.652870I

a = 0.451606 + 0.184043I

b = 0.898942 − 0.773875I

4.71249 + 2.92993I 11.02910 − 1.21081I

u = −0.570291 + 0.288945I

a = 0.18281 + 2.07363I

b = −0.957814 − 0.478527I

−0.33137 − 3.73744I 6.36857 + 8.33061I

u = −0.570291 − 0.288945I

a = 0.18281 − 2.07363I

b = −0.957814 + 0.478527I

−0.33137 + 3.73744I 6.36857 − 8.33061I

5

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = 0.09300 + 1.43892I

a = 0.448195 + 0.914529I

b = −0.567898 − 0.881693I

−7.75327 − 0.62404I 1.11905 + 1.82325I

u = 0.09300 − 1.43892I

a = 0.448195 − 0.914529I

b = −0.567898 + 0.881693I

−7.75327 + 0.62404I 1.11905 − 1.82325I

u = 0.34989 + 1.44000I

a = 0.447471 + 0.624414I

b = −0.241733 − 1.058110I

−3.68401 + 9.94366I 4.37752 − 5.16617I

u = 0.34989 − 1.44000I

a = 0.447471 − 0.624414I

b = −0.241733 + 1.058110I

−3.68401 − 9.94366I 4.37752 + 5.16617I

u = 0.32103 + 1.50150I

a = −0.46525 − 1.45818I

b = −1.198590 + 0.622421I

−12.0801 + 10.8715I −1.24061 − 6.62726I

u = 0.32103 − 1.50150I

a = −0.46525 + 1.45818I

b = −1.198590 − 0.622421I

−12.0801 − 10.8715I −1.24061 + 6.62726I

u = −0.40263 + 1.50474I

a = −0.57474 + 1.36291I

b = −1.262700 − 0.622947I

−6.8511 − 15.9422I 2.15332 + 8.18122I

u = −0.40263 − 1.50474I

a = −0.57474 − 1.36291I

b = −1.262700 + 0.622947I

−6.8511 + 15.9422I 2.15332 − 8.18122I

u = −0.116143 + 0.395232I

a = 0.523724 + 0.083480I

b = 0.862091 − 0.296810I

−1.35428 + 1.12969I 0.98953 − 1.48650I

u = −0.116143 − 0.395232I

a = 0.523724 − 0.083480I

b = 0.862091 + 0.296810I

−1.35428 − 1.12969I 0.98953 + 1.48650I

6

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = 0.13068 + 1.60153I

a = 0.436301 − 0.037125I

b = 1.275520 + 0.193623I

−15.0829 + 1.6460I −4.49592 − 1.15064I

u = 0.13068 − 1.60153I

a = 0.436301 + 0.037125I

b = 1.275520 − 0.193623I

−15.0829 − 1.6460I −4.49592 + 1.15064I

u = 0.369219

a = 2.02103

b = −0.505202

0.738512 14.6480

u = −0.08452 + 1.78825I

a = 0.504494 + 0.068165I

b = 0.946646 − 0.263021I

−12.82360 + 1.06304I 4.27303 − 7.22736I

u = −0.08452 − 1.78825I

a = 0.504494 − 0.068165I

b = 0.946646 + 0.263021I

−12.82360 − 1.06304I 4.27303 + 7.22736I

7

II. I

u

2

=

h1.31×10

14

u

33

−2.38×10

14

u

32

+· · ·+4.23×10

15

b−1.00×10

15

, 2.19×10

14

u

33

−

4.64 × 10

14

u

32

+ · · · + 1.41 × 10

15

a − 1.99 × 10

15

, u

34

− 2u

33

+ · · · − 36u + 8i

(i) Arc colorings

a

3

=



1

0



a

10

=



0

u



a

4

=



1

−u

2



a

7

=



−0.155253u

33

+ 0.329181u

32

+ ··· − 29.1112u + 1.41482

−0.0310090u

33

+ 0.0562133u

32

+ ··· + 2.78205u + 0.236605



a

2

=



0.0670221u

33

− 0.211355u

32

+ ··· + 28.1192u − 2.65059

−0.0233286u

33

+ 0.0485749u

32

+ ··· − 3.94112u + 0.296004



a

1

=



0.0436936u

33

− 0.162780u

32

+ ··· + 24.1780u − 2.35459

−0.0233286u

33

+ 0.0485749u

32

+ ··· − 3.94112u + 0.296004



a

6

=



−0.164018u

33

+ 0.329267u

32

+ ··· − 9.73795u − 1.66269

−0.0499240u

33

+ 0.0898833u

32

+ ··· − 1.35647u + 1.00985



a

11

=



0.123769u

33

− 0.297461u

32

+ ··· + 33.8173u − 5.81214

0.0111960u

33

+ 0.0150363u

32

+ ··· − 3.77992u + 0.912751



a

9

=



−u

u

3

+ u



a

5

=



u

2

+ 1

−u

4

− 2u

2



a

8

=



0.173662u

33

− 0.284141u

32

+ ··· + 14.3998u − 0.525050

−0.00389825u

33

+ 0.0271836u

32

+ ··· − 1.92616u + 0.497794



a

12

=



0.134965u

33

− 0.282425u

32

+ ··· + 28.0374u − 4.89939

−0.0361733u

33

+ 0.110465u

32

+ ··· − 6.82518u + 1.61157



(ii) Obstruction class = −1

(iii) Cusp Shapes

= −

11998428764201

44056290562707

u

33

+

35190412311283

88112581125414

u

32

+ ··· +

1450723211244922

44056290562707

u +

103896439660429

44056290562707

8

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

(u

17

+ 8u

16

+ ··· + 3u + 1)

2

c

2

, c

6

(u

17

+ 2u

16

+ ··· − u − 1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

u

34

− 2u

33

+ ··· − 36u + 8

c

7

, c

8

, c

12

(u

17

− 2u

16

+ ··· + 3u − 1)

2

9

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

(y

17

+ 4y

16

+ ··· − 13y −1)

2

c

2

, c

6

(y

17

− 8y

16

+ ··· + 3y −1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

y

34

+ 28y

33

+ ··· + 2192y + 64

c

7

, c

8

, c

12

(y

17

− 16y

16

+ ··· + 19y −1)

2

10

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = 0.864072 + 0.421442I

a = −0.60307 + 1.70997I

b = 1.130680 − 0.513073I

−5.86965 + 6.57063I 0.73995 − 6.43452I

u = 0.864072 − 0.421442I

a = −0.60307 − 1.70997I

b = 1.130680 + 0.513073I

−5.86965 − 6.57063I 0.73995 + 6.43452I

u = 0.701574 + 0.772236I

a = 0.671036 + 0.299184I

b = −1.128570 − 0.359117I

−6.94910 − 1.22724I −2.14847 + 0.85505I

u = 0.701574 − 0.772236I

a = 0.671036 − 0.299184I

b = −1.128570 + 0.359117I

−6.94910 + 1.22724I −2.14847 − 0.85505I

u = −0.400299 + 0.849296I

a = 0.488205 − 0.936880I

b = 0.796399 + 0.723427I

4.74481 − 2.71165I 9.84242 + 3.13710I

u = −0.400299 − 0.849296I

a = 0.488205 + 0.936880I

b = 0.796399 − 0.723427I

4.74481 + 2.71165I 9.84242 − 3.13710I

u = −1.015190 + 0.363118I

a = −0.42443 − 1.39736I

b = 1.172120 + 0.583556I

−0.88663 − 10.83370I 4.89378 + 7.41261I

u = −1.015190 − 0.363118I

a = −0.42443 + 1.39736I

b = 1.172120 − 0.583556I

−0.88663 + 10.83370I 4.89378 − 7.41261I

u = 0.882304 + 0.259295I

a = −0.201550 − 1.387080I

b = 0.288739 + 0.863831I

1.75994 + 5.51158I 8.25126 − 3.84490I

u = 0.882304 − 0.259295I

a = −0.201550 + 1.387080I

b = 0.288739 − 0.863831I

1.75994 − 5.51158I 8.25126 + 3.84490I

11

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = −0.231948 + 1.077680I

a = −0.17884 + 1.65758I

b = −0.867068

−4.54799 −4.68792 + 0.I

u = −0.231948 − 1.077680I

a = −0.17884 − 1.65758I

b = −0.867068

−4.54799 −4.68792 + 0.I

u = −0.001691 + 1.105180I

a = −0.516445 + 0.866608I

b = 0.621791 − 0.419413I

−1.98005 + 1.46955I 7.63583 − 4.66528I

u = −0.001691 − 1.105180I

a = −0.516445 − 0.866608I

b = 0.621791 + 0.419413I

−1.98005 − 1.46955I 7.63583 + 4.66528I

u = 0.553439 + 1.087560I

a = −0.737070 − 0.832523I

b = −0.374678 + 0.520641I

−0.670307 − 0.433874I 6.56834 − 0.87540I

u = 0.553439 − 1.087560I

a = −0.737070 + 0.832523I

b = −0.374678 − 0.520641I

−0.670307 + 0.433874I 6.56834 + 0.87540I

u = −0.815743 + 0.977729I

a = 0.365441 − 0.177204I

b = −1.072950 + 0.498433I

−2.67943 + 4.64771I 3.56085 − 4.11695I

u = −0.815743 − 0.977729I

a = 0.365441 + 0.177204I

b = −1.072950 − 0.498433I

−2.67943 − 4.64771I 3.56085 + 4.11695I

u = 0.510396 + 0.397212I

a = −0.577773 + 0.030688I

b = 0.796399 + 0.723427I

4.74481 − 2.71165I 9.84242 + 3.13710I

u = 0.510396 − 0.397212I

a = −0.577773 − 0.030688I

b = 0.796399 − 0.723427I

4.74481 + 2.71165I 9.84242 − 3.13710I

12

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = 0.281426 + 1.352580I

a = −0.239793 − 0.110964I

b = −0.374678 − 0.520641I

−0.670307 + 0.433874I 6.56834 + 0.87540I

u = 0.281426 − 1.352580I

a = −0.239793 + 0.110964I

b = −0.374678 + 0.520641I

−0.670307 − 0.433874I 6.56834 − 0.87540I

u = −0.303439 + 1.375590I

a = −0.284613 + 0.260893I

b = 0.288739 − 0.863831I

1.75994 − 5.51158I 8.25126 + 3.84490I

u = −0.303439 − 1.375590I

a = −0.284613 − 0.260893I

b = 0.288739 + 0.863831I

1.75994 + 5.51158I 8.25126 − 3.84490I

u = 0.04104 + 1.42314I

a = −1.165140 − 0.532963I

b = −1.128570 + 0.359117I

−6.94910 + 1.22724I −2.14847 − 0.85505I

u = 0.04104 − 1.42314I

a = −1.165140 + 0.532963I

b = −1.128570 − 0.359117I

−6.94910 − 1.22724I −2.14847 + 0.85505I

u = −0.20733 + 1.42614I

a = 0.93419 − 1.28605I

b = 1.130680 + 0.513073I

−5.86965 − 6.57063I 0.73995 + 6.43452I

u = −0.20733 − 1.42614I

a = 0.93419 + 1.28605I

b = 1.130680 − 0.513073I

−5.86965 + 6.57063I 0.73995 − 6.43452I

u = 0.29669 + 1.49249I

a = 0.89771 + 1.10113I

b = 1.172120 − 0.583556I

−0.88663 + 10.83370I 4.89378 − 7.41261I

u = 0.29669 − 1.49249I

a = 0.89771 − 1.10113I

b = 1.172120 + 0.583556I

−0.88663 − 10.83370I 4.89378 + 7.41261I

13

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = −0.16100 + 1.54040I

a = −0.966662 + 0.555173I

b = −1.072950 − 0.498433I

−2.67943 − 4.64771I 3.56085 + 4.11695I

u = −0.16100 − 1.54040I

a = −0.966662 − 0.555173I

b = −1.072950 + 0.498433I

−2.67943 + 4.64771I 3.56085 − 4.11695I

u = 0.005683 + 0.262839I

a = −3.96119 − 3.25601I

b = 0.621791 + 0.419413I

−1.98005 − 1.46955I 7.63583 + 4.66528I

u = 0.005683 − 0.262839I

a = −3.96119 + 3.25601I

b = 0.621791 − 0.419413I

−1.98005 + 1.46955I 7.63583 − 4.66528I

14

III. I

u

3

= h−u

2

a + au + u

2

+ b, −2u

2

a + 2a

2

+ 3u

2

− 6a + u + 7, u

3

+ 2u − 1i

(i) Arc colorings

a

3

=



1

0



a

10

=



0

u



a

4

=



1

−u

2



a

7

=



a

u

2

a − au − u

2



a

2

=



a

−u

2

a + 2au + u

2

− a



a

1

=



−u

2

a + 2au + u

2

−u

2

a + 2au + u

2

− a



a

6

=



1

u − 1



a

11

=



u

2



a

9

=



−u

−u + 1



a

5

=



u

2

+ 1

−u



a

8

=



−u

2

a + au + u

2

− a

−u

2

a + au + u

2



a

12

=



1

0



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

2

+ 4u + 10

15

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

6

+ 3u

5

+ u

4

− 3u

3

+ 3u

2

+ 2u + 1

c

2

, c

6

, c

7

c

8

, c

12

u

6

+ u

5

− u

4

+ u

3

+ u

2

− 2u + 1

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(u

3

+ 2u − 1)

2

16

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

6

− 7y

5

+ 25y

4

− 13y

3

+ 23y

2

+ 2y + 1

c

2

, c

6

, c

7

c

8

, c

12

y

6

− 3y

5

+ y

4

+ 3y

3

+ 3y

2

− 2y + 1

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(y

3

+ 4y

2

+ 4y −1)

2

17

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

3

√

−1(vol +

√

−1CS) Cusp shape

u = −0.22670 + 1.46771I

a = 0.493675 − 0.712154I

b = −0.342537 + 0.948428I

−9.44074 − 5.13794I 0.68207 + 3.20902I

u = −0.22670 + 1.46771I

a = 0.403540 + 0.046697I

b = 1.44532 − 0.28297I

−9.44074 − 5.13794I 0.68207 + 3.20902I

u = −0.22670 − 1.46771I

a = 0.493675 + 0.712154I

b = −0.342537 − 0.948428I

−9.44074 + 5.13794I 0.68207 − 3.20902I

u = −0.22670 − 1.46771I

a = 0.403540 − 0.046697I

b = 1.44532 + 0.28297I

−9.44074 + 5.13794I 0.68207 − 3.20902I

u = 0.453398

a = 1.60278 + 1.21084I

b = −0.602785 − 0.300080I

0.787199 12.6360

u = 0.453398

a = 1.60278 − 1.21084I

b = −0.602785 + 0.300080I

0.787199 12.6360

18

IV. I

u

4

= h−u

2

+ b − 1, a − u, u

3

+ 2u − 1i

(i) Arc colorings

a

3

=



1

0



a

10

=



0

u



a

4

=



1

−u

2



a

7

=



u

2

+ 1



a

2

=



u

−u − 1



a

1

=



−1

−u − 1



a

6

=



1

u − 1



a

11

=



u

2



a

9

=



−u

−u + 1



a

5

=



u

2

+ 1

−u



a

8

=



−u

2

− u − 1

−u

2

− 1



a

12

=



1

0



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

2

+ 4u + 10

19

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

3

+ 3u

2

+ 5u + 4

c

2

, c

6

, c

7

c

8

, c

12

u

3

− u

2

− u + 2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

u

3

+ 2u − 1

20

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

3

+ y

2

+ y −16

c

2

, c

6

, c

7

c

8

, c

12

y

3

− 3y

2

+ 5y −4

c

3

, c

4

, c

5

c

9

, c

10

, c

11

y

3

+ 4y

2

+ 4y −1

21

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

4

√

−1(vol +

√

−1CS) Cusp shape

u = −0.22670 + 1.46771I

a = −0.22670 + 1.46771I

b = −1.102790 − 0.665457I

−9.44074 − 5.13794I 0.68207 + 3.20902I

u = −0.22670 − 1.46771I

a = −0.22670 − 1.46771I

b = −1.102790 + 0.665457I

−9.44074 + 5.13794I 0.68207 − 3.20902I

u = 0.453398

a = 0.453398

b = 1.20557

0.787199 12.6360

22

V. I

u

5

= ha

3

u + 3a

2

u + · · · + 5a + 3, a

3

u − 2a

2

u + · · · + 5a + 1, u

2

+ 1i

(i) Arc colorings

a

3

=



1

0



a

10

=



0

u



a

4

=



1



a

7

=



a

−a

3

u − a

3

− 3a

2

u − 2a

2

− 3au − 5a − u − 3



a

2

=



−a

−3a

3

u − a

3

− 7a

2

u − 8au − 5a − 3u − 3



a

1

=



−3a

3

u − a

3

− 7a

2

u − 8au − 6a − 3u − 3

−3a

3

u − a

3

− 7a

2

u − 8au − 5a − 3u − 3



a

6

=



−1

2a

3

u − 2a

3

+ 2a

2

u − 6a

2

+ 6au − 4a + 3u − 2



a

11

=



u

2a

3

u + 2a

3

+ 6a

2

u + 2a

2

+ 4au + 6a + 3u + 3



a

9

=



−u

0



a

5

=



0

1



a

8

=



3a

3

u + a

3

+ 7a

2

u + 8au + 6a + 3u + 3

2a

3

u + 2a

3

+ 5a

2

u + 3a

2

+ 4au + 9a + 2u + 4



a

12

=



u

2a

3

u + 2a

3

+ 6a

2

u + 2a

2

+ 4au + 6a + 2u + 3



(ii) Obstruction class = 1

(iii) Cusp Shapes = 8a

3

u + 8a

3

+ 20a

2

u + 12a

2

+ 12au + 32a + 16

23

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

(u

4

− u

3

+ 3u

2

− 2u + 1)

2

c

2

, c

6

u

8

− u

6

+ 3u

4

− 2u

2

+ 1

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(u

2

+ 1)

4

c

7

, c

8

, c

12

u

8

− 5u

6

+ 7u

4

− 2u

2

+ 1

24

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

(y

4

+ 5y

3

+ 7y

2

+ 2y + 1)

2

c

2

, c

6

(y

4

− y

3

+ 3y

2

− 2y + 1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(y + 1)

8

c

7

, c

8

, c

12

(y

4

− 5y

3

+ 7y

2

− 2y + 1)

2

25

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

5

√

−1(vol +

√

−1CS) Cusp shape

u = 1.000000I

a = −0.120947 + 1.161380I

b = 0.911292 − 0.851808I

3.50087 + 3.16396I 3.82674 − 2.56480I

u = 1.000000I

a = −0.557947 − 0.114099I

b = −0.720342 + 0.351808I

−3.50087 + 1.41510I 0.17326 − 4.90874I

u = 1.000000I

a = −0.436506 + 0.194538I

b = −0.911292 − 0.851808I

3.50087 − 3.16396I 3.82674 + 2.56480I

u = 1.000000I

a = −1.38460 − 1.74182I

b = 0.720342 + 0.351808I

−3.50087 − 1.41510I 0.17326 + 4.90874I

u = − 1.000000I

a = −0.120947 − 1.161380I

b = 0.911292 + 0.851808I

3.50087 − 3.16396I 3.82674 + 2.56480I

u = − 1.000000I

a = −0.557947 + 0.114099I

b = −0.720342 − 0.351808I

−3.50087 − 1.41510I 0.17326 + 4.90874I

u = − 1.000000I

a = −0.436506 − 0.194538I

b = −0.911292 + 0.851808I

3.50087 + 3.16396I 3.82674 − 2.56480I

u = − 1.000000I

a = −1.38460 + 1.74182I

b = 0.720342 − 0.351808I

−3.50087 + 1.41510I 0.17326 − 4.90874I

26

VI. I

u

6

= h−6u

3

a

2

+ 11u

3

a + · · · + 21a + 26, 2u

3

a

2

+ 2u

3

a + · · · + 2a

2

+

2a, u

4

+ u

3

+ 2u

2

+ 2u + 1i

(i) Arc colorings

a

3

=



1

0



a

10

=



0

u



a

4

=



1

−u

2



a

7

=



a

0.139535a

2

u

3

− 0.255814au

3

+ ··· − 0.488372a − 0.604651



a

2

=



0.209302a

2

u

3

+ 0.116279au

3

+ ··· + 0.767442a + 2.09302

0.0930233a

2

u

3

− 0.837209au

3

+ ··· − 0.325581a − 1.06977



a

1

=



0.302326a

2

u

3

− 0.720930au

3

+ ··· + 0.441860a + 1.02326

0.0930233a

2

u

3

− 0.837209au

3

+ ··· − 0.325581a − 1.06977



a

6

=



u

3

+ 2u

−u

3

− u



a

11

=



2u

3

+ u

2

+ 3u + 3

−u

3

− u

2

− u − 2



a

9

=



−u

u

3

+ u



a

5

=



u

2

+ 1

u

3

+ 2u + 1



a

8

=



−0.139535a

2

u

3

+ 0.255814au

3

+ ··· − 0.511628a + 0.604651

−0.139535a

2

u

3

+ 0.255814au

3

+ ··· + 0.488372a + 0.604651



a

12

=



1

0



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

3

+ 4u + 6

27

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

(u

6

+ 4u

5

+ 6u

4

+ 3u

3

− u

2

− u + 1)

2

c

2

, c

6

, c

7

c

8

, c

12

(u

6

− 2u

4

− u

3

+ u

2

+ u + 1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(u

4

+ u

3

+ 2u

2

+ 2u + 1)

3

28

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

(y

6

− 4y

5

+ 10y

4

− 11y

3

+ 19y

2

− 3y + 1)

2

c

2

, c

6

, c

7

c

8

, c

12

(y

6

− 4y

5

+ 6y

4

− 3y

3

− y

2

+ y + 1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(y

4

+ 3y

3

+ 2y

2

+ 1)

3

29

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

6

√

−1(vol +

√

−1CS) Cusp shape

u = −0.621744 + 0.440597I

a = 0.924150 − 1.015430I

b = −1.252310 + 0.237364I

−3.28987 − 2.02988I 4.00000 + 3.46410I

u = −0.621744 + 0.440597I

a = −0.63726 + 1.54652I

b = 0.218964 − 0.666188I

−3.28987 − 2.02988I 4.00000 + 3.46410I

u = −0.621744 + 0.440597I

a = −1.28689 − 2.26314I

b = 1.033350 + 0.428825I

−3.28987 − 2.02988I 4.00000 + 3.46410I

u = −0.621744 − 0.440597I

a = 0.924150 + 1.015430I

b = −1.252310 − 0.237364I

−3.28987 + 2.02988I 4.00000 − 3.46410I

u = −0.621744 − 0.440597I

a = −0.63726 − 1.54652I

b = 0.218964 + 0.666188I

−3.28987 + 2.02988I 4.00000 − 3.46410I

u = −0.621744 − 0.440597I

a = −1.28689 + 2.26314I

b = 1.033350 − 0.428825I

−3.28987 + 2.02988I 4.00000 − 3.46410I

u = 0.121744 + 1.306620I

a = −1.381780 + 0.280337I

b = −1.252310 − 0.237364I

−3.28987 + 2.02988I 4.00000 − 3.46410I

u = 0.121744 + 1.306620I

a = −0.377578 − 0.240530I

b = 0.218964 + 0.666188I

−3.28987 + 2.02988I 4.00000 − 3.46410I

u = 0.121744 + 1.306620I

a = 0.75936 + 1.69224I

b = 1.033350 − 0.428825I

−3.28987 + 2.02988I 4.00000 − 3.46410I

u = 0.121744 − 1.306620I

a = −1.381780 − 0.280337I

b = −1.252310 + 0.237364I

−3.28987 − 2.02988I 4.00000 + 3.46410I

30

Solutions to I

u

6

√

−1(vol +

√

−1CS) Cusp shape

u = 0.121744 − 1.306620I

a = −0.377578 + 0.240530I

b = 0.218964 − 0.666188I

−3.28987 − 2.02988I 4.00000 + 3.46410I

u = 0.121744 − 1.306620I

a = 0.75936 − 1.69224I

b = 1.033350 + 0.428825I

−3.28987 − 2.02988I 4.00000 + 3.46410I

31

VII. I

u

7

= hb − 1, 6a + u − 3, u

2

+ 3i

(i) Arc colorings

a

3

=



1

0



a

10

=



0

u



a

4

=



1

3



a

7

=



−

1

6

u +

1

2

1



a

2

=



1

6

u +

1

2

−1



a

1

=



1

6

u −

1

2

−1



a

6

=



1

0



a

11

=



u



a

9

=



−u

−2u



a

5

=



−2

−3



a

8

=



−

7

6

u +

1

2

−2u + 1



a

12

=



−u

−2u



(ii) Obstruction class = 1

(iii) Cusp Shapes = 0

32

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

2

, c

12

(u − 1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

u

2

+ 3

c

6

, c

7

, c

8

(u + 1)

2

33

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

2

, c

6

c

7

, c

8

, c

12

(y − 1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(y + 3)

2

34

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

7

√

−1(vol +

√

−1CS) Cusp shape

u = 1.73205I

a = 0.500000 − 0.288675I

b = 1.00000

−13.1595 0

u = − 1.73205I

a = 0.500000 + 0.288675I

b = 1.00000

−13.1595 0

35

VIII. I

v

1

= ha, b − 1, v − 1i

(i) Arc colorings

a

3

=



1

0



a

10

=



1

0



a

4

=



1

0



a

7

=



0

1



a

2

=



1

−1



a

1

=



0

−1



a

6

=



1

0



a

11

=



1

0



a

9

=



1

0



a

5

=



1

0



a

8

=



1



a

12

=



1

0



(ii) Obstruction class = 1

(iii) Cusp Shapes = 0

36

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

2

, c

12

u − 1

c

3

, c

4

, c

5

c

9

, c

10

, c

11

u

c

6

, c

7

, c

8

u + 1

37

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

2

, c

6

c

7

, c

8

, c

12

y − 1

c

3

, c

4

, c

5

c

9

, c

10

, c

11

y

38

(vi) Complex Volumes and Cusp Shapes

Solutions to I

v

1

√

−1(vol +

√

−1CS) Cusp shape

v = 1.00000

a = 0

b = 1.00000

0 0

39

IX. u-Polynomials

Crossings u-Polynomials at each crossing

c

1

(u − 1)

3

(u

3

+ 3u

2

+ 5u + 4)(u

4

− u

3

+ 3u

2

− 2u + 1)

2

· (u

6

+ 3u

5

+ u

4

− 3u

3

+ 3u

2

+ 2u + 1)

· ((u

6

+ 4u

5

+ 6u

4

+ 3u

3

− u

2

− u + 1)

2

)(u

17

+ 8u

16

+ ··· + 3u + 1)

2

· (u

25

+ 10u

24

+ ··· + 1455u + 169)

c

2

(u − 1)

3

(u

3

− u

2

− u + 2)(u

6

− 2u

4

− u

3

+ u

2

+ u + 1)

2

· (u

6

+ u

5

− u

4

+ u

3

+ u

2

− 2u + 1)(u

8

− u

6

+ 3u

4

− 2u

2

+ 1)

· ((u

17

+ 2u

16

+ ··· − u − 1)

2

)(u

25

− 6u

24

+ ··· + 57u − 13)

c

3

, c

4

, c

5

c

9

, c

10

, c

11

u(u

2

+ 1)

4

(u

2

+ 3)(u

3

+ 2u − 1)

3

(u

4

+ u

3

+ 2u

2

+ 2u + 1)

3

· (u

25

+ 15u

23

+ ··· − 2u − 2)(u

34

− 2u

33

+ ··· − 36u + 8)

c

6

(u + 1)

3

(u

3

− u

2

− u + 2)(u

6

− 2u

4

− u

3

+ u

2

+ u + 1)

2

· (u

6

+ u

5

− u

4

+ u

3

+ u

2

− 2u + 1)(u

8

− u

6

+ 3u

4

− 2u

2

+ 1)

· ((u

17

+ 2u

16

+ ··· − u − 1)

2

)(u

25

− 6u

24

+ ··· + 57u − 13)

c

7

, c

8

(u + 1)

3

(u

3

− u

2

− u + 2)(u

6

− 2u

4

− u

3

+ u

2

+ u + 1)

2

· (u

6

+ u

5

− u

4

+ u

3

+ u

2

− 2u + 1)(u

8

− 5u

6

+ 7u

4

− 2u

2

+ 1)

· ((u

17

− 2u

16

+ ··· + 3u − 1)

2

)(u

25

+ 6u

24

+ ··· − 3u − 13)

c

12

(u − 1)

3

(u

3

− u

2

− u + 2)(u

6

− 2u

4

− u

3

+ u

2

+ u + 1)

2

· (u

6

+ u

5

− u

4

+ u

3

+ u

2

− 2u + 1)(u

8

− 5u

6

+ 7u

4

− 2u

2

+ 1)

· ((u

17

− 2u

16

+ ··· + 3u − 1)

2

)(u

25

+ 6u

24

+ ··· − 3u − 13)

40

X. Riley Polynomials

Crossings Riley Polynomials at each crossing

c

1

(y − 1)

3

(y

3

+ y

2

+ y − 16)(y

4

+ 5y

3

+ 7y

2

+ 2y + 1)

2

· (y

6

− 7y

5

+ 25y

4

− 13y

3

+ 23y

2

+ 2y + 1)

· (y

6

− 4y

5

+ 10y

4

− 11y

3

+ 19y

2

− 3y + 1)

2

· ((y

17

+ 4y

16

+ ··· − 13y − 1)

2

)(y

25

+ 14y

24

+ ··· + 367199y − 28561)

c

2

, c

6

(y − 1)

3

(y

3

− 3y

2

+ 5y − 4)(y

4

− y

3

+ 3y

2

− 2y + 1)

2

· (y

6

− 4y

5

+ 6y

4

− 3y

3

− y

2

+ y + 1)

2

· (y

6

− 3y

5

+ y

4

+ 3y

3

+ 3y

2

− 2y + 1)(y

17

− 8y

16

+ ··· + 3y − 1)

2

· (y

25

− 10y

24

+ ··· + 1455y − 169)

c

3

, c

4

, c

5

c

9

, c

10

, c

11

y(y + 1)

8

(y + 3)

2

(y

3

+ 4y

2

+ 4y − 1)

3

(y

4

+ 3y

3

+ 2y

2

+ 1)

3

· (y

25

+ 30y

24

+ ··· − 24y − 4)(y

34

+ 28y

33

+ ··· + 2192y + 64)

c

7

, c

8

, c

12

(y − 1)

3

(y

3

− 3y

2

+ 5y − 4)(y

4

− 5y

3

+ 7y

2

− 2y + 1)

2

· (y

6

− 4y

5

+ 6y

4

− 3y

3

− y

2

+ y + 1)

2

· (y

6

− 3y

5

+ y

4

+ 3y

3

+ 3y

2

− 2y + 1)(y

17

− 16y

16

+ ··· + 19y − 1)

2

· (y

25

− 26y

24

+ ··· + 191y − 169)

41