12n

0499

(K12n

0499

)

A knot diagram

1

Linearized knot diagam

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

Solving Sequence

3,7 4,11

8 9 12 6 2 1 5 10

c

3

c

7

c

8

c

11

c

6

c

2

c

1

c

5

c

10

c

4

, c

9

, c

12

Ideals for irreducible components

2

of X

par

I

u

1

= h253607u

17

− 119815u

16

+ ··· + 2792b + 534547,

− 1130011u

17

+ 534547u

16

+ ··· + 2792a − 2385431,

u

18

− u

16

+ u

15

+ 9u

14

+ u

13

− 6u

12

+ 3u

11

+ 21u

10

+ 4u

9

− 7u

8

+ 5u

7

+ 16u

6

− 9u

4

− 9u

3

− u

2

+ 3u + 1i

I

u

2

= hu

11

+ u

10

− 3u

9

+ 2u

8

+ 7u

7

− 6u

5

+ 6u

4

+ 8u

3

− 8u

2

+ 4b + u + 3,

− 9u

11

+ 3u

10

− u

9

− 10u

8

− 39u

7

+ 4u

6

− 22u

5

− 30u

4

− 36u

3

+ 12u

2

+ 4a − 17u − 7,

u

12

+ u

9

+ 5u

8

+ u

7

+ 2u

6

+ 4u

5

+ 6u

4

+ u

2

+ 2u + 1i

I

u

3

= h4.82591 × 10

21

u

23

− 1.43753 × 10

22

u

22

+ ··· + 2.64783 × 10

21

b + 1.78802 × 10

22

,

9.78596 × 10

19

u

23

− 3.52311 × 10

20

u

22

+ ··· + 1.93272 × 10

19

a + 1.09980 × 10

20

, u

24

− 3u

23

+ ··· + 8u + 1i

I

u

4

= h5u

7

− 18u

6

+ 14u

5

− 17u

4

+ 44u

3

− 53u

2

+ 11b + 21,

− 7u

7

+ 23u

6

− 24u

5

+ 26u

4

− 66u

3

+ 83u

2

+ 11a − 22u − 14,

u

8

− 2u

7

+ u

6

− 2u

5

+ 6u

4

− 4u

3

− 2u

2

+ 2u + 1i

* 4 irreducible components of dim

C

= 0, with total 62 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

= h253607u

17

− 119815u

16

+ · · · + 2792b + 534547, −1.13 × 10

6

u

17

+

5.35 × 10

5

u

16

+ · · · + 2792a − 2.39 × 10

6

, u

18

− u

16

+ · · · + 3u + 1i

(i) Arc colorings

a

3

=



1

0



a

7

=



0

u



a

4

=



1

−u

2



a

11

=



404.732u

17

− 191.457u

16

+ ··· + 757.847u + 854.381

−90.8335u

17

+ 42.9137u

16

+ ··· − 168.638u − 191.457



a

8

=



−123.317u

17

+ 57.5845u

16

+ ··· − 226.145u − 262.067

−63.4466u

17

+ 30.0842u

16

+ ··· − 119.201u − 133.872



a

9

=



−186.763u

17

+ 87.6687u

16

+ ··· − 345.346u − 395.939

−63.4466u

17

+ 30.0842u

16

+ ··· − 119.201u − 133.872



a

12

=



404.732u

17

− 191.457u

16

+ ··· + 758.847u + 854.381

−90.8335u

17

+ 42.9137u

16

+ ··· − 168.638u − 191.457



a

6

=



−304.984u

17

+ 143.412u

16

+ ··· − 565.421u − 644.981

−22.6307u

17

+ 10.9817u

16

+ ··· − 43.3861u − 48.0448



a

2

=



94.9466u

17

− 43.5842u

16

+ ··· + 171.201u + 201.372

28.6734u

17

− 13.9162u

16

+ ··· + 55.9921u + 60.8231



a

1

=



123.620u

17

− 57.5004u

16

+ ··· + 227.193u + 262.195

28.6734u

17

− 13.9162u

16

+ ··· + 55.9921u + 60.8231



a

5

=



−335.524u

17

+ 158.659u

16

+ ··· − 631.124u − 712.169

2.32450u

17

− 0.887536u

16

+ ··· + 5.26934u + 6.20702



a

10

=



−406.592u

17

+ 193.199u

16

+ ··· − 766.342u − 859.336

27.5838u

17

− 13.1547u

16

+ ··· + 53.8030u + 59.3266



(ii) Obstruction class = −1

(iii) Cusp Shapes =

2045515

2792

u

17

−

964335

2792

u

16

+ ··· +

1913265

1396

u +

4343639

2792

2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

18

+ 38u

17

+ ··· + 21004u + 2704

c

2

, c

5

u

18

+ 12u

17

+ ··· − 42u + 52

c

3

, c

11

u

18

− u

16

+ ··· + 3u + 1

c

4

, c

8

u

18

− u

17

+ ··· − 6u

2

+ 1

c

6

u

18

− 13u

17

+ ··· − 184u + 32

c

7

, c

10

u

18

− 11u

17

+ ··· − 34u + 4

c

9

, c

12

u

18

+ u

17

+ ··· + 27u + 2

3

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

18

− 146y

17

+ ··· − 126806384y + 7311616

c

2

, c

5

y

18

− 38y

17

+ ··· − 21004y + 2704

c

3

, c

11

y

18

− 2y

17

+ ··· − 11y + 1

c

4

, c

8

y

18

+ 29y

17

+ ··· − 12y + 1

c

6

y

18

+ 3y

17

+ ··· + 8896y + 1024

c

7

, c

10

y

18

+ 7y

17

+ ··· + 212y + 16

c

9

, c

12

y

18

+ 41y

17

+ ··· − 53y + 4

4

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = −0.891966 + 0.505299I

a = −0.23675 − 1.79433I

b = 0.85339 + 1.26132I

−12.21600 − 5.30943I 1.96728 + 5.12021I

u = −0.891966 − 0.505299I

a = −0.23675 + 1.79433I

b = 0.85339 − 1.26132I

−12.21600 + 5.30943I 1.96728 − 5.12021I

u = 0.578165 + 0.938615I

a = 1.09411 − 1.04806I

b = 0.038828 − 0.821875I

−18.0039 + 5.4690I −2.64879 − 4.54026I

u = 0.578165 − 0.938615I

a = 1.09411 + 1.04806I

b = 0.038828 + 0.821875I

−18.0039 − 5.4690I −2.64879 + 4.54026I

u = −0.854287 + 0.898221I

a = 0.539073 − 0.616267I

b = 0.13299 + 1.67807I

−0.401628 − 0.023944I 0.798667 − 0.224914I

u = −0.854287 − 0.898221I

a = 0.539073 + 0.616267I

b = 0.13299 − 1.67807I

−0.401628 + 0.023944I 0.798667 + 0.224914I

u = −0.241248 + 0.688870I

a = −0.525924 + 0.059772I

b = −0.480079 + 0.538950I

−1.87297 + 1.40233I −2.30233 − 2.52603I

u = −0.241248 − 0.688870I

a = −0.525924 − 0.059772I

b = −0.480079 − 0.538950I

−1.87297 − 1.40233I −2.30233 + 2.52603I

u = 1.069570 + 0.765142I

a = −0.272123 − 0.684036I

b = 0.10197 + 1.59259I

2.96611 + 2.61050I 7.54398 − 1.84581I

u = 1.069570 − 0.765142I

a = −0.272123 + 0.684036I

b = 0.10197 − 1.59259I

2.96611 − 2.61050I 7.54398 + 1.84581I

5

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = 0.678153 + 0.019544I

a = 0.966784 + 0.264491I

b = 0.240917 − 0.127619I

1.208600 + 0.022955I 9.69868 + 0.48984I

u = 0.678153 − 0.019544I

a = 0.966784 − 0.264491I

b = 0.240917 + 0.127619I

1.208600 − 0.022955I 9.69868 − 0.48984I

u = −1.043070 + 0.939013I

a = −0.010456 − 0.755078I

b = 0.438217 + 1.074260I

−0.86599 − 7.63655I 0.42339 + 4.89613I

u = −1.043070 − 0.939013I

a = −0.010456 + 0.755078I

b = 0.438217 − 1.074260I

−0.86599 + 7.63655I 0.42339 − 4.89613I

u = −0.473262 + 0.000907I

a = −0.32200 + 3.04257I

b = −0.403752 − 0.680833I

1.20753 − 2.46681I 11.74185 + 5.49254I

u = −0.473262 − 0.000907I

a = −0.32200 − 3.04257I

b = −0.403752 + 0.680833I

1.20753 + 2.46681I 11.74185 − 5.49254I

u = 1.17795 + 1.15587I

a = −0.232707 − 0.959348I

b = −1.42248 + 1.83898I

−14.7900 + 13.6947I −0.22273 − 6.15238I

u = 1.17795 − 1.15587I

a = −0.232707 + 0.959348I

b = −1.42248 − 1.83898I

−14.7900 − 13.6947I −0.22273 + 6.15238I

6

II.

I

u

2

= hu

11

+u

10

+· · ·+4b+3, −9u

11

+3u

10

+· · ·+4a−7, u

12

+u

9

+· · ·+2u+1i

(i) Arc colorings

a

3

=



1

0



a

7

=



0

u



a

4

=



1

−u

2



a

11

=



9

4

u

11

−

3

4

u

10

+ ··· +

17

4

u +

7

4

−

1

4

u

11

−

1

4

u

10

+ ··· −

1

4

u −

3

4



a

8

=



1

2

u

11

− u

10

+ ··· +

5

2

u − 4

−

5

4

u

11

+

5

4

u

10

+ ··· −

5

4

u −

1

4



a

9

=



−

3

4

u

11

+

1

4

u

10

+ ··· +

5

4

u −

17

4

−

5

4

u

11

+

5

4

u

10

+ ··· −

5

4

u −

1

4



a

12

=



9

4

u

11

−

3

4

u

10

+ ··· +

13

4

u +

7

4

−

1

4

u

11

−

1

4

u

10

+ ··· −

1

4

u −

3

4



a

6

=



u

11

−

1

2

u

10

+ ··· + u −

5

2

1

4

u

11

+

3

4

u

10

+ ··· +

1

4

u +

1

4



a

2

=



−

3

4

u

11

+

7

4

u

10

+ ··· −

15

4

u −

7

4

1

4

u

11

+

5

4

u

10

+ ··· +

9

4

u +

7

4



a

1

=



−

1

2

u

11

+ 3u

10

+ ··· + 5u

2

−

3

2

u

1

4

u

11

+

5

4

u

10

+ ··· +

9

4

u +

7

4



a

5

=



3

4

u

11

−

7

4

u

10

+ ··· +

3

4

u −

13

4

1

2

u

11

− 2u

10

+ ··· −

5

2

u − 2



a

10

=



−

5

2

u

11

+

3

2

u

10

+ ··· −

9

2

u −

17

2

3

4

u

11

+

1

4

u

10

+ ··· +

7

4

u +

7

4



(ii) Obstruction class = 1

(iii) Cusp Shapes

=

43

4

u

11

−

23

4

u

10

−

5

4

u

9

+ 13u

8

+

183

4

u

7

− 17u

6

+

25

2

u

5

+

69

2

u

4

+ 36u

3

− 30u

2

+

35

4

u +

63

4

7

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

12

− 11u

11

+ ··· + 38u + 9

c

2

u

12

+ 7u

11

+ ··· + 8u + 3

c

3

, c

11

u

12

+ u

9

+ 5u

8

+ u

7

+ 2u

6

+ 4u

5

+ 6u

4

+ u

2

+ 2u + 1

c

4

, c

8

u

12

+ u

11

+ ··· + 3u + 1

c

5

u

12

− 7u

11

+ ··· − 8u + 3

c

6

u

12

− 6u

11

+ ··· − 2u + 1

c

7

u

12

− 6u

11

+ ··· − 26u + 7

c

9

, c

12

u

12

− u

11

+ ··· − 3u + 1

c

10

u

12

+ 6u

11

+ ··· + 26u + 7

8

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

12

− 31y

11

+ ··· − 814y + 81

c

2

, c

5

y

12

− 11y

11

+ ··· + 38y + 9

c

3

, c

11

y

12

+ 10y

10

+ ··· − 2y + 1

c

4

, c

8

y

12

+ 15y

11

+ ··· + 9y + 1

c

6

y

12

+ 2y

11

+ ··· + 8y + 1

c

7

, c

10

y

12

+ 6y

11

+ ··· + 94y + 49

c

9

, c

12

y

12

+ 15y

11

+ ··· − y + 1

9

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = 0.524174 + 0.935405I

a = 0.211373 + 0.651851I

b = 0.241922 − 0.751427I

−2.32559 + 0.11843I −3.60485 − 1.52557I

u = 0.524174 − 0.935405I

a = 0.211373 − 0.651851I

b = 0.241922 + 0.751427I

−2.32559 − 0.11843I −3.60485 + 1.52557I

u = −0.832813 + 0.793470I

a = −0.792558 + 0.118594I

b = 0.72679 − 1.84852I

−14.9054 + 3.0198I −0.549763 − 0.305805I

u = −0.832813 − 0.793470I

a = −0.792558 − 0.118594I

b = 0.72679 + 1.84852I

−14.9054 − 3.0198I −0.549763 + 0.305805I

u = 0.541589 + 0.596557I

a = −1.48280 + 0.71503I

b = −0.172321 + 0.406331I

−2.07362 + 3.61491I −0.01596 − 8.87319I

u = 0.541589 − 0.596557I

a = −1.48280 − 0.71503I

b = −0.172321 − 0.406331I

−2.07362 − 3.61491I −0.01596 + 8.87319I

u = −0.909125 + 0.811540I

a = −0.238321 + 1.090800I

b = −0.66042 − 1.34636I

1.42905 − 4.46443I 1.98459 + 3.93924I

u = −0.909125 − 0.811540I

a = −0.238321 − 1.090800I

b = −0.66042 + 1.34636I

1.42905 + 4.46443I 1.98459 − 3.93924I

u = −0.461441 + 0.292331I

a = −0.46843 + 2.98345I

b = −0.283743 − 0.799009I

0.90472 − 3.05984I 8.0892 + 13.7973I

u = −0.461441 − 0.292331I

a = −0.46843 − 2.98345I

b = −0.283743 + 0.799009I

0.90472 + 3.05984I 8.0892 − 13.7973I

10

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = 1.13762 + 0.99536I

a = 0.270741 + 0.824638I

b = 0.64778 − 1.85872I

0.52151 + 9.30484I 3.09676 − 8.25985I

u = 1.13762 − 0.99536I

a = 0.270741 − 0.824638I

b = 0.64778 + 1.85872I

0.52151 − 9.30484I 3.09676 + 8.25985I

11

III.

I

u

3

= h4.83 × 10

21

u

23

− 1.44 × 10

22

u

22

+ · · · + 2.65 × 10

21

b + 1.79 × 10

22

, 9.79 ×

10

19

u

23

−3.52×10

20

u

22

+· · ·+1.93×10

19

a+1.10×10

20

, u

24

−3u

23

+· · ·+8u+1i

(i) Arc colorings

a

3

=



1

0



a

7

=



0

u



a

4

=



1

−u

2



a

11

=



−5.06331u

23

+ 18.2287u

22

+ ··· − 48.2690u − 5.69044

−1.82259u

23

+ 5.42911u

22

+ ··· − 40.5303u − 6.75278



a

8

=



−10.1391u

23

+ 35.9200u

22

+ ··· − 106.991u − 14.7972

2.64920u

23

− 9.10533u

22

+ ··· + 27.2338u + 2.94973



a

9

=



−7.48988u

23

+ 26.8147u

22

+ ··· − 79.7574u − 11.8475

2.64920u

23

− 9.10533u

22

+ ··· + 27.2338u + 2.94973



a

12

=



−8.40607u

23

+ 28.7312u

22

+ ··· − 108.046u − 15.4820

−2.07131u

23

+ 6.35594u

22

+ ··· − 40.0796u − 6.27861



a

6

=



−9.40607u

23

+ 31.7312u

22

+ ··· − 138.046u − 23.4820

1.75146u

23

− 7.12240u

22

+ ··· − 3.70802u − 2.61876



a

2

=



−9.79160u

23

+ 32.7176u

22

+ ··· − 131.227u − 18.5553

−3.85941u

23

+ 13.5659u

22

+ ··· − 36.8737u − 5.64255



a

1

=



−13.6510u

23

+ 46.2835u

22

+ ··· − 168.100u − 24.1978

−3.85941u

23

+ 13.5659u

22

+ ··· − 36.8737u − 5.64255



a

5

=



−8.19967u

23

+ 25.0149u

22

+ ··· − 158.975u − 28.9010

−0.108090u

23

+ 1.78381u

22

+ ··· + 33.1497u + 6.11529



a

10

=



−7.41410u

23

+ 26.8547u

22

+ ··· − 78.1869u − 10.1474

−1.90049u

23

+ 4.94162u

22

+ ··· − 48.4935u − 8.37022



(ii) Obstruction class = −1

(iii) Cusp Shapes =

25674569131799378400018

2647827155991442828823

u

23

−

93630207416059654480934

2647827155991442828823

u

22

+ ··· +

253445417873904870605806

2647827155991442828823

u +

33919201463985866967416

2647827155991442828823

12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

(u

6

+ 9u

5

+ 22u

4

+ 7u

3

+ 4u

2

− 4u + 1)

4

c

2

, c

5

(u

6

− 3u

5

+ 3u

3

+ 2u

2

+ 1)

4

c

3

, c

11

u

24

− 3u

23

+ ··· + 8u + 1

c

4

, c

8

u

24

+ u

23

+ ··· − 350u + 139

c

6

(u

2

+ u + 1)

12

c

7

, c

10

(u

6

+ u

5

+ 2u

4

+ u

3

+ 2u

2

+ 2u + 1)

4

c

9

, c

12

u

24

− u

23

+ ··· + 3722u + 2473

13

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

(y

6

− 37y

5

+ 366y

4

+ 201y

3

+ 116y

2

− 8y + 1)

4

c

2

, c

5

(y

6

− 9y

5

+ 22y

4

− 7y

3

+ 4y

2

+ 4y + 1)

4

c

3

, c

11

y

24

+ y

23

+ ··· − 4y + 1

c

4

, c

8

y

24

+ 49y

23

+ ··· + 13164y + 19321

c

6

(y

2

+ y + 1)

12

c

7

, c

10

(y

6

+ 3y

5

+ 6y

4

+ 5y

3

+ 4y

2

+ 1)

4

c

9

, c

12

y

24

+ 51y

23

+ ··· + 67849690y + 6115729

14

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

3

√

−1(vol +

√

−1CS) Cusp shape

u = 0.373872 + 0.942544I

a = 0.158900 + 0.657788I

b = −0.552066 − 0.133903I

−2.03447 + 2.26308I −3.01274 − 4.61865I

u = 0.373872 − 0.942544I

a = 0.158900 − 0.657788I

b = −0.552066 + 0.133903I

−2.03447 − 2.26308I −3.01274 + 4.61865I

u = 0.382758 + 1.064110I

a = −0.497044 + 0.348026I

b = −0.579720 + 0.556799I

−2.03447 + 1.79668I −3.01274 − 2.30956I

u = 0.382758 − 1.064110I

a = −0.497044 − 0.348026I

b = −0.579720 − 0.556799I

−2.03447 − 1.79668I −3.01274 + 2.30956I

u = −0.769320 + 0.956480I

a = −0.492536 + 0.961676I

b = −0.27677 − 1.50069I

0.61992 − 6.50680I 0.39807 + 6.46471I

u = −0.769320 − 0.956480I

a = −0.492536 − 0.961676I

b = −0.27677 + 1.50069I

0.61992 + 6.50680I 0.39807 − 6.46471I

u = −1.134620 + 0.514340I

a = 0.278708 + 0.475094I

b = −0.465702 − 1.103180I

−2.03447 − 2.26308I −3.01274 + 4.61865I

u = −1.134620 − 0.514340I

a = 0.278708 − 0.475094I

b = −0.465702 + 1.103180I

−2.03447 + 2.26308I −3.01274 − 4.61865I

u = −0.335084 + 1.275540I

a = −0.790298 − 0.263948I

b = 0.550295 − 0.611586I

−15.0348 + 0.3480I −1.38532 + 0.49466I

u = −0.335084 − 1.275540I

a = −0.790298 + 0.263948I

b = 0.550295 + 0.611586I

−15.0348 − 0.3480I −1.38532 − 0.49466I

15

Solutions to I

u

3

√

−1(vol +

√

−1CS) Cusp shape

u = 0.151187 + 0.595299I

a = 1.69413 + 1.33889I

b = 0.274756 − 0.063861I

0.61992 + 2.44703I 0.398066 + 0.463490I

u = 0.151187 − 0.595299I

a = 1.69413 − 1.33889I

b = 0.274756 + 0.063861I

0.61992 − 2.44703I 0.398066 − 0.463490I

u = −0.527891 + 0.202784I

a = 0.12502 + 2.34194I

b = −0.379910 − 1.124860I

0.61992 − 2.44703I 0.398066 − 0.463490I

u = −0.527891 − 0.202784I

a = 0.12502 − 2.34194I

b = −0.379910 + 1.124860I

0.61992 + 2.44703I 0.398066 + 0.463490I

u = −0.385179 + 0.402316I

a = 0.44579 − 1.92187I

b = 1.89981 + 1.60725I

−15.0348 − 4.4077I −1.38532 + 6.43354I

u = −0.385179 − 0.402316I

a = 0.44579 + 1.92187I

b = 1.89981 − 1.60725I

−15.0348 + 4.4077I −1.38532 − 6.43354I

u = −0.373222 + 0.191183I

a = 1.62002 − 0.23037I

b = 0.249186 − 0.809251I

−2.03447 − 1.79668I −3.01274 + 2.30956I

u = −0.373222 − 0.191183I

a = 1.62002 + 0.23037I

b = 0.249186 + 0.809251I

−2.03447 + 1.79668I −3.01274 − 2.30956I

u = 1.52174 + 0.46379I

a = 0.193145 − 0.663179I

b = −1.67691 + 2.39599I

−15.0348 + 0.3480I −1.38532 + 0.49466I

u = 1.52174 − 0.46379I

a = 0.193145 + 0.663179I

b = −1.67691 − 2.39599I

−15.0348 − 0.3480I −1.38532 − 0.49466I

16

Solutions to I

u

3

√

−1(vol +

√

−1CS) Cusp shape

u = 1.29760 + 1.08646I

a = 0.214287 + 0.753794I

b = 1.24819 − 1.94012I

0.61992 + 6.50680I 0.39807 − 6.46471I

u = 1.29760 − 1.08646I

a = 0.214287 − 0.753794I

b = 1.24819 + 1.94012I

0.61992 − 6.50680I 0.39807 + 6.46471I

u = 1.29815 + 1.49503I

a = 0.549874 + 0.075134I

b = 0.20884 − 1.69072I

−15.0348 − 4.4077I 0. + 6.43354I

u = 1.29815 − 1.49503I

a = 0.549874 − 0.075134I

b = 0.20884 + 1.69072I

−15.0348 + 4.4077I 0. − 6.43354I

17

IV. I

u

4

=

h5u

7

−18u

6

+· · ·+11b+21, −7u

7

+23u

6

+· · ·+11a−14, u

8

−2u

7

+· · ·+2u+1i

(i) Arc colorings

a

3

=



1

0



a

7

=



0

u



a

4

=



1

−u

2



a

11

=



7

11

u

7

−

23

11

u

6

+ ··· + 2u +

14

11

−0.454545u

7

+ 1.63636u

6

+ ··· + 4.81818u

2

− 1.90909



a

8

=



−u

7

+ 2u

6

− u

5

+ 2u

4

− 6u

3

+ 4u

2

+ 2u − 2

2

11

u

7

+

6

11

u

6

+ ··· − 2u −

7

11



a

9

=



−0.818182u

7

+ 2.54545u

6

+ ··· + 7.27273u

2

− 2.63636

2

11

u

7

+

6

11

u

6

+ ··· − 2u −

7

11



a

12

=



1

11

u

7

−

8

11

u

6

+ ··· + 3u +

2

11

−0.818182u

7

+ 1.54545u

6

+ ··· + 4.27273u

2

− 1.63636



a

6

=



−1.09091u

7

+ 2.72727u

6

+ ··· − u − 2.18182

1



a

2

=



12

11

u

7

−

30

11

u

6

+ ··· + u +

35

11

−1



a

1

=



12

11

u

7

−

30

11

u

6

+ ··· + u +

24

11

−1



a

5

=



1

0



a

10

=



0

1

11

u

7

+

3

11

u

6

+ ··· − u −

9

11



(ii) Obstruction class = 1

(iii) Cusp Shapes =

24

11

u

7

−

60

11

u

6

+

32

11

u

5

−

64

11

u

4

+ 16u

3

−

140

11

u

2

+

48

11

18

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

2

(u − 1)

8

c

3

, c

11

u

8

− 2u

7

+ u

6

− 2u

5

+ 6u

4

− 4u

3

− 2u

2

+ 2u + 1

c

4

, c

8

u

8

+ u

6

− 2u

5

+ 2u

4

+ 2u

3

+ 6u

2

+ 2u + 1

c

5

(u + 1)

8

c

6

(u

2

+ u + 1)

4

c

7

, c

10

(u

2

+ 1)

4

c

9

, c

12

(u

4

− u

2

+ 1)

2

19

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

2

, c

5

(y −1)

8

c

3

, c

11

y

8

− 2y

7

+ 5y

6

− 12y

5

+ 26y

4

− 30y

3

+ 32y

2

− 8y + 1

c

4

, c

8

y

8

+ 2y

7

+ 5y

6

+ 12y

5

+ 26y

4

+ 30y

3

+ 32y

2

+ 8y + 1

c

6

(y

2

+ y + 1)

4

c

7

, c

10

(y + 1)

8

c

9

, c

12

(y

2

− y + 1)

4

20

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

4

√

−1(vol +

√

−1CS) Cusp shape

u = 0.916440 + 0.695963I

a = −0.525562 − 0.692057I

b = −0.279522 + 0.746378I

− 2.02988I 2.00000 + 3.46410I

u = 0.916440 − 0.695963I

a = −0.525562 + 0.692057I

b = −0.279522 − 0.746378I

2.02988I 2.00000 − 3.46410I

u = 1.266520 + 0.378347I

a = −0.216544 − 0.724880I

b = 0.38817 + 2.51089I

2.02988I 2.00000 − 3.46410I

u = 1.266520 − 0.378347I

a = −0.216544 + 0.724880I

b = 0.38817 − 2.51089I

− 2.02988I 2.00000 + 3.46410I

u = −0.76652 + 1.24437I

a = 0.582569 − 0.358854I

b = −0.022144 + 1.144860I

− 2.02988I 2.00000 + 3.46410I

u = −0.76652 − 1.24437I

a = 0.582569 + 0.358854I

b = −0.022144 − 1.144860I

2.02988I 2.00000 − 3.46410I

u = −0.416440 + 0.170063I

a = −0.84046 + 2.05808I

b = −1.08650 − 1.11240I

− 2.02988I 2.00000 + 3.46410I

u = −0.416440 − 0.170063I

a = −0.84046 − 2.05808I

b = −1.08650 + 1.11240I

2.02988I 2.00000 − 3.46410I

21

V. u-Polynomials

Crossings u-Polynomials at each crossing

c

1

(u − 1)

8

(u

6

+ 9u

5

+ 22u

4

+ 7u

3

+ 4u

2

− 4u + 1)

4

· (u

12

− 11u

11

+ ··· + 38u + 9)(u

18

+ 38u

17

+ ··· + 21004u + 2704)

c

2

((u − 1)

8

)(u

6

− 3u

5

+ ··· + 2u

2

+ 1)

4

(u

12

+ 7u

11

+ ··· + 8u + 3)

· (u

18

+ 12u

17

+ ··· − 42u + 52)

c

3

, c

11

(u

8

− 2u

7

+ u

6

− 2u

5

+ 6u

4

− 4u

3

− 2u

2

+ 2u + 1)

· (u

12

+ u

9

+ 5u

8

+ u

7

+ 2u

6

+ 4u

5

+ 6u

4

+ u

2

+ 2u + 1)

· (u

18

− u

16

+ ··· + 3u + 1)(u

24

− 3u

23

+ ··· + 8u + 1)

c

4

, c

8

(u

8

+ u

6

+ ··· + 2u + 1)(u

12

+ u

11

+ ··· + 3u + 1)

· (u

18

− u

17

+ ··· − 6u

2

+ 1)(u

24

+ u

23

+ ··· − 350u + 139)

c

5

((u + 1)

8

)(u

6

− 3u

5

+ ··· + 2u

2

+ 1)

4

(u

12

− 7u

11

+ ··· − 8u + 3)

· (u

18

+ 12u

17

+ ··· − 42u + 52)

c

6

((u

2

+ u + 1)

16

)(u

12

− 6u

11

+ ··· − 2u + 1)

· (u

18

− 13u

17

+ ··· − 184u + 32)

c

7

(u

2

+ 1)

4

(u

6

+ u

5

+ 2u

4

+ u

3

+ 2u

2

+ 2u + 1)

4

· (u

12

− 6u

11

+ ··· − 26u + 7)(u

18

− 11u

17

+ ··· − 34u + 4)

c

9

, c

12

((u

4

− u

2

+ 1)

2

)(u

12

− u

11

+ ··· − 3u + 1)(u

18

+ u

17

+ ··· + 27u + 2)

· (u

24

− u

23

+ ··· + 3722u + 2473)

c

10

(u

2

+ 1)

4

(u

6

+ u

5

+ 2u

4

+ u

3

+ 2u

2

+ 2u + 1)

4

· (u

12

+ 6u

11

+ ··· + 26u + 7)(u

18

− 11u

17

+ ··· − 34u + 4)

22

VI. Riley Polynomials

Crossings Riley Polynomials at each crossing

c

1

(y −1)

8

(y

6

− 37y

5

+ 366y

4

+ 201y

3

+ 116y

2

− 8y + 1)

4

· (y

12

− 31y

11

+ ··· − 814y + 81)

· (y

18

− 146y

17

+ ··· − 126806384y + 7311616)

c

2

, c

5

(y −1)

8

(y

6

− 9y

5

+ 22y

4

− 7y

3

+ 4y

2

+ 4y + 1)

4

· (y

12

− 11y

11

+ ··· + 38y + 9)(y

18

− 38y

17

+ ··· − 21004y + 2704)

c

3

, c

11

(y

8

− 2y

7

+ 5y

6

− 12y

5

+ 26y

4

− 30y

3

+ 32y

2

− 8y + 1)

· (y

12

+ 10y

10

+ ··· − 2y + 1)(y

18

− 2y

17

+ ··· − 11y + 1)

· (y

24

+ y

23

+ ··· − 4y + 1)

c

4

, c

8

(y

8

+ 2y

7

+ 5y

6

+ 12y

5

+ 26y

4

+ 30y

3

+ 32y

2

+ 8y + 1)

· (y

12

+ 15y

11

+ ··· + 9y + 1)(y

18

+ 29y

17

+ ··· − 12y + 1)

· (y

24

+ 49y

23

+ ··· + 13164y + 19321)

c

6

((y

2

+ y + 1)

16

)(y

12

+ 2y

11

+ ··· + 8y + 1)

· (y

18

+ 3y

17

+ ··· + 8896y + 1024)

c

7

, c

10

(y + 1)

8

(y

6

+ 3y

5

+ 6y

4

+ 5y

3

+ 4y

2

+ 1)

4

· (y

12

+ 6y

11

+ ··· + 94y + 49)(y

18

+ 7y

17

+ ··· + 212y + 16)

c

9

, c

12

((y

2

− y + 1)

4

)(y

12

+ 15y

11

+ ··· − y + 1)(y

18

+ 41y

17

+ ··· − 53y + 4)

· (y

24

+ 51y

23

+ ··· + 67849690y + 6115729)

23