12a

0750

(K12a

0750

)

A knot diagram

1

Linearized knot diagam

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

Solving Sequence

6,11

5

7,12

8 1

4,10

3 2 9

c

5

c

11

c

7

c

12

c

10

c

3

c

2

c

9

c

1

, c

4

, c

6

, c

8

Ideals for irreducible components

2

of X

par

I

u

1

= h−u

2

+ d, −u

9

+ 2u

8

− 7u

7

+ 12u

6

− 18u

5

+ 23u

4

− 17u

3

+ 10u

2

+ 4c − u − 3,

− u

9

+ 2u

8

− 7u

7

+ 12u

6

− 18u

5

+ 23u

4

− 17u

3

+ 10u

2

+ 4b − u + 1,

− u

9

+ 2u

8

− 7u

7

+ 12u

6

− 18u

5

+ 23u

4

− 17u

3

+ 10u

2

+ 4a − u − 3,

u

10

− u

9

+ 7u

8

− 7u

7

+ 18u

6

− 17u

5

+ 18u

4

− 15u

3

+ 3u

2

+ 1i

I

u

2

= h−u

2

+ d, u

6

+ 2u

5

+ 5u

4

+ 6u

3

+ 5u

2

+ c + 3u + 1, b − 1, −u

7

− 2u

6

− 6u

5

− 6u

4

− 8u

3

− 3u

2

+ 2a − u − 1,

u

8

+ 2u

7

+ 6u

6

+ 8u

5

+ 10u

4

+ 9u

3

+ 5u

2

+ 3u + 2i

I

u

3

= h−u

6

− u

5

− 3u

4

− 2u

3

− u

2

+ d − u + 1, −u

7

− 2u

6

− 6u

5

− 6u

4

− 8u

3

− 3u

2

+ 2c − u − 1,

u

6

+ 2u

5

+ 5u

4

+ 6u

3

+ 5u

2

+ b + 3u + 2, u

6

+ 2u

5

+ 5u

4

+ 6u

3

+ 5u

2

+ a + 3u + 1,

u

8

+ 2u

7

+ 6u

6

+ 8u

5

+ 10u

4

+ 9u

3

+ 5u

2

+ 3u + 2i

I

u

4

= h−u

6

− 2u

4

+ u

3

+ 2d + 2u + 2, u

7

− u

6

+ 3u

5

− u

4

+ 3u

3

− u

2

+ 4c + 2u − 4, b − 1,

u

7

− u

6

+ 3u

5

− u

4

+ 3u

3

− u

2

+ 4a + 2u − 4, u

8

− u

7

+ 3u

6

− 3u

5

+ 3u

4

− 5u

3

+ 4u

2

− 4u + 4i

I

u

5

= h−u

2

+ d, −u

2

+ c + u, b − 1, a

2

+ 2u

2

− a − u + 5, u

3

+ 2u + 1i

I

u

6

= hu

2

c + d + 1, c

2

+ 2u

2

− c − u + 5, −u

2

+ b + u + 1, −u

2

+ a + u, u

3

+ 2u + 1i

I

u

7

= h−u

4

+ d − u + 1, −u

5

− u

3

+ 2c − u − 1, b − 1, −u

5

− u

3

+ 2a − u − 1, u

6

+ u

4

+ 2u

3

+ u

2

+ u + 2i

I

u

8

= h−u

2

+ d, −u

2

+ c + u, −u

2

+ b + u + 1, −u

2

+ a + u, u

3

+ 2u + 1i

I

u

9

= h−u

2

+ d, 2u

3

− 2u

2

+ c + 2u − 1, b − 1, u

3

+ a + 2u − 1, u

4

− u

3

+ 2u

2

− 2u + 1i

I

u

10

= h−u

3

+ u

2

+ d − u + 2, u

3

+ c + 2u − 1, b − 1, −u

3

+ a − 2u, u

4

− u

3

+ 2u

2

− 2u + 1i

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).

1

I

u

11

= h−u

3

+ u

2

+ d − u + 2, u

3

+ c + 2u − 1, b − 1, u

3

+ a + 2u − 1, u

4

− u

3

+ 2u

2

− 2u + 1i

I

u

12

= h−u

3

+ u

2

+ d − u + 2, u

3

+ c + 2u − 1, 2u

3

− 2u

2

+ b + 2u, 2u

3

− 2u

2

+ a + 2u − 1, u

4

− u

3

+ 2u

2

− 2u + 1i

I

u

13

= hu

3

+ d + u, −u

3

+ c − 2u, b − 1, u

3

+ a + 2u − 1, u

4

− u

3

+ 2u

2

− 2u + 1i

I

u

14

= hau + d + a − u, c + a − 1, b − 1, a

2

− a + u + 1, u

2

+ u + 1i

I

u

15

= hd + 1, c − u, b + u − 1, a + u, u

2

+ 1i

I

u

16

= hd, c − 1, b − u − 1, a − u, u

2

+ 1i

I

u

17

= hd + 1, c + u, b − 1, a − 1, u

2

+ 1i

I

u

18

= hd + 1, ca + u − 1, b − a − 1, u

2

+ 1i

I

v

1

= ha, d + 1, c + a − v −2, b −1, v

2

+ 1i

* 18 irreducible components of dim

C

= 0, with total 87 representations.

* 1 irreducible components of dim

C

= 1

2

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

in decimal forms when there is not enough margin.

2

I. I

u

1

= h−u

2

+ d, −u

9

+ 2u

8

+ · · · + 4c − 3, −u

9

+ 2u

8

+ · · · + 4b + 1, −u

9

+

2u

8

+ · · · + 4a − 3, u

10

− u

9

+ · · · + 3u

2

+ 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



1

4

u

9

−

1

2

u

8

+ ··· +

1

4

u +

3

4

u

2



a

12

=



−u

u

3

+ u



a

8

=



1

4

u

9

−

1

2

u

8

+ ··· +

1

4

u +

3

4

u

4

+ 2u

2



a

1

=



1

4

u

9

+

5

4

u

7

+ ··· −

7

4

u +

1

4

u



a

4

=



1

4

u

9

−

1

2

u

8

+ ··· +

1

4

u +

3

4

1

4

u

9

−

1

2

u

8

+ ··· +

1

4

u −

1

4



a

10

=



u



a

3

=



1

4

u

9

−

1

2

u

8

+ ··· +

1

4

u +

3

4

1

4

u

9

−

1

2

u

8

+ ··· +

1

4

u −

1

4



a

2

=



−u

3

− 2u + 1

−

1

4

u

9

−

7

4

u

7

+ ··· +

5

4

u +

1

4



a

9

=



−

1

4

u

9

−

5

4

u

7

+ ··· +

7

4

u −

1

4

−

1

4

u

9

−

5

4

u

7

+ ··· +

3

4

u −

1

4



(ii) Obstruction class = −1

(iii) Cusp Shapes = 3u

8

− u

7

+ 18u

6

− 8u

5

+ 36u

4

− 19u

3

+ 20u

2

− 16u − 11

3

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

10

+ 3u

9

+ 8u

8

+ 10u

7

+ 14u

6

+ 8u

5

+ 5u

4

+ 15u

3

+ 48u

2

+ 48u + 16

c

2

, c

8

u

10

− u

9

+ 2u

8

− 2u

7

+ 4u

6

− 6u

5

+ 5u

4

− 7u

3

+ 8u

2

− 4u + 4

c

3

, c

4

, c

5

c

6

, c

7

, c

9

c

10

, c

11

, c

12

u

10

− u

9

+ 7u

8

− 7u

7

+ 18u

6

− 17u

5

+ 18u

4

− 15u

3

+ 3u

2

+ 1

4

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

10

+ 7y

9

+ ··· − 768y + 256

c

2

, c

8

y

10

+ 3y

9

+ 8y

8

+ 10y

7

+ 14y

6

+ 8y

5

+ 5y

4

+ 15y

3

+ 48y

2

+ 48y + 16

c

3

, c

4

, c

5

c

6

, c

7

, c

9

c

10

, c

11

, c

12

y

10

+ 13y

9

+ ··· + 6y + 1

5

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = 0.679448 + 0.180150I

a = 0.359501 − 0.232867I

b = −0.640499 − 0.232867I

c = 0.359501 − 0.232867I

d = 0.429196 + 0.244805I

−3.36992 − 3.42590I −13.9202 + 5.8734I

u = 0.679448 − 0.180150I

a = 0.359501 + 0.232867I

b = −0.640499 + 0.232867I

c = 0.359501 + 0.232867I

d = 0.429196 − 0.244805I

−3.36992 + 3.42590I −13.9202 − 5.8734I

u = 0.40586 + 1.47601I

a = −1.82314 − 0.97271I

b = −2.82314 − 0.97271I

c = −1.82314 − 0.97271I

d = −2.01389 + 1.19812I

12.8882 − 16.0216I −1.20715 + 8.19647I

u = 0.40586 − 1.47601I

a = −1.82314 + 0.97271I

b = −2.82314 + 0.97271I

c = −1.82314 + 0.97271I

d = −2.01389 − 1.19812I

12.8882 + 16.0216I −1.20715 − 8.19647I

u = −0.34141 + 1.51774I

a = −1.95611 + 0.83479I

b = −2.95611 + 0.83479I

c = −1.95611 + 0.83479I

d = −2.18697 − 1.03634I

15.7344 + 9.7447I 1.47516 − 4.40501I

u = −0.34141 − 1.51774I

a = −1.95611 − 0.83479I

b = −2.95611 − 0.83479I

c = −1.95611 − 0.83479I

d = −2.18697 + 1.03634I

15.7344 − 9.7447I 1.47516 + 4.40501I

6

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = −0.05876 + 1.63300I

a = −2.18667 + 0.13692I

b = −3.18667 + 0.13692I

c = −2.18667 + 0.13692I

d = −2.66324 − 0.19191I

−19.6670 + 3.4566I 2.19060 − 2.42157I

u = −0.05876 − 1.63300I

a = −2.18667 − 0.13692I

b = −3.18667 − 0.13692I

c = −2.18667 − 0.13692I

d = −2.66324 + 0.19191I

−19.6670 − 3.4566I 2.19060 + 2.42157I

u = −0.185141 + 0.315240I

a = 1.106430 + 0.262999I

b = 0.106427 + 0.262999I

c = 1.106430 + 0.262999I

d = −0.0650991 − 0.1167280I

−0.650910 + 0.940213I −10.53842 − 6.80546I

u = −0.185141 − 0.315240I

a = 1.106430 − 0.262999I

b = 0.106427 − 0.262999I

c = 1.106430 − 0.262999I

d = −0.0650991 + 0.1167280I

−0.650910 − 0.940213I −10.53842 + 6.80546I

7

II. I

u

2

= h−u

2

+ d, u

6

+ 2u

5

+ · · · + c + 1, b − 1, −u

7

− 2u

6

+ · · · + 2a −

1, u

8

+ 2u

7

+ · · · + 3u + 2i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



−u

6

− 2u

5

− 5u

4

− 6u

3

− 5u

2

− 3u − 1

u

2



a

12

=



−u

u

3

+ u



a

8

=



−u

6

− 2u

5

− 5u

4

− 6u

3

− 6u

2

− 3u − 1

u

4

+ 2u

2



a

1

=



u

7

+ 2u

6

+ 5u

5

+ 6u

4

+ 5u

3

+ 3u

2

u



a

4

=



1

2

u

7

+ u

6

+ ··· +

1

2

u +

1

2

1



a

10

=



u



a

3

=



1

2

u

7

+ 2u

6

+ ··· +

3

2

u +

1

2

u

6

+ u

5

+ 3u

4

+ 2u

3

+ 2u

2

+ u + 1



a

2

=



1

2

u

7

+ u

6

+ ··· −

3

2

u −

1

2

−u

7

− u

6

− 4u

5

− 3u

4

− 4u

3

− 2u

2

− 1



a

9

=



1

2

u

7

+ u

6

+ ··· +

5

2

u +

3

2

−u

5

− u

4

− 3u

3

− 2u

2

− u − 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

7

− 2u

6

− 12u

5

− 2u

4

− 4u

3

+ 2u

2

+ 6u − 2

8

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

8

+ 3u

7

+ 8u

6

+ 10u

5

+ 14u

4

+ 11u

3

+ 12u

2

+ 4u + 1

c

2

, c

8

u

8

− u

7

+ 2u

6

− 2u

5

+ 4u

4

− 3u

3

+ 2u

2

+ 1

c

3

, c

4

, c

9

u

8

− u

7

+ 3u

6

− 3u

5

+ 3u

4

− 5u

3

+ 4u

2

− 4u + 4

c

5

, c

6

, c

7

c

10

, c

11

, c

12

u

8

+ 2u

7

+ 6u

6

+ 8u

5

+ 10u

4

+ 9u

3

+ 5u

2

+ 3u + 2

9

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

8

+ 7y

7

+ 32y

6

+ 82y

5

+ 146y

4

+ 151y

3

+ 84y

2

+ 8y + 1

c

2

, c

8

y

8

+ 3y

7

+ 8y

6

+ 10y

5

+ 14y

4

+ 11y

3

+ 12y

2

+ 4y + 1

c

3

, c

4

, c

9

y

8

+ 5y

7

+ 9y

6

+ 7y

5

+ 3y

4

− y

3

+ 16y + 16

c

5

, c

6

, c

7

c

10

, c

11

, c

12

y

8

+ 8y

7

+ 24y

6

+ 30y

5

+ 8y

4

− 5y

3

+ 11y

2

+ 11y + 4

10

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = −0.832019 + 0.315048I

a = 0.187629 + 1.339450I

b = 1.00000

c = 0.132804 + 0.372803I

d = 0.593000 − 0.524253I

1.55583 + 6.79402I −7.11839 − 7.09473I

u = −0.832019 − 0.315048I

a = 0.187629 − 1.339450I

b = 1.00000

c = 0.132804 − 0.372803I

d = 0.593000 + 0.524253I

1.55583 − 6.79402I −7.11839 + 7.09473I

u = 0.251759 + 0.670878I

a = −0.545199 − 0.612937I

b = 1.00000

c = 1.50200 − 1.37807I

d = −0.386695 + 0.337799I

3.51088 − 1.27680I −2.16898 + 5.88514I

u = 0.251759 − 0.670878I

a = −0.545199 + 0.612937I

b = 1.00000

c = 1.50200 + 1.37807I

d = −0.386695 − 0.337799I

3.51088 + 1.27680I −2.16898 − 5.88514I

u = −0.09342 + 1.48598I

a = 0.448861 + 0.552340I

b = 1.00000

c = −2.58269 + 0.36635I

d = −2.19941 − 0.27763I

10.73060 − 0.66722I 0.81639 + 2.10627I

u = −0.09342 − 1.48598I

a = 0.448861 − 0.552340I

b = 1.00000

c = −2.58269 − 0.36635I

d = −2.19941 + 0.27763I

10.73060 + 0.66722I 0.81639 − 2.10627I

11

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = −0.32632 + 1.45375I

a = 0.658708 − 0.606572I

b = 1.00000

c = −2.05212 + 0.99140I

d = −2.00689 − 0.94878I

7.23180 + 10.98940I −3.52901 − 7.14773I

u = −0.32632 − 1.45375I

a = 0.658708 + 0.606572I

b = 1.00000

c = −2.05212 − 0.99140I

d = −2.00689 + 0.94878I

7.23180 − 10.98940I −3.52901 + 7.14773I

12

III. I

u

3

= h−u

6

− u

5

+ · · · + d + 1, −u

7

− 2u

6

+ · · · + 2c − 1, u

6

+ 2u

5

+ · · · +

b + 2, u

6

+ 2u

5

+ · · · + a + 1, u

8

+ 2u

7

+ · · · + 3u + 2i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



1

2

u

7

+ u

6

+ ··· +

1

2

u +

1

2

u

6

+ u

5

+ 3u

4

+ 2u

3

+ u

2

+ u − 1



a

12

=



−u

u

3

+ u



a

8

=



1

2

u

7

+ 2u

6

+ ··· +

3

2

u +

1

2

u

7

+ 3u

6

+ 6u

5

+ 8u

4

+ 8u

3

+ 4u

2

+ 3u + 1



a

1

=



−

1

2

u

7

− u

6

+ ··· −

5

2

u −

3

2

−u

5

− u

4

− 3u

3

− 2u

2

− 2u − 1



a

4

=



−u

6

− 2u

5

− 5u

4

− 6u

3

− 5u

2

− 3u − 1

−u

6

− 2u

5

− 5u

4

− 6u

3

− 5u

2

− 3u − 2



a

10

=



u



a

3

=



−u

6

− 2u

5

− 5u

4

− 6u

3

− 6u

2

− 3u − 1

−u

6

− 2u

5

− 5u

4

− 6u

3

− 6u

2

− 3u − 2



a

2

=



1

2

u

7

− 2u

4

+ ··· −

3

2

u −

1

2

u

7

+ u

5

− 2u

4

− 3u

3

− 3u

2

− 2u − 1



a

9

=



−u

7

− 2u

6

− 5u

5

− 6u

4

− 5u

3

− 3u

2

−u

7

− 2u

6

− 5u

5

− 6u

4

− 5u

3

− 3u

2

− u



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

7

− 2u

6

− 12u

5

− 2u

4

− 4u

3

+ 2u

2

+ 6u − 2

13

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

8

+ 3u

7

+ 8u

6

+ 10u

5

+ 14u

4

+ 11u

3

+ 12u

2

+ 4u + 1

c

2

, c

8

u

8

− u

7

+ 2u

6

− 2u

5

+ 4u

4

− 3u

3

+ 2u

2

+ 1

c

3

, c

4

, c

5

c

9

, c

10

, c

11

u

8

+ 2u

7

+ 6u

6

+ 8u

5

+ 10u

4

+ 9u

3

+ 5u

2

+ 3u + 2

c

6

, c

7

, c

12

u

8

− u

7

+ 3u

6

− 3u

5

+ 3u

4

− 5u

3

+ 4u

2

− 4u + 4

14

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

8

+ 7y

7

+ 32y

6

+ 82y

5

+ 146y

4

+ 151y

3

+ 84y

2

+ 8y + 1

c

2

, c

8

y

8

+ 3y

7

+ 8y

6

+ 10y

5

+ 14y

4

+ 11y

3

+ 12y

2

+ 4y + 1

c

3

, c

4

, c

5

c

9

, c

10

, c

11

y

8

+ 8y

7

+ 24y

6

+ 30y

5

+ 8y

4

− 5y

3

+ 11y

2

+ 11y + 4

c

6

, c

7

, c

12

y

8

+ 5y

7

+ 9y

6

+ 7y

5

+ 3y

4

− y

3

+ 16y + 16

15

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

3

√

−1(vol +

√

−1CS) Cusp shape

u = −0.832019 + 0.315048I

a = 0.132804 + 0.372803I

b = −0.867196 + 0.372803I

c = 0.187629 + 1.339450I

d = −1.81347 − 0.69593I

1.55583 + 6.79402I −7.11839 − 7.09473I

u = −0.832019 − 0.315048I

a = 0.132804 − 0.372803I

b = −0.867196 − 0.372803I

c = 0.187629 − 1.339450I

d = −1.81347 + 0.69593I

1.55583 − 6.79402I −7.11839 + 7.09473I

u = 0.251759 + 0.670878I

a = 1.50200 − 1.37807I

b = 0.50200 − 1.37807I

c = −0.545199 − 0.612937I

d = −1.41788 − 0.05285I

3.51088 − 1.27680I −2.16898 + 5.88514I

u = 0.251759 − 0.670878I

a = 1.50200 + 1.37807I

b = 0.50200 + 1.37807I

c = −0.545199 + 0.612937I

d = −1.41788 + 0.05285I

3.51088 + 1.27680I −2.16898 − 5.88514I

u = −0.09342 + 1.48598I

a = −2.58269 + 0.36635I

b = −3.58269 + 0.36635I

c = 0.448861 + 0.552340I

d = −0.166115 + 1.339440I

10.73060 − 0.66722I 0.81639 + 2.10627I

u = −0.09342 − 1.48598I

a = −2.58269 − 0.36635I

b = −3.58269 − 0.36635I

c = 0.448861 − 0.552340I

d = −0.166115 − 1.339440I

10.73060 + 0.66722I 0.81639 − 2.10627I

16

Solutions to I

u

3

√

−1(vol +

√

−1CS) Cusp shape

u = −0.32632 + 1.45375I

a = −2.05212 + 0.99140I

b = −3.05212 + 0.99140I

c = 0.658708 − 0.606572I

d = 0.897463 − 0.592355I

7.23180 + 10.98940I −3.52901 − 7.14773I

u = −0.32632 − 1.45375I

a = −2.05212 − 0.99140I

b = −3.05212 − 0.99140I

c = 0.658708 + 0.606572I

d = 0.897463 + 0.592355I

7.23180 − 10.98940I −3.52901 + 7.14773I

17

IV. I

u

4

= h−u

6

− 2u

4

+ · · · + 2d + 2, u

7

− u

6

+ · · · + 4c − 4, b − 1, u

7

− u

6

+

· · · + 4a − 4, u

8

− u

7

+ · · · − 4u + 4i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



−

1

4

u

7

+

1

4

u

6

+ ··· −

1

2

u + 1

1

2

u

6

+ u

4

−

1

2

u

3

− u − 1



a

12

=



−u

u

3

+ u



a

8

=



−

1

4

u

7

+

3

4

u

6

+ ··· −

3

2

u + 1

−

1

2

u

7

+

1

2

u

6

+ ··· − 2u + 1



a

1

=



−

1

4

u

7

+

1

4

u

6

+ ··· − u + 1

−

1

2

u

5

− u

3

+

1

2

u

2

− u + 1



a

4

=



−

1

4

u

7

+

1

4

u

6

+ ··· −

1

2

u + 1

1



a

10

=



u



a

3

=



−

1

4

u

7

+

3

4

u

6

+ ··· −

3

2

u + 1

1

2

u

6

+ u

4

−

1

2

u

3

+ u

2

− u + 1



a

2

=



1

2

u

6

−

1

2

u

5

+ ··· −

1

2

u + 1

1

2

u

7

+

1

2

u

6

+ ··· −

1

2

u

2

− u



a

9

=



1

4

u

7

−

1

4

u

6

+ ··· + u − 1

−

1

2

u

5

− u

3

+

1

2

u

2

+ 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = u

7

+ 3u

6

+ u

5

+ 3u

4

− u

3

+ u

2

− 6u + 2

18

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

8

+ 3u

7

+ 8u

6

+ 10u

5

+ 14u

4

+ 11u

3

+ 12u

2

+ 4u + 1

c

2

, c

8

u

8

− u

7

+ 2u

6

− 2u

5

+ 4u

4

− 3u

3

+ 2u

2

+ 1

c

3

, c

4

, c

6

c

7

, c

9

, c

12

u

8

+ 2u

7

+ 6u

6

+ 8u

5

+ 10u

4

+ 9u

3

+ 5u

2

+ 3u + 2

c

5

, c

10

, c

11

u

8

− u

7

+ 3u

6

− 3u

5

+ 3u

4

− 5u

3

+ 4u

2

− 4u + 4

19

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

8

+ 7y

7

+ 32y

6

+ 82y

5

+ 146y

4

+ 151y

3

+ 84y

2

+ 8y + 1

c

2

, c

8

y

8

+ 3y

7

+ 8y

6

+ 10y

5

+ 14y

4

+ 11y

3

+ 12y

2

+ 4y + 1

c

3

, c

4

, c

6

c

7

, c

9

, c

12

y

8

+ 8y

7

+ 24y

6

+ 30y

5

+ 8y

4

− 5y

3

+ 11y

2

+ 11y + 4

c

5

, c

10

, c

11

y

8

+ 5y

7

+ 9y

6

+ 7y

5

+ 3y

4

− y

3

+ 16y + 16

20

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

4

√

−1(vol +

√

−1CS) Cusp shape

u = 0.993174 + 0.298213I

a = 0.295449 − 1.252190I

b = 1.00000

c = 0.295449 − 1.252190I

d = −2.00689 + 0.94878I

7.23180 − 10.98940I −3.52901 + 7.14773I

u = 0.993174 − 0.298213I

a = 0.295449 + 1.252190I

b = 1.00000

c = 0.295449 + 1.252190I

d = −2.00689 − 0.94878I

7.23180 + 10.98940I −3.52901 − 7.14773I

u = −0.769280 + 0.870579I

a = 0.094762 + 0.907210I

b = 1.00000

c = 0.094762 + 0.907210I

d = −2.19941 + 0.27763I

10.73060 + 0.66722I 0.81639 − 2.10627I

u = −0.769280 − 0.870579I

a = 0.094762 − 0.907210I

b = 1.00000

c = 0.094762 − 0.907210I

d = −2.19941 − 0.27763I

10.73060 − 0.66722I 0.81639 + 2.10627I

u = 0.022189 + 1.190950I

a = 0.440820 − 0.221811I

b = 1.00000

c = 0.440820 − 0.221811I

d = −0.386695 − 0.337799I

3.51088 + 1.27680I −2.16898 − 5.88514I

u = 0.022189 − 1.190950I

a = 0.440820 + 0.221811I

b = 1.00000

c = 0.440820 + 0.221811I

d = −0.386695 + 0.337799I

3.51088 − 1.27680I −2.16898 + 5.88514I

21

Solutions to I

u

4

√

−1(vol +

√

−1CS) Cusp shape

u = 0.253917 + 1.370380I

a = 0.668969 + 0.545807I

b = 1.00000

c = 0.668969 + 0.545807I

d = 0.593000 + 0.524253I

1.55583 − 6.79402I −7.11839 + 7.09473I

u = 0.253917 − 1.370380I

a = 0.668969 − 0.545807I

b = 1.00000

c = 0.668969 − 0.545807I

d = 0.593000 − 0.524253I

1.55583 + 6.79402I −7.11839 − 7.09473I

22

V. I

u

5

= h−u

2

+ d, −u

2

+ c + u, b − 1, a

2

+ 2u

2

− a − u + 5, u

3

+ 2u + 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



u

2

− u

u

2



a

12

=



−u

−u − 1



a

8

=



−u



a

1

=



u

2

+ u + 1

u



a

4

=



a

1



a

10

=



u



a

3

=



−u

2

a + u

2

+ a

−u

2

a + u

2

+ 1



a

2

=



a

1



a

9

=



u

2

+ 2

au



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

2

+ 4u − 10

23

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

6

+ 2u

5

+ 3u

4

+ 2u

3

+ u

2

+ 3u + 4

c

2

, c

3

, c

4

c

8

, c

9

u

6

+ u

4

+ 2u

3

+ u

2

+ u + 2

c

5

, c

6

, c

7

c

10

, c

11

, c

12

(u

3

+ 2u + 1)

2

24

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

6

+ 2y

5

+ 3y

4

− 2y

3

+ 13y

2

− y + 16

c

2

, c

3

, c

4

c

8

, c

9

y

6

+ 2y

5

+ 3y

4

+ 2y

3

+ y

2

+ 3y + 4

c

5

, c

6

, c

7

c

10

, c

11

, c

12

(y

3

+ 4y

2

+ 4y −1)

2

25

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

5

√

−1(vol +

√

−1CS) Cusp shape

u = 0.22670 + 1.46771I

a = 0.618738 + 0.576047I

b = 1.00000

c = −2.32948 − 0.80225I

d = −2.10278 + 0.66546I

9.44074 − 5.13794I −0.68207 + 3.20902I

u = 0.22670 + 1.46771I

a = 0.381262 − 0.576047I

b = 1.00000

c = −2.32948 − 0.80225I

d = −2.10278 + 0.66546I

9.44074 − 5.13794I −0.68207 + 3.20902I

u = 0.22670 − 1.46771I

a = 0.618738 − 0.576047I

b = 1.00000

c = −2.32948 + 0.80225I

d = −2.10278 − 0.66546I

9.44074 + 5.13794I −0.68207 − 3.20902I

u = 0.22670 − 1.46771I

a = 0.381262 + 0.576047I

b = 1.00000

c = −2.32948 + 0.80225I

d = −2.10278 − 0.66546I

9.44074 + 5.13794I −0.68207 − 3.20902I

u = −0.453398

a = 0.50000 + 2.36950I

b = 1.00000

c = 0.658967

d = 0.205569

−0.787199 −12.6360

u = −0.453398

a = 0.50000 − 2.36950I

b = 1.00000

c = 0.658967

d = 0.205569

−0.787199 −12.6360

26

VI.

I

u

6

= hu

2

c+d+1, c

2

+2u

2

−c−u+5, −u

2

+b+u+1, −u

2

+a+u, u

3

+2u+1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



c

−u

2

c − 1



a

12

=



−u

−u − 1



a

8

=



−u

2

c + u

2

+ c

−2u

2

c − cu + u

2

+ u − 1



a

1

=



−u

2

− 2

cu − u



a

4

=



u

2

− u

u

2

− u − 1



a

10

=



u



a

3

=



−u

−u − 1



a

2

=



2cu − u

2

+ c − u − 2

−u

2

c + 3cu + c − 2u − 1



a

9

=



−u

2

− u − 1

−u

2

− 2u − 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

2

+ 4u − 10

27

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

6

+ 2u

5

+ 3u

4

+ 2u

3

+ u

2

+ 3u + 4

c

2

, c

6

, c

7

c

8

, c

12

u

6

+ u

4

+ 2u

3

+ u

2

+ u + 2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(u

3

+ 2u + 1)

2

28

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

6

+ 2y

5

+ 3y

4

− 2y

3

+ 13y

2

− y + 16

c

2

, c

6

, c

7

c

8

, c

12

y

6

+ 2y

5

+ 3y

4

+ 2y

3

+ y

2

+ 3y + 4

c

3

, c

4

, c

5

c

9

, c

10

, c

11

(y

3

+ 4y

2

+ 4y −1)

2

29

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

6

√

−1(vol +

√

−1CS) Cusp shape

u = 0.22670 + 1.46771I

a = −2.32948 − 0.80225I

b = −3.32948 − 0.80225I

c = 0.618738 + 0.576047I

d = 0.684408 + 0.799560I

9.44074 − 5.13794I −0.68207 + 3.20902I

u = 0.22670 + 1.46771I

a = −2.32948 − 0.80225I

b = −3.32948 − 0.80225I

c = 0.381262 − 0.576047I

d = −0.58162 − 1.46502I

9.44074 − 5.13794I −0.68207 + 3.20902I

u = 0.22670 − 1.46771I

a = −2.32948 + 0.80225I

b = −3.32948 + 0.80225I

c = 0.618738 − 0.576047I

d = 0.684408 − 0.799560I

9.44074 + 5.13794I −0.68207 − 3.20902I

u = 0.22670 − 1.46771I

a = −2.32948 + 0.80225I

b = −3.32948 + 0.80225I

c = 0.381262 + 0.576047I

d = −0.58162 + 1.46502I

9.44074 + 5.13794I −0.68207 − 3.20902I

u = −0.453398

a = 0.658967

b = −0.341033

c = 0.50000 + 2.36950I

d = −1.102790 − 0.487097I

−0.787199 −12.6360

u = −0.453398

a = 0.658967

b = −0.341033

c = 0.50000 − 2.36950I

d = −1.102790 + 0.487097I

−0.787199 −12.6360

30

VII. I

u

7

= h−u

4

+ d − u + 1, −u

5

− u

3

+ 2c − u − 1, b − 1, −u

5

− u

3

+ 2a −

u − 1, u

6

+ u

4

+ 2u

3

+ u

2

+ u + 2i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



1

2

u

5

+

1

2

u

3

+

1

2

u +

1

2

u

4

+ u − 1



a

12

=



−u

u

3

+ u



a

8

=



1

2

u

5

+ u

4

+ ··· +

3

2

u +

1

2

u

3

+ u + 1



a

1

=



−

1

2

u

5

−

1

2

u

3

− u

2

−

1

2

u −

1

2

−u

3

− u − 1



a

4

=



1

2

u

5

+

1

2

u

3

+

1

2

u +

1

2

1



a

10

=



u



a

3

=



1

2

u

5

+ u

4

+ ··· +

3

2

u +

1

2

u

4

+ u

2

+ u + 1



a

2

=



−

1

2

u

5

+ u

4

+

1

2

u

3

+

3

2

u +

3

2

1



a

9

=



1

2

u

5

+

1

2

u

3

+ u

2

+

1

2

u +

1

2

−u

3

− 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

4

− 4u

3

− 8u − 10

31

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

6

+ 2u

5

+ 3u

4

+ 2u

3

+ u

2

+ 3u + 4

c

2

, c

5

, c

8

c

10

, c

11

u

6

+ u

4

+ 2u

3

+ u

2

+ u + 2

c

3

, c

4

, c

6

c

7

, c

9

, c

12

(u

3

+ 2u + 1)

2

32

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

6

+ 2y

5

+ 3y

4

− 2y

3

+ 13y

2

− y + 16

c

2

, c

5

, c

8

c

10

, c

11

y

6

+ 2y

5

+ 3y

4

+ 2y

3

+ y

2

+ 3y + 4

c

3

, c

4

, c

6

c

7

, c

9

, c

12

(y

3

+ 4y

2

+ 4y −1)

2

33

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

7

√

−1(vol +

√

−1CS) Cusp shape

u = −0.931903 + 0.428993I

a = 0.201029 + 1.207160I

b = 1.00000

c = 0.201029 + 1.207160I

d = −2.10278 − 0.66546I

9.44074 + 5.13794I −0.68207 − 3.20902I

u = −0.931903 − 0.428993I

a = 0.201029 − 1.207160I

b = 1.00000

c = 0.201029 − 1.207160I

d = −2.10278 + 0.66546I

9.44074 − 5.13794I −0.68207 + 3.20902I

u = 0.226699 + 1.074330I

a = 0.914742 + 0.404039I

b = 1.00000

c = 0.914742 + 0.404039I

d = 0.205569

−0.787199 −12.63587 + 0.I

u = 0.226699 − 1.074330I

a = 0.914742 − 0.404039I

b = 1.00000

c = 0.914742 − 0.404039I

d = 0.205569

−0.787199 −12.63587 + 0.I

u = 0.705204 + 1.038720I

a = 0.134229 − 0.806035I

b = 1.00000

c = 0.134229 − 0.806035I

d = −2.10278 − 0.66546I

9.44074 + 5.13794I −0.68207 − 3.20902I

u = 0.705204 − 1.038720I

a = 0.134229 + 0.806035I

b = 1.00000

c = 0.134229 + 0.806035I

d = −2.10278 + 0.66546I

9.44074 − 5.13794I −0.68207 + 3.20902I

34

VIII. I

u

8

= h−u

2

+ d, −u

2

+ c + u, −u

2

+ b + u + 1, −u

2

+ a + u, u

3

+ 2u + 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



u

2

− u

u

2



a

12

=



−u

−u − 1



a

8

=



−u



a

1

=



u

2

+ u + 1

u



a

4

=



u

2

− u

u

2

− u − 1



a

10

=



u



a

3

=



−u

−u − 1



a

2

=



u

2

− u

u

2

− u − 1



a

9

=



−u

2

− u − 1

−u

2

− 2u − 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

2

+ 4u − 10

35

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

3

+ 4u

2

+ 4u − 1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

u

3

+ 2u + 1

36

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

3

− 8y

2

+ 24y −1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

y

3

+ 4y

2

+ 4y −1

37

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

8

√

−1(vol +

√

−1CS) Cusp shape

u = 0.22670 + 1.46771I

a = −2.32948 − 0.80225I

b = −3.32948 − 0.80225I

c = −2.32948 − 0.80225I

d = −2.10278 + 0.66546I

9.44074 − 5.13794I −0.68207 + 3.20902I

u = 0.22670 − 1.46771I

a = −2.32948 + 0.80225I

b = −3.32948 + 0.80225I

c = −2.32948 + 0.80225I

d = −2.10278 − 0.66546I

9.44074 + 5.13794I −0.68207 − 3.20902I

u = −0.453398

a = 0.658967

b = −0.341033

c = 0.658967

d = 0.205569

−0.787199 −12.6360

38

IX.

I

u

9

= h−u

2

+d, 2u

3

−2u

2

+c+2u−1, b−1, u

3

+a+2u−1, u

4

−u

3

+2u

2

−2u+1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



−2u

3

+ 2u

2

− 2u + 1

u

2



a

12

=



−u

u

3

+ u



a

8

=



−2u

3

+ u

2

− 2u + 1

u

3

+ 2u − 1



a

1

=



−2u

2

+ 2u − 2

u



a

4

=



−u

3

− 2u + 1

1



a

10

=



u



a

3

=



−u

u

3

+ u



a

2

=



u

3

− 2u

2

+ 2u − 2

1



a

9

=



u

3

− u

2

+ 2u − 2

−u

3

− u + 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

3

+ 4u − 6

39

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

4

+ 3u

3

+ 2u

2

+ 1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

u

4

− u

3

+ 2u

2

− 2u + 1

40

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

4

− 5y

3

+ 6y

2

+ 4y + 1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

y

4

+ 3y

3

+ 2y

2

+ 1

41

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

9

√

−1(vol +

√

−1CS) Cusp shape

u = 0.621744 + 0.440597I

a = −0.121744 − 1.306620I

b = 1.00000

c = 0.384881 − 0.636296I

d = 0.192440 + 0.547877I

3.28987 − 2.02988I −4.00000 + 3.46410I

u = 0.621744 − 0.440597I

a = −0.121744 + 1.306620I

b = 1.00000

c = 0.384881 + 0.636296I

d = 0.192440 − 0.547877I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 + 1.306620I

a = 0.621744 − 0.440597I

b = 1.00000

c = −3.38488 + 1.09575I

d = −1.69244 − 0.31815I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 − 1.306620I

a = 0.621744 + 0.440597I

b = 1.00000

c = −3.38488 − 1.09575I

d = −1.69244 + 0.31815I

3.28987 − 2.02988I −4.00000 + 3.46410I

42

X. I

u

10

=

h−u

3

+u

2

+d−u+2, u

3

+c+2u−1, b−1, −u

3

+a−2u, u

4

−u

3

+2u

2

−2u+1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



−u

3

− 2u + 1

u

3

− u

2

+ u − 2



a

12

=



−u

u

3

+ u



a

8

=



−u



a

1

=



−u

3

+ u

2

− 2u + 2

−u

3

− 2u + 1



a

4

=



u

3

+ 2u

1



a

10

=



u



a

3

=



u

2

+ u + 1

−u

3

+ u

2

− u + 2



a

2

=



u

3

+ 2u

1



a

9

=



u

3

− u

2

+ 2u − 2

u

3

+ 2u − 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

3

+ 4u − 6

43

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

2

, c

3

c

4

, c

8

, c

9

(u

2

+ u + 1)

2

c

5

, c

6

, c

7

c

10

, c

11

, c

12

u

4

− u

3

+ 2u

2

− 2u + 1

44

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

2

, c

3

c

4

, c

8

, c

9

(y

2

+ y + 1)

2

c

5

, c

6

, c

7

c

10

, c

11

, c

12

y

4

+ 3y

3

+ 2y

2

+ 1

45

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

10

√

−1(vol +

√

−1CS) Cusp shape

u = 0.621744 + 0.440597I

a = 1.12174 + 1.30662I

b = 1.00000

c = −0.121744 − 1.306620I

d = −1.69244 + 0.31815I

3.28987 − 2.02988I −4.00000 + 3.46410I

u = 0.621744 − 0.440597I

a = 1.12174 − 1.30662I

b = 1.00000

c = −0.121744 + 1.306620I

d = −1.69244 − 0.31815I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 + 1.306620I

a = 0.378256 + 0.440597I

b = 1.00000

c = 0.621744 − 0.440597I

d = 0.192440 − 0.547877I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 − 1.306620I

a = 0.378256 − 0.440597I

b = 1.00000

c = 0.621744 + 0.440597I

d = 0.192440 + 0.547877I

3.28987 − 2.02988I −4.00000 + 3.46410I

46

XI. I

u

11

=

h−u

3

+u

2

+d−u+2, u

3

+c+2u−1, b−1, u

3

+a+2u−1, u

4

−u

3

+2u

2

−2u+1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



−u

3

− 2u + 1

u

3

− u

2

+ u − 2



a

12

=



−u

u

3

+ u



a

8

=



−u



a

1

=



−u

3

+ u

2

− 2u + 2

−u

3

− 2u + 1



a

4

=



−u

3

− 2u + 1

1



a

10

=



u



a

3

=



−u

u

3

+ u



a

2

=



−u

3

− 2u + 1

1



a

9

=



u

3

− u

2

+ 2u − 2

−u

3

− u + 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

3

+ 4u − 6

47

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

4

+ 3u

3

+ 2u

2

+ 1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

u

4

− u

3

+ 2u

2

− 2u + 1

48

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

4

− 5y

3

+ 6y

2

+ 4y + 1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

y

4

+ 3y

3

+ 2y

2

+ 1

49

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

11

√

−1(vol +

√

−1CS) Cusp shape

u = 0.621744 + 0.440597I

a = −0.121744 − 1.306620I

b = 1.00000

c = −0.121744 − 1.306620I

d = −1.69244 + 0.31815I

3.28987 − 2.02988I −4.00000 + 3.46410I

u = 0.621744 − 0.440597I

a = −0.121744 + 1.306620I

b = 1.00000

c = −0.121744 + 1.306620I

d = −1.69244 − 0.31815I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 + 1.306620I

a = 0.621744 − 0.440597I

b = 1.00000

c = 0.621744 − 0.440597I

d = 0.192440 − 0.547877I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 − 1.306620I

a = 0.621744 + 0.440597I

b = 1.00000

c = 0.621744 + 0.440597I

d = 0.192440 + 0.547877I

3.28987 − 2.02988I −4.00000 + 3.46410I

50

XII. I

u

12

= h−u

3

+ u

2

+ d − u + 2, u

3

+ c + 2u − 1, 2u

3

− 2u

2

+ b + 2u, 2u

3

−

2u

2

+ a + 2u − 1, u

4

− u

3

+ 2u

2

− 2u + 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



−u

3

− 2u + 1

u

3

− u

2

+ u − 2



a

12

=



−u

u

3

+ u



a

8

=



−u



a

1

=



−u

3

+ u

2

− 2u + 2

−u

3

− 2u + 1



a

4

=



−2u

3

+ 2u

2

− 2u + 1

−2u

3

+ 2u

2

− 2u



a

10

=



u



a

3

=



−2u

3

+ u

2

− 2u + 1

−2u

3

+ u

2

− 2u



a

2

=



−2u

3

+ 2u

2

− 2u + 1

−2u

3

+ 2u

2

− 2u



a

9

=



2u

2

− 2u + 2

2u

2

− 3u + 2



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

3

+ 4u − 6

51

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

u

4

+ 3u

3

+ 2u

2

+ 1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

u

4

− u

3

+ 2u

2

− 2u + 1

52

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

y

4

− 5y

3

+ 6y

2

+ 4y + 1

c

2

, c

3

, c

4

c

5

, c

6

, c

7

c

8

, c

9

, c

10

c

11

, c

12

y

4

+ 3y

3

+ 2y

2

+ 1

53

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

12

√

−1(vol +

√

−1CS) Cusp shape

u = 0.621744 + 0.440597I

a = 0.384881 − 0.636296I

b = −0.615119 − 0.636296I

c = −0.121744 − 1.306620I

d = −1.69244 + 0.31815I

3.28987 − 2.02988I −4.00000 + 3.46410I

u = 0.621744 − 0.440597I

a = 0.384881 + 0.636296I

b = −0.615119 + 0.636296I

c = −0.121744 + 1.306620I

d = −1.69244 − 0.31815I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 + 1.306620I

a = −3.38488 + 1.09575I

b = −4.38488 + 1.09575I

c = 0.621744 − 0.440597I

d = 0.192440 − 0.547877I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 − 1.306620I

a = −3.38488 − 1.09575I

b = −4.38488 − 1.09575I

c = 0.621744 + 0.440597I

d = 0.192440 + 0.547877I

3.28987 − 2.02988I −4.00000 + 3.46410I

54

XIII.

I

u

13

= hu

3

+ d + u, −u

3

+ c − 2u, b − 1, u

3

+ a + 2u − 1, u

4

− u

3

+ 2u

2

− 2u + 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

−u

2



a

7

=



u

3

+ 2u

−u

3

− u



a

12

=



−u

u

3

+ u



a

8

=



u

2

+ u + 1

−u

3

− u − 1



a

1

=



−u

3

+ u

2

− 2u + 2

u

3

+ u − 1



a

4

=



−u

3

− 2u + 1

1



a

10

=



u



a

3

=



−u

u

3

+ u



a

2

=



−2u

3

+ 2u

2

− 4u + 3

2u

3

+ 2u − 2



a

9

=



u

3

− u

2

+ 2u − 2

−u

3

− u + 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

3

+ 4u − 6

55

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

2

, c

6

c

7

, c

8

, c

12

(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

56

(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

2

+ y + 1)

2

c

3

, c

4

, c

5

c

9

, c

10

, c

11

y

4

+ 3y

3

+ 2y

2

+ 1

57

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

13

√

−1(vol +

√

−1CS) Cusp shape

u = 0.621744 + 0.440597I

a = −0.121744 − 1.306620I

b = 1.00000

c = 1.12174 + 1.30662I

d = −0.500000 − 0.866025I

3.28987 − 2.02988I −4.00000 + 3.46410I

u = 0.621744 − 0.440597I

a = −0.121744 + 1.306620I

b = 1.00000

c = 1.12174 − 1.30662I

d = −0.500000 + 0.866025I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 + 1.306620I

a = 0.621744 − 0.440597I

b = 1.00000

c = 0.378256 + 0.440597I

d = −0.500000 + 0.866025I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.121744 − 1.306620I

a = 0.621744 + 0.440597I

b = 1.00000

c = 0.378256 − 0.440597I

d = −0.500000 − 0.866025I

3.28987 − 2.02988I −4.00000 + 3.46410I

58

XIV. I

u

14

= hau + d + a − u, c + a − 1, b − 1, a

2

− a + u + 1, u

2

+ u + 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1

u + 1



a

7

=



−a + 1

−au − a + u



a

12

=



−u

u + 1



a

8

=



−au − 2a + 1

−au + u



a

1

=



−u − 1

−au



a

4

=



a

1



a

10

=



u



a

3

=



au + 2a − u − 1

au + a − u



a

2

=



2au + a − 2u − 1

1



a

9

=



u + 1

au



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u − 2

59

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

2

, c

5

c

8

, c

10

, c

11

(u

2

+ u + 1)

2

c

3

, c

4

, c

6

c

7

, c

9

, c

12

u

4

− u

3

+ 2u

2

− 2u + 1

60

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

2

, c

5

c

8

, c

10

, c

11

(y

2

+ y + 1)

2

c

3

, c

4

, c

6

c

7

, c

9

, c

12

y

4

+ 3y

3

+ 2y

2

+ 1

61

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

14

√

−1(vol +

√

−1CS) Cusp shape

u = −0.500000 + 0.866025I

a = −0.070696 + 0.758745I

b = 1.00000

c = 1.070700 − 0.758745I

d = 0.192440 + 0.547877I

3.28987 − 2.02988I −4.00000 + 3.46410I

u = −0.500000 + 0.866025I

a = 1.070700 − 0.758745I

b = 1.00000

c = −0.070696 + 0.758745I

d = −1.69244 + 0.31815I

3.28987 − 2.02988I −4.00000 + 3.46410I

u = −0.500000 − 0.866025I

a = −0.070696 − 0.758745I

b = 1.00000

c = 1.070700 + 0.758745I

d = 0.192440 − 0.547877I

3.28987 + 2.02988I −4.00000 − 3.46410I

u = −0.500000 − 0.866025I

a = 1.070700 + 0.758745I

b = 1.00000

c = −0.070696 − 0.758745I

d = −1.69244 − 0.31815I

3.28987 + 2.02988I −4.00000 − 3.46410I

62

XV. I

u

15

= hd + 1, c − u, b + u − 1, a + u, u

2

+ 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1



a

7

=



u

−1



a

12

=



−u

0



a

8

=



u − 1

−1



a

1

=



−u − 1

−u



a

4

=



−u

−u + 1



a

10

=



u



a

3

=



−u − 1

−u



a

2

=



−u − 1

−u



a

9

=



u − 1

−1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4

63

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

2

, c

8

u

2

c

3

, c

4

, c

5

c

6

, c

7

, c

9

c

10

, c

11

, c

12

u

2

+ 1

64

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

2

, c

8

y

2

c

3

, c

4

, c

5

c

6

, c

7

, c

9

c

10

, c

11

, c

12

(y + 1)

2

65

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

15

√

−1(vol +

√

−1CS) Cusp shape

u = 1.000000I

a = − 1.000000I

b = 1.00000 − 1.00000I

c = 1.000000I

d = −1.00000

4.93480 4.00000

u = − 1.000000I

a = 1.000000I

b = 1.00000 + 1.00000I

c = − 1.000000I

d = −1.00000

4.93480 4.00000

66

XVI. I

u

16

= hd, c − 1, b − u − 1, a − u, u

2

+ 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1



a

7

=



1

0



a

12

=



−u

0



a

8

=



1

0



a

1

=



−u

0



a

4

=



u

u + 1



a

10

=



u



a

3

=



u − 1

u



a

2

=



−1

u



a

9

=



u + 1

1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −8

67

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

(u − 1)

2

c

2

, c

3

, c

4

c

5

, c

8

, c

9

c

10

, c

11

u

2

+ 1

c

6

, c

7

, c

12

u

2

68

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

(y −1)

2

c

2

, c

3

, c

4

c

5

, c

8

, c

9

c

10

, c

11

(y + 1)

2

c

6

, c

7

, c

12

y

2

69

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

16

√

−1(vol +

√

−1CS) Cusp shape

u = 1.000000I

a = 1.000000I

b = 1.00000 + 1.00000I

c = 1.00000

d = 0

1.64493 −8.00000

u = − 1.000000I

a = − 1.000000I

b = 1.00000 − 1.00000I

c = 1.00000

d = 0

1.64493 −8.00000

70

XVII. I

u

17

= hd + 1, c + u, b − 1, a − 1, u

2

+ 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1



a

7

=



−u

−1



a

12

=



−u

0



a

8

=



−u − 1

−1



a

1

=



−u + 1

−u



a

4

=



1



a

10

=



u



a

3

=



1



a

2

=



−u + 2

−u + 1



a

9

=



u



(ii) Obstruction class = 1

(iii) Cusp Shapes = −8

71

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

(u − 1)

2

c

2

, c

5

, c

6

c

7

, c

8

, c

10

c

11

, c

12

u

2

+ 1

c

3

, c

4

, c

9

u

2

72

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

(y −1)

2

c

2

, c

5

, c

6

c

7

, c

8

, c

10

c

11

, c

12

(y + 1)

2

c

3

, c

4

, c

9

y

2

73

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

17

√

−1(vol +

√

−1CS) Cusp shape

u = 1.000000I

a = 1.00000

b = 1.00000

c = − 1.000000I

d = −1.00000

1.64493 −8.00000

u = − 1.000000I

a = 1.00000

b = 1.00000

c = 1.000000I

d = −1.00000

1.64493 −8.00000

74

XVIII. I

u

18

= hd + 1, ca + u − 1, b − a − 1, u

2

+ 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



0

u



a

5

=



1



a

7

=



c

−1



a

12

=



−u

0



a

8

=



c − 1

−1



a

1

=



cu − u

−u



a

4

=



a

a + 1



a

10

=



u



a

3

=



a − 1

a



a

2

=



cu + a − u − 1

a − u



a

9

=



−au + u

−au



(ii) Obstruction class = −1

(iii) Cusp Shapes = −2

(iv) u-Polynomials at the component : It cannot be deﬁned for a positive

dimension component.

(v) Riley Polynomials at the component : It cannot be deﬁned for a positive

dimension component.

75

(iv) Complex Volumes and Cusp Shapes

Solution to I

u

18

√

−1(vol +

√

−1CS) Cusp shape

u = ···

a = ···

b = ···

c = ···

d = ···

3.28987 −2.00000

76

XIX. I

v

1

= ha, d + 1, c + a − v − 2, b − 1, v

2

+ 1i

(i) Arc colorings

a

6

=



1

0



a

11

=



v

0



a

5

=



1

0



a

7

=



v + 2

−1



a

12

=



v

0



a

8

=



v + 1

−1



a

1

=



−v + 1

v



a

4

=



0

1



a

10

=



v

0



a

3

=



−1

1



a

2

=



−v

v + 1



a

9

=



v

−v



(ii) Obstruction class = 1

(iii) Cusp Shapes = −8

77

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

(u − 1)

2

c

2

, c

3

, c

4

c

6

, c

7

, c

8

c

9

, c

12

u

2

+ 1

c

5

, c

10

, c

11

u

2

78

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

(y −1)

2

c

2

, c

3

, c

4

c

6

, c

7

, c

8

c

9

, c

12

(y + 1)

2

c

5

, c

10

, c

11

y

2

79

(vi) Complex Volumes and Cusp Shapes

Solutions to I

v

1

√

−1(vol +

√

−1CS) Cusp shape

v = 1.000000I

a = 0

b = 1.00000

c = 2.00000 + 1.00000I

d = −1.00000

1.64493 −8.00000

v = − 1.000000I

a = 0

b = 1.00000

c = 2.00000 − 1.00000I

d = −1.00000

1.64493 −8.00000

80

XX. u-Polynomials

Crossings u-Polynomials at each crossing

c

1

u

2

(u − 1)

6

(u

2

+ u + 1)

6

(u

3

+ 4u

2

+ 4u − 1)(u

4

+ 3u

3

+ 2u

2

+ 1)

3

· (u

6

+ 2u

5

+ 3u

4

+ 2u

3

+ u

2

+ 3u + 4)

3

· (u

8

+ 3u

7

+ 8u

6

+ 10u

5

+ 14u

4

+ 11u

3

+ 12u

2

+ 4u + 1)

3

· (u

10

+ 3u

9

+ 8u

8

+ 10u

7

+ 14u

6

+ 8u

5

+ 5u

4

+ 15u

3

+ 48u

2

+ 48u + 16)

c

2

, c

8

u

2

(u

2

+ 1)

3

(u

2

+ u + 1)

6

(u

3

+ 2u + 1)(u

4

− u

3

+ 2u

2

− 2u + 1)

3

· (u

6

+ u

4

+ 2u

3

+ u

2

+ u + 2)

3

· (u

8

− u

7

+ 2u

6

− 2u

5

+ 4u

4

− 3u

3

+ 2u

2

+ 1)

3

· (u

10

− u

9

+ 2u

8

− 2u

7

+ 4u

6

− 6u

5

+ 5u

4

− 7u

3

+ 8u

2

− 4u + 4)

c

3

, c

4

, c

5

c

6

, c

7

, c

9

c

10

, c

11

, c

12

u

2

(u

2

+ 1)

3

(u

2

+ u + 1)

2

(u

3

+ 2u + 1)

5

(u

4

− u

3

+ 2u

2

− 2u + 1)

5

· (u

6

+ u

4

+ 2u

3

+ u

2

+ u + 2)

· (u

8

− u

7

+ 3u

6

− 3u

5

+ 3u

4

− 5u

3

+ 4u

2

− 4u + 4)

· (u

8

+ 2u

7

+ 6u

6

+ 8u

5

+ 10u

4

+ 9u

3

+ 5u

2

+ 3u + 2)

2

· (u

10

− u

9

+ 7u

8

− 7u

7

+ 18u

6

− 17u

5

+ 18u

4

− 15u

3

+ 3u

2

+ 1)

81

XXI. Riley Polynomials

Crossings Riley Polynomials at each crossing

c

1

y

2

(y −1)

6

(y

2

+ y + 1)

6

(y

3

− 8y

2

+ 24y −1)

· (y

4

− 5y

3

+ 6y

2

+ 4y + 1)

3

(y

6

+ 2y

5

+ 3y

4

− 2y

3

+ 13y

2

− y + 16)

3

· (y

8

+ 7y

7

+ 32y

6

+ 82y

5

+ 146y

4

+ 151y

3

+ 84y

2

+ 8y + 1)

3

· (y

10

+ 7y

9

+ ··· − 768y + 256)

c

2

, c

8

y

2

(y + 1)

6

(y

2

+ y + 1)

6

(y

3

+ 4y

2

+ 4y −1)(y

4

+ 3y

3

+ 2y

2

+ 1)

3

· (y

6

+ 2y

5

+ 3y

4

+ 2y

3

+ y

2

+ 3y + 4)

3

· (y

8

+ 3y

7

+ 8y

6

+ 10y

5

+ 14y

4

+ 11y

3

+ 12y

2

+ 4y + 1)

3

· (y

10

+ 3y

9

+ 8y

8

+ 10y

7

+ 14y

6

+ 8y

5

+ 5y

4

+ 15y

3

+ 48y

2

+ 48y + 16)

c

3

, c

4

, c

5

c

6

, c

7

, c

9

c

10

, c

11

, c

12

y

2

(y + 1)

6

(y

2

+ y + 1)

2

(y

3

+ 4y

2

+ 4y −1)

5

(y

4

+ 3y

3

+ 2y

2

+ 1)

5

· (y

6

+ 2y

5

+ 3y

4

+ 2y

3

+ y

2

+ 3y + 4)

· (y

8

+ 5y

7

+ 9y

6

+ 7y

5

+ 3y

4

− y

3

+ 16y + 16)

· (y

8

+ 8y

7

+ 24y

6

+ 30y

5

+ 8y

4

− 5y

3

+ 11y

2

+ 11y + 4)

2

· (y

10

+ 13y

9

+ ··· + 6y + 1)

82