12a
1106
(K12a
1106
)
A knot diagram
1
Linearized knot diagam
4 7 11 1 8 3 10 5 12 6 2 9
Solving Sequence
3,6 7,10
8 11 4 2 12 1 5 9
c
6
c
7
c
10
c
3
c
2
c
11
c
1
c
5
c
9
c
4
, c
8
, c
12
Ideals for irreducible components
2
of X
par
I
u
1
= h−4.60339 × 10
20
u
45
6.13256 × 10
21
u
44
+ ··· + 3.13338 × 10
20
b 5.65347 × 10
22
,
8.14927 × 10
21
u
45
9.80301 × 10
22
u
44
+ ··· + 4.07340 × 10
21
a 3.64681 × 10
23
,
u
46
+ 13u
45
+ ··· + 528u + 52i
I
u
2
= h−2.52311 × 10
41
au
48
+ 4.74776 × 10
45
u
48
+ ··· + 1.26156 × 10
42
a 1.24713 × 10
46
,
2.57277 × 10
43
au
48
5.51496 × 10
43
u
48
+ ··· 6.30524 × 10
44
a 2.26929 × 10
44
,
u
49
5u
48
+ ··· 24u + 5i
I
u
3
= h39u
23
272u
22
+ ··· + 2b + 298, 227u
23
+ 1814u
22
+ ··· + 4a 104, u
24
8u
23
+ ··· 14u + 4i
I
u
4
= h−u
8
a 2u
8
+ ··· a + 12, 2u
8
a + 4u
8
+ ··· 5a + 4,
u
9
+ 3u
8
+ 8u
7
+ 11u
6
+ 15u
5
+ 12u
4
+ 12u
3
+ 6u
2
+ 4u + 1i
* 4 irreducible components of dim
C
= 0, with total 186 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−4.60 × 10
20
u
45
6.13 × 10
21
u
44
+ · · · + 3.13 × 10
20
b 5.65 ×
10
22
, 8.15 × 10
21
u
45
9.80 × 10
22
u
44
+ · · · + 4.07 × 10
21
a 3.65 ×
10
23
, u
46
+ 13u
45
+ · · · + 528u + 52i
(i) Arc colorings
a
3
=
0
u
a
6
=
1
0
a
7
=
1
u
2
a
10
=
2.00061u
45
+ 24.0659u
44
+ ··· + 818.429u + 89.5274
1.46914u
45
+ 19.5717u
44
+ ··· + 1562.07u + 180.427
a
8
=
4.00772u
45
51.8972u
44
+ ··· 2075.81u 216.751
1.86528u
45
22.5866u
44
+ ··· 2577.80u 305.396
a
11
=
3.46975u
45
+ 43.6376u
44
+ ··· + 2380.50u + 269.954
1.46914u
45
+ 19.5717u
44
+ ··· + 1562.07u + 180.427
a
4
=
6.58633u
45
80.4182u
44
+ ··· 5130.89u 595.022
5.20411u
45
63.1627u
44
+ ··· 2881.56u 342.489
a
2
=
u
u
3
+ u
a
12
=
2.09825u
45
+ 27.7764u
44
+ ··· + 2050.58u + 229.638
0.444574u
45
6.01583u
44
+ ··· + 264.191u + 37.7574
a
1
=
9.79082u
45
125.313u
44
+ ··· 5041.79u 538.637
3.63013u
45
47.9190u
44
+ ··· 5309.39u 606.117
a
5
=
5.55453u
45
+ 70.1876u
44
+ ··· + 3099.66u + 331.686
2.63800u
45
30.8944u
44
+ ··· 683.228u 70.7210
a
9
=
8.06685u
45
+ 102.106u
44
+ ··· + 5565.75u + 618.858
1.02710u
45
+ 14.1539u
44
+ ··· + 2593.21u + 305.374
(ii) Obstruction class = 1
(iii) Cusp Shapes =
1739513054631728078213
156669125128683693623
u
45
19720374536040326128317
156669125128683693623
u
44
+ ··· +
65726012224390325344578
156669125128683693623
u +
6323936967181692502404
156669125128683693623
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
, c
4
, c
5
c
8
u
46
u
45
+ ··· + 4u + 1
c
2
, c
6
u
46
+ 13u
45
+ ··· + 528u + 52
c
3
, c
10
u
46
u
45
+ ··· u + 1
c
7
, c
11
u
46
+ 3u
45
+ ··· + 44u + 19
c
9
, c
12
u
46
16u
45
+ ··· 4284u + 356
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
, c
4
, c
5
c
8
y
46
+ 51y
45
+ ··· + 46y + 1
c
2
, c
6
y
46
+ 25y
45
+ ··· + 38416y + 2704
c
3
, c
10
y
46
31y
45
+ ··· 37y + 1
c
7
, c
11
y
46
11y
45
+ ··· 74y + 361
c
9
, c
12
y
46
+ 28y
45
+ ··· + 6976y + 126736
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.807598 + 0.595089I
a = 0.145048 0.406650I
b = 0.139471 + 0.179847I
2.14007 2.35023I 0
u = 0.807598 0.595089I
a = 0.145048 + 0.406650I
b = 0.139471 0.179847I
2.14007 + 2.35023I 0
u = 0.231176 + 0.989385I
a = 1.43994 + 0.06005I
b = 0.753112 + 0.540664I
1.24241 3.60901I 0
u = 0.231176 0.989385I
a = 1.43994 0.06005I
b = 0.753112 0.540664I
1.24241 + 3.60901I 0
u = 0.958272 + 0.171846I
a = 0.139418 0.213175I
b = 1.218050 + 0.694851I
6.01083 6.65776I 0
u = 0.958272 0.171846I
a = 0.139418 + 0.213175I
b = 1.218050 0.694851I
6.01083 + 6.65776I 0
u = 0.133424 + 0.931610I
a = 1.83866 0.63682I
b = 0.48794 + 1.35404I
1.87823 + 0.64171I 7.20970 + 0.I
u = 0.133424 0.931610I
a = 1.83866 + 0.63682I
b = 0.48794 1.35404I
1.87823 0.64171I 7.20970 + 0.I
u = 0.850515 + 0.368554I
a = 0.199127 + 0.211355I
b = 0.481513 0.475580I
1.68076 + 0.65406I 4.00000 + 0.I
u = 0.850515 0.368554I
a = 0.199127 0.211355I
b = 0.481513 + 0.475580I
1.68076 0.65406I 4.00000 + 0.I
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.079950 + 1.109550I
a = 1.71790 0.71105I
b = 1.273120 0.404326I
12.79600 + 1.32693I 0
u = 0.079950 1.109550I
a = 1.71790 + 0.71105I
b = 1.273120 + 0.404326I
12.79600 1.32693I 0
u = 0.123378 + 0.876834I
a = 1.62741 + 1.21693I
b = 1.39351 + 0.40523I
11.46350 1.33067I 5.54801 + 0.I
u = 0.123378 0.876834I
a = 1.62741 1.21693I
b = 1.39351 0.40523I
11.46350 + 1.33067I 5.54801 + 0.I
u = 1.136830 + 0.116641I
a = 0.090473 + 0.188791I
b = 1.154570 0.661441I
10.9076 13.1169I 0
u = 1.136830 0.116641I
a = 0.090473 0.188791I
b = 1.154570 + 0.661441I
10.9076 + 13.1169I 0
u = 1.177030 + 0.246057I
a = 0.100844 0.173825I
b = 0.760628 + 0.238675I
0.28329 2.46940I 0
u = 1.177030 0.246057I
a = 0.100844 + 0.173825I
b = 0.760628 0.238675I
0.28329 + 2.46940I 0
u = 0.553395 + 1.117580I
a = 0.674037 1.222200I
b = 1.40922 + 0.32528I
13.4569 + 4.5178I 0
u = 0.553395 1.117580I
a = 0.674037 + 1.222200I
b = 1.40922 0.32528I
13.4569 4.5178I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.587105 + 1.105440I
a = 0.597505 + 0.241208I
b = 0.272732 0.315437I
7.07812 0.91875I 0
u = 0.587105 1.105440I
a = 0.597505 0.241208I
b = 0.272732 + 0.315437I
7.07812 + 0.91875I 0
u = 0.225696 + 0.704958I
a = 1.345580 0.046479I
b = 0.425277 0.851426I
0.34086 + 1.39531I 7.67124 3.20232I
u = 0.225696 0.704958I
a = 1.345580 + 0.046479I
b = 0.425277 + 0.851426I
0.34086 1.39531I 7.67124 + 3.20232I
u = 0.410569 + 1.212210I
a = 2.01084 0.24207I
b = 1.52000 1.17808I
14.4173 + 3.8759I 0
u = 0.410569 1.212210I
a = 2.01084 + 0.24207I
b = 1.52000 + 1.17808I
14.4173 3.8759I 0
u = 1.114170 + 0.678095I
a = 0.373922 + 0.123021I
b = 0.230477 0.018824I
5.21462 5.32991I 0
u = 1.114170 0.678095I
a = 0.373922 0.123021I
b = 0.230477 + 0.018824I
5.21462 + 5.32991I 0
u = 0.677172 + 0.036174I
a = 0.490434 + 0.446612I
b = 1.163000 + 0.751547I
10.79730 0.17282I 2.61634 1.42688I
u = 0.677172 0.036174I
a = 0.490434 0.446612I
b = 1.163000 0.751547I
10.79730 + 0.17282I 2.61634 + 1.42688I
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.315606 + 1.283940I
a = 1.034810 + 0.862364I
b = 1.223300 + 0.044072I
10.86770 2.33603I 0
u = 0.315606 1.283940I
a = 1.034810 0.862364I
b = 1.223300 0.044072I
10.86770 + 2.33603I 0
u = 0.519948 + 1.222880I
a = 1.245960 0.257027I
b = 1.081520 0.697292I
1.18366 + 4.44726I 0
u = 0.519948 1.222880I
a = 1.245960 + 0.257027I
b = 1.081520 + 0.697292I
1.18366 4.44726I 0
u = 0.550737 + 1.253470I
a = 1.79269 + 0.41681I
b = 1.63311 + 0.95618I
9.3517 + 12.1022I 0
u = 0.550737 1.253470I
a = 1.79269 0.41681I
b = 1.63311 0.95618I
9.3517 12.1022I 0
u = 0.286358 + 1.351340I
a = 1.179040 + 0.177372I
b = 0.921389 + 0.559060I
5.63593 + 2.22264I 0
u = 0.286358 1.351340I
a = 1.179040 0.177372I
b = 0.921389 0.559060I
5.63593 2.22264I 0
u = 0.58550 + 1.33618I
a = 1.67084 0.31304I
b = 1.53069 0.89395I
14.7508 + 19.1920I 0
u = 0.58550 1.33618I
a = 1.67084 + 0.31304I
b = 1.53069 + 0.89395I
14.7508 19.1920I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.60654 + 1.32680I
a = 1.223140 + 0.285432I
b = 1.169600 + 0.620562I
3.28252 + 8.78274I 0
u = 0.60654 1.32680I
a = 1.223140 0.285432I
b = 1.169600 0.620562I
3.28252 8.78274I 0
u = 0.38466 + 1.48180I
a = 0.857403 0.686288I
b = 1.047490 + 0.028732I
16.2619 7.4805I 0
u = 0.38466 1.48180I
a = 0.857403 + 0.686288I
b = 1.047490 0.028732I
16.2619 + 7.4805I 0
u = 0.175636 + 0.397553I
a = 1.72245 0.09939I
b = 0.433330 0.421079I
0.163355 + 1.344400I 0.935383 1.030188I
u = 0.175636 0.397553I
a = 1.72245 + 0.09939I
b = 0.433330 + 0.421079I
0.163355 1.344400I 0.935383 + 1.030188I
9
II. I
u
2
= h−2.52 × 10
41
au
48
+ 4.75 × 10
45
u
48
+ · · · + 1.26 × 10
42
a 1.25 ×
10
46
, 2.57 × 10
43
au
48
5.51 × 10
43
u
48
+ · · · 6.31 × 10
44
a 2.27 ×
10
44
, u
49
5u
48
+ · · · 24u + 5i
(i) Arc colorings
a
3
=
0
u
a
6
=
1
0
a
7
=
1
u
2
a
10
=
a
0.000388350au
48
7.30759u
48
+ ··· 0.00194175a + 19.1954
a
8
=
0.558404au
48
4.16725u
48
+ ··· 21.6247a 4.70757
0.798041au
48
0.836990u
48
+ ··· 14.9132a + 38.8839
a
11
=
0.000388350au
48
7.30759u
48
+ ··· + 0.998058a + 19.1954
0.000388350au
48
7.30759u
48
+ ··· 0.00194175a + 19.1954
a
4
=
7.30759au
48
8.39539u
48
+ ··· 19.1954a 12.6628
7.06522u
48
+ 35.5339u
47
+ ··· 142.655u + 24.4019
a
2
=
u
u
3
+ u
a
12
=
4.28213u
48
+ 22.8488u
47
+ ··· + a + 21.9874
0.000388350au
48
6.31628u
48
+ ··· + 0.00194175a + 15.9948
a
1
=
4.17147au
48
+ 5.85731u
48
+ ··· + 29.7650a 59.5141
0.878342au
48
+ 0.836990u
48
+ ··· + 5.90205a 37.8839
a
5
=
3.32947au
48
1.66919u
48
+ ··· + 7.94493a 43.2952
0.897083au
48
+ 2.34292u
48
+ ··· + 16.2745a 40.3382
a
9
=
3.75017au
48
+ 3.58649u
48
+ ··· 10.6560a 8.10556
0.917110au
48
1.49781u
48
+ ··· + 12.6166a + 7.49436
(ii) Obstruction class = 1
(iii) Cusp Shapes = 24.6678u
48
+ 121.656u
47
+ ··· 316.868u 8.44978
10
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
, c
4
, c
5
c
8
u
98
8u
97
+ ··· 1622u + 113
c
2
, c
6
(u
49
5u
48
+ ··· 24u + 5)
2
c
3
, c
10
u
98
2u
97
+ ··· 1030836u + 176389
c
7
, c
11
u
98
+ 14u
97
+ ··· + 155699u + 22103
c
9
, c
12
(u
49
+ 12u
48
+ ··· + 257u + 59)
2
11
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
, c
4
, c
5
c
8
y
98
+ 86y
97
+ ··· + 162250y + 12769
c
2
, c
6
(y
49
+ 33y
48
+ ··· 624y 25)
2
c
3
, c
10
y
98
12y
97
+ ··· + 591541541430y + 31113079321
c
7
, c
11
y
98
14y
97
+ ··· 3878773113y + 488542609
c
9
, c
12
(y
49
+ 40y
48
+ ··· + 20383y 3481)
2
12
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.957418 + 0.137707I
a = 0.286955 + 0.026555I
b = 0.770591 + 0.427917I
0.78697 + 3.63609I 6.16185 3.13365I
u = 0.957418 + 0.137707I
a = 0.098397 + 0.256279I
b = 0.949930 0.580750I
0.78697 + 3.63609I 6.16185 3.13365I
u = 0.957418 0.137707I
a = 0.286955 0.026555I
b = 0.770591 0.427917I
0.78697 3.63609I 6.16185 + 3.13365I
u = 0.957418 0.137707I
a = 0.098397 0.256279I
b = 0.949930 + 0.580750I
0.78697 3.63609I 6.16185 + 3.13365I
u = 0.264760 + 1.006070I
a = 0.52326 + 1.53050I
b = 0.02032 2.33382I
10.39620 9.45799I 0
u = 0.264760 + 1.006070I
a = 2.83956 0.12888I
b = 0.675041 + 0.718691I
10.39620 9.45799I 0
u = 0.264760 1.006070I
a = 0.52326 1.53050I
b = 0.02032 + 2.33382I
10.39620 + 9.45799I 0
u = 0.264760 1.006070I
a = 2.83956 + 0.12888I
b = 0.675041 0.718691I
10.39620 + 9.45799I 0
u = 0.226346 + 0.929253I
a = 0.148134 + 0.600625I
b = 0.020547 + 0.894164I
0.67276 3.75122I 4.00000 + 10.38124I
u = 0.226346 + 0.929253I
a = 2.33048 0.06053I
b = 1.42722 0.18159I
0.67276 3.75122I 4.00000 + 10.38124I
13
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.226346 0.929253I
a = 0.148134 0.600625I
b = 0.020547 0.894164I
0.67276 + 3.75122I 4.00000 10.38124I
u = 0.226346 0.929253I
a = 2.33048 + 0.06053I
b = 1.42722 + 0.18159I
0.67276 + 3.75122I 4.00000 10.38124I
u = 0.091513 + 0.935745I
a = 0.456898 0.674035I
b = 0.18764 + 1.53444I
1.92899 + 0.49464I 3.10942 + 0.I
u = 0.091513 + 0.935745I
a = 2.38983 0.72163I
b = 0.746133 + 0.681858I
1.92899 + 0.49464I 3.10942 + 0.I
u = 0.091513 0.935745I
a = 0.456898 + 0.674035I
b = 0.18764 1.53444I
1.92899 0.49464I 3.10942 + 0.I
u = 0.091513 0.935745I
a = 2.38983 + 0.72163I
b = 0.746133 0.681858I
1.92899 0.49464I 3.10942 + 0.I
u = 0.156773 + 1.055540I
a = 1.012630 + 0.946873I
b = 1.08233 1.74068I
6.66499 + 3.79319I 0
u = 0.156773 + 1.055540I
a = 2.58947 + 0.96162I
b = 0.826969 0.198015I
6.66499 + 3.79319I 0
u = 0.156773 1.055540I
a = 1.012630 0.946873I
b = 1.08233 + 1.74068I
6.66499 3.79319I 0
u = 0.156773 1.055540I
a = 2.58947 0.96162I
b = 0.826969 + 0.198015I
6.66499 3.79319I 0
14
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.346619 + 1.023320I
a = 0.016055 0.908875I
b = 0.22570 + 1.48864I
4.55239 + 5.49253I 0
u = 0.346619 + 1.023320I
a = 1.89262 0.17132I
b = 0.520618 + 0.415489I
4.55239 + 5.49253I 0
u = 0.346619 1.023320I
a = 0.016055 + 0.908875I
b = 0.22570 1.48864I
4.55239 5.49253I 0
u = 0.346619 1.023320I
a = 1.89262 + 0.17132I
b = 0.520618 0.415489I
4.55239 5.49253I 0
u = 0.255872 + 0.810452I
a = 2.33454 0.40118I
b = 0.036356 1.193870I
3.99300 1.28672I 2.49363 + 5.09640I
u = 0.255872 + 0.810452I
a = 2.03137 1.80698I
b = 0.70468 + 2.27070I
3.99300 1.28672I 2.49363 + 5.09640I
u = 0.255872 0.810452I
a = 2.33454 + 0.40118I
b = 0.036356 + 1.193870I
3.99300 + 1.28672I 2.49363 5.09640I
u = 0.255872 0.810452I
a = 2.03137 + 1.80698I
b = 0.70468 2.27070I
3.99300 + 1.28672I 2.49363 5.09640I
u = 0.650362 + 0.441524I
a = 0.677266 + 1.068720I
b = 1.096870 + 0.194713I
5.53096 2.47656I 1.49723 + 2.71117I
u = 0.650362 + 0.441524I
a = 0.184610 0.352276I
b = 0.830729 0.636420I
5.53096 2.47656I 1.49723 + 2.71117I
15
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.650362 0.441524I
a = 0.677266 1.068720I
b = 1.096870 0.194713I
5.53096 + 2.47656I 1.49723 2.71117I
u = 0.650362 0.441524I
a = 0.184610 + 0.352276I
b = 0.830729 + 0.636420I
5.53096 + 2.47656I 1.49723 2.71117I
u = 1.217590 + 0.050320I
a = 0.380129 0.100856I
b = 0.987499 + 0.498459I
3.96783 + 6.46429I 0
u = 1.217590 + 0.050320I
a = 0.107019 + 0.139455I
b = 0.719519 0.514679I
3.96783 + 6.46429I 0
u = 1.217590 0.050320I
a = 0.380129 + 0.100856I
b = 0.987499 0.498459I
3.96783 6.46429I 0
u = 1.217590 0.050320I
a = 0.107019 0.139455I
b = 0.719519 + 0.514679I
3.96783 6.46429I 0
u = 0.943010 + 0.818382I
a = 1.130180 + 0.715066I
b = 1.347900 0.119643I
8.64456 + 5.11693I 0
u = 0.943010 + 0.818382I
a = 0.185523 + 0.251875I
b = 0.692592 + 0.383315I
8.64456 + 5.11693I 0
u = 0.943010 0.818382I
a = 1.130180 0.715066I
b = 1.347900 + 0.119643I
8.64456 5.11693I 0
u = 0.943010 0.818382I
a = 0.185523 0.251875I
b = 0.692592 0.383315I
8.64456 5.11693I 0
16
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.662579 + 0.318199I
a = 1.42153 + 0.15838I
b = 0.494020 + 0.798046I
2.47935 1.74491I 2.56195 + 1.08924I
u = 0.662579 + 0.318199I
a = 0.446052 + 0.340850I
b = 0.310211 + 0.928842I
2.47935 1.74491I 2.56195 + 1.08924I
u = 0.662579 0.318199I
a = 1.42153 0.15838I
b = 0.494020 0.798046I
2.47935 + 1.74491I 2.56195 1.08924I
u = 0.662579 0.318199I
a = 0.446052 0.340850I
b = 0.310211 0.928842I
2.47935 + 1.74491I 2.56195 1.08924I
u = 0.719602
a = 0.388671 + 1.087390I
b = 0.997469 0.455040I
5.21368 1.16360
u = 0.719602
a = 0.388671 1.087390I
b = 0.997469 + 0.455040I
5.21368 1.16360
u = 0.329381 + 1.249470I
a = 1.42789 0.56714I
b = 1.009110 0.770169I
10.11660 5.76726I 0
u = 0.329381 + 1.249470I
a = 1.91025 0.05665I
b = 1.53298 + 0.96374I
10.11660 5.76726I 0
u = 0.329381 1.249470I
a = 1.42789 + 0.56714I
b = 1.009110 + 0.770169I
10.11660 + 5.76726I 0
u = 0.329381 1.249470I
a = 1.91025 + 0.05665I
b = 1.53298 0.96374I
10.11660 + 5.76726I 0
17
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.396490 + 1.239700I
a = 0.873184 0.814822I
b = 0.874312 0.185924I
5.25338 0.75552I 0
u = 0.396490 + 1.239700I
a = 1.172500 + 0.287941I
b = 1.241080 + 0.395387I
5.25338 0.75552I 0
u = 0.396490 1.239700I
a = 0.873184 + 0.814822I
b = 0.874312 + 0.185924I
5.25338 + 0.75552I 0
u = 0.396490 1.239700I
a = 1.172500 0.287941I
b = 1.241080 0.395387I
5.25338 + 0.75552I 0
u = 0.224605 + 0.658535I
a = 1.037960 + 0.472207I
b = 0.341084 1.075920I
0.38164 + 1.40636I 7.90709 4.60491I
u = 0.224605 + 0.658535I
a = 1.54635 0.36863I
b = 0.241044 0.594512I
0.38164 + 1.40636I 7.90709 4.60491I
u = 0.224605 0.658535I
a = 1.037960 0.472207I
b = 0.341084 + 1.075920I
0.38164 1.40636I 7.90709 + 4.60491I
u = 0.224605 0.658535I
a = 1.54635 + 0.36863I
b = 0.241044 + 0.594512I
0.38164 1.40636I 7.90709 + 4.60491I
u = 0.563956 + 1.217970I
a = 0.407390 + 0.754967I
b = 0.727020 + 0.391576I
8.40264 + 4.63276I 0
u = 0.563956 + 1.217970I
a = 1.61386 + 0.35681I
b = 1.57671 + 0.25730I
8.40264 + 4.63276I 0
18
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.563956 1.217970I
a = 0.407390 0.754967I
b = 0.727020 0.391576I
8.40264 4.63276I 0
u = 0.563956 1.217970I
a = 1.61386 0.35681I
b = 1.57671 0.25730I
8.40264 4.63276I 0
u = 0.253681 + 1.320130I
a = 1.20869 1.20917I
b = 0.783841 0.186625I
14.9725 + 8.1096I 0
u = 0.253681 + 1.320130I
a = 1.76114 + 0.31613I
b = 1.73484 0.91494I
14.9725 + 8.1096I 0
u = 0.253681 1.320130I
a = 1.20869 + 1.20917I
b = 0.783841 + 0.186625I
14.9725 8.1096I 0
u = 0.253681 1.320130I
a = 1.76114 0.31613I
b = 1.73484 + 0.91494I
14.9725 8.1096I 0
u = 0.008742 + 0.639353I
a = 0.147556 1.227300I
b = 0.719465 0.763198I
5.23017 2.51958I 1.241083 0.357010I
u = 0.008742 + 0.639353I
a = 2.45573 + 1.48966I
b = 1.277630 0.348252I
5.23017 2.51958I 1.241083 0.357010I
u = 0.008742 0.639353I
a = 0.147556 + 1.227300I
b = 0.719465 + 0.763198I
5.23017 + 2.51958I 1.241083 + 0.357010I
u = 0.008742 0.639353I
a = 2.45573 1.48966I
b = 1.277630 + 0.348252I
5.23017 + 2.51958I 1.241083 + 0.357010I
19
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.531201 + 1.269820I
a = 1.337790 + 0.287032I
b = 1.21857 + 0.88759I
4.30856 9.00359I 0
u = 0.531201 + 1.269820I
a = 1.68147 0.29022I
b = 1.42823 0.77535I
4.30856 9.00359I 0
u = 0.531201 1.269820I
a = 1.337790 0.287032I
b = 1.21857 0.88759I
4.30856 + 9.00359I 0
u = 0.531201 1.269820I
a = 1.68147 + 0.29022I
b = 1.42823 + 0.77535I
4.30856 + 9.00359I 0
u = 0.324351 + 0.493941I
a = 0.515496 + 1.077260I
b = 0.647626 + 1.092120I
8.96981 + 6.76225I 1.16496 1.32686I
u = 0.324351 + 0.493941I
a = 2.84073 + 1.17981I
b = 0.69428 1.27815I
8.96981 + 6.76225I 1.16496 1.32686I
u = 0.324351 0.493941I
a = 0.515496 1.077260I
b = 0.647626 1.092120I
8.96981 6.76225I 1.16496 + 1.32686I
u = 0.324351 0.493941I
a = 2.84073 1.17981I
b = 0.69428 + 1.27815I
8.96981 6.76225I 1.16496 + 1.32686I
u = 0.72262 + 1.25115I
a = 1.029400 0.615681I
b = 1.240690 + 0.008012I
7.38957 3.44269I 0
u = 0.72262 + 1.25115I
a = 0.478696 + 0.566053I
b = 0.912969 + 0.174762I
7.38957 3.44269I 0
20
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.72262 1.25115I
a = 1.029400 + 0.615681I
b = 1.240690 0.008012I
7.38957 + 3.44269I 0
u = 0.72262 1.25115I
a = 0.478696 0.566053I
b = 0.912969 0.174762I
7.38957 + 3.44269I 0
u = 0.155829 + 0.518115I
a = 1.000180 + 0.818212I
b = 0.664836 0.869546I
0.29520 + 1.46947I 6.37279 1.95675I
u = 0.155829 + 0.518115I
a = 1.97184 0.54810I
b = 0.078854 0.165747I
0.29520 + 1.46947I 6.37279 1.95675I
u = 0.155829 0.518115I
a = 1.000180 0.818212I
b = 0.664836 + 0.869546I
0.29520 1.46947I 6.37279 + 1.95675I
u = 0.155829 0.518115I
a = 1.97184 + 0.54810I
b = 0.078854 + 0.165747I
0.29520 1.46947I 6.37279 + 1.95675I
u = 0.57926 + 1.36321I
a = 1.312240 0.075466I
b = 1.23560 0.94753I
8.1120 12.6788I 0
u = 0.57926 + 1.36321I
a = 1.61270 + 0.32089I
b = 1.35017 + 0.69705I
8.1120 12.6788I 0
u = 0.57926 1.36321I
a = 1.312240 + 0.075466I
b = 1.23560 + 0.94753I
8.1120 + 12.6788I 0
u = 0.57926 1.36321I
a = 1.61270 0.32089I
b = 1.35017 0.69705I
8.1120 + 12.6788I 0
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.27071 + 1.54654I
a = 0.733979 + 0.068037I
b = 0.853269 0.629295I
9.84990 + 0.22502I 0
u = 0.27071 + 1.54654I
a = 1.201400 + 0.636983I
b = 0.900300 0.032549I
9.84990 + 0.22502I 0
u = 0.27071 1.54654I
a = 0.733979 0.068037I
b = 0.853269 + 0.629295I
9.84990 0.22502I 0
u = 0.27071 1.54654I
a = 1.201400 0.636983I
b = 0.900300 + 0.032549I
9.84990 0.22502I 0
u = 0.78839 + 1.49937I
a = 1.379970 0.308325I
b = 1.283850 0.199748I
10.60110 + 2.92501I 0
u = 0.78839 + 1.49937I
a = 0.437662 0.180997I
b = 0.686011 0.544678I
10.60110 + 2.92501I 0
u = 0.78839 1.49937I
a = 1.379970 + 0.308325I
b = 1.283850 + 0.199748I
10.60110 2.92501I 0
u = 0.78839 1.49937I
a = 0.437662 + 0.180997I
b = 0.686011 + 0.544678I
10.60110 2.92501I 0
22
III. I
u
3
= h39u
23
272u
22
+ · · · + 2b + 298, 227u
23
+ 1814u
22
+ · · · + 4a
104, u
24
8u
23
+ · · · 14u + 4i
(i) Arc colorings
a
3
=
0
u
a
6
=
1
0
a
7
=
1
u
2
a
10
=
227
4
u
23
907
2
u
22
+ ··· +
1255
4
u + 26
39
2
u
23
+ 136u
22
+ ··· +
797
2
u 149
a
8
=
67u
23
+
1195
2
u
22
+ ··· 2016u +
841
2
121
2
u
23
485u
22
+ ··· +
709
2
u + 26
a
11
=
149
4
u
23
635
2
u
22
+ ··· +
2849
4
u 123
39
2
u
23
+ 136u
22
+ ··· +
797
2
u 149
a
4
=
70u
23
+
1047
2
u
22
+ ··· + 601u
623
2
73
2
u
23
+ 332u
22
+ ···
2581
2
u + 280
a
2
=
u
u
3
+ u
a
12
=
233
4
u
23
959
2
u
22
+ ··· +
2737
4
u 73
21
2
u
23
+ 67u
22
+ ··· +
741
2
u 123
a
1
=
135
4
u
23
389
2
u
22
+ ···
7481
4
u + 583
153
2
u
23
604u
22
+ ··· +
367
2
u + 107
a
5
=
271
4
u
23
1141
2
u
22
+ ··· +
4527
4
u 174
57
2
u
23
+ 193u
22
+ ··· +
1549
2
u 271
a
9
=
487
4
u
23
+
1901
2
u
22
+ ···
171
4
u 236
49
2
u
23
+ 231u
22
+ ···
2137
2
u + 245
(ii) Obstruction class = 1
(iii) Cusp Shapes =
339u
23
2735u
22
+12886u
21
42800u
20
+109894u
19
227540u
18
+388966u
17
554634u
16
+
658690u
15
638936u
14
+ 477445u
13
219740u
12
41389u
11
+ 214969u
10
260392u
9
+
199498u
8
96701u
7
+ 10689u
6
+ 30944u
5
34906u
4
+ 22284u
3
9152u
2
+ 2542u 4
23
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
, c
5
u
24
u
23
+ ··· 3u + 1
c
2
u
24
+ 8u
23
+ ··· + 14u + 4
c
3
, c
10
u
24
+ u
23
+ ··· 2u + 1
c
4
, c
8
u
24
+ u
23
+ ··· + 3u + 1
c
6
u
24
8u
23
+ ··· 14u + 4
c
7
, c
11
u
24
+ 3u
23
+ ··· + 5u + 1
c
9
u
24
11u
23
+ ··· 20u + 4
c
12
u
24
+ 11u
23
+ ··· + 20u + 4
24
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
, c
4
, c
5
c
8
y
24
+ 21y
23
+ ··· + 15y + 1
c
2
, c
6
y
24
+ 12y
23
+ ··· + 132y + 16
c
3
, c
10
y
24
+ 3y
23
+ ··· + 70y
2
+ 1
c
7
, c
11
y
24
9y
23
+ ··· y + 1
c
9
, c
12
y
24
+ 11y
23
+ ··· + 248y + 16
25
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
3
1(vol +
1CS) Cusp shape
u = 0.671893 + 0.698108I
a = 0.630740 0.226012I
b = 0.017757 + 0.841412I
1.37035 2.33264I 4.26323 + 3.17988I
u = 0.671893 0.698108I
a = 0.630740 + 0.226012I
b = 0.017757 0.841412I
1.37035 + 2.33264I 4.26323 3.17988I
u = 0.213205 + 1.019810I
a = 1.46281 0.25645I
b = 0.860408 0.461305I
1.64116 + 3.68159I 9.96979 4.33803I
u = 0.213205 1.019810I
a = 1.46281 + 0.25645I
b = 0.860408 + 0.461305I
1.64116 3.68159I 9.96979 + 4.33803I
u = 0.183939 + 0.915684I
a = 2.13851 + 0.97533I
b = 0.38486 1.74790I
4.79771 0.83920I 7.64954 0.48429I
u = 0.183939 0.915684I
a = 2.13851 0.97533I
b = 0.38486 + 1.74790I
4.79771 + 0.83920I 7.64954 + 0.48429I
u = 1.076920 + 0.061933I
a = 0.0447211 + 0.0825541I
b = 0.921732 0.449679I
1.89157 + 4.09183I 2.63483 6.27018I
u = 1.076920 0.061933I
a = 0.0447211 0.0825541I
b = 0.921732 + 0.449679I
1.89157 4.09183I 2.63483 + 6.27018I
u = 0.219761 + 1.205810I
a = 1.74443 0.35533I
b = 0.87688 + 1.24065I
12.2333 8.5328I 5.43258 + 6.23459I
u = 0.219761 1.205810I
a = 1.74443 + 0.35533I
b = 0.87688 1.24065I
12.2333 + 8.5328I 5.43258 6.23459I
26
Solutions to I
u
3
1(vol +
1CS) Cusp shape
u = 0.033498 + 0.738278I
a = 1.72752 + 0.41856I
b = 0.812320 + 0.640206I
0.33135 2.06974I 2.21463 + 6.39372I
u = 0.033498 0.738278I
a = 1.72752 0.41856I
b = 0.812320 0.640206I
0.33135 + 2.06974I 2.21463 6.39372I
u = 0.030881 + 0.735264I
a = 1.81388 1.41254I
b = 0.000148 + 1.336150I
9.95503 + 7.68910I 4.31056 5.22133I
u = 0.030881 0.735264I
a = 1.81388 + 1.41254I
b = 0.000148 1.336150I
9.95503 7.68910I 4.31056 + 5.22133I
u = 0.715028 + 0.076885I
a = 0.496566 0.598033I
b = 0.192008 + 0.262985I
0.97820 1.68051I 7.67857 + 3.11334I
u = 0.715028 0.076885I
a = 0.496566 + 0.598033I
b = 0.192008 0.262985I
0.97820 + 1.68051I 7.67857 3.11334I
u = 1.207490 + 0.553328I
a = 0.260037 0.109262I
b = 0.587657 0.237837I
5.46235 5.70006I 7.21757 + 10.78890I
u = 1.207490 0.553328I
a = 0.260037 + 0.109262I
b = 0.587657 + 0.237837I
5.46235 + 5.70006I 7.21757 10.78890I
u = 0.54072 + 1.31322I
a = 1.51712 0.30994I
b = 1.36741 0.79297I
5.80764 9.75826I 0. + 7.29101I
u = 0.54072 1.31322I
a = 1.51712 + 0.30994I
b = 1.36741 + 0.79297I
5.80764 + 9.75826I 0. 7.29101I
27
Solutions to I
u
3
1(vol +
1CS) Cusp shape
u = 0.38454 + 1.39270I
a = 1.029150 0.440987I
b = 1.020860 0.294308I
6.85863 1.24969I 0
u = 0.38454 1.39270I
a = 1.029150 + 0.440987I
b = 1.020860 + 0.294308I
6.85863 + 1.24969I 0
u = 0.70735 + 1.32860I
a = 0.699775 + 0.433953I
b = 0.900639 + 0.136993I
8.20180 1.36390I 0
u = 0.70735 1.32860I
a = 0.699775 0.433953I
b = 0.900639 0.136993I
8.20180 + 1.36390I 0
28
IV.
I
u
4
= h−u
8
a2u
8
+· · ·a+12, 2u
8
a+4u
8
+· · ·5a+4, u
9
+3u
8
+· · ·+ 4u+1i
(i) Arc colorings
a
3
=
0
u
a
6
=
1
0
a
7
=
1
u
2
a
10
=
a
1
7
u
8
a +
2
7
u
8
+ ··· +
1
7
a
12
7
a
8
=
5
7
u
8
a +
11
7
u
8
+ ···
5
7
a +
25
7
3
7
u
8
a
1
7
u
8
+ ··· +
3
7
a
1
7
a
11
=
1
7
u
8
a +
2
7
u
8
+ ··· +
8
7
a
12
7
1
7
u
8
a +
2
7
u
8
+ ··· +
1
7
a
12
7
a
4
=
2
7
u
8
a +
4
7
u
8
+ ···
12
7
a +
39
7
u
8
3u
7
7u
6
9u
5
10u
4
8u
3
6u
2
3u
a
2
=
u
u
3
+ u
a
12
=
u
7
+ u
6
+ 2u
5
u
3
a u
4
au 2u
2
+ a 1
1
7
u
8
a
9
7
u
8
+ ···
1
7
a
16
7
a
1
=
u
4
a + u
3
a + 2u
2
a + a + u 1
3
7
u
8
a +
1
7
u
8
+ ···
3
7
a
6
7
a
5
=
1
7
u
8
a +
5
7
u
8
+ ···
15
7
a +
19
7
4
7
u
8
a +
1
7
u
8
+ ···
3
7
a +
8
7
a
9
=
u
7
a + 3u
6
a + 6u
5
a + 7u
4
a + 6u
3
a + u
4
+ 4u
2
a + 2au + a u
1
7
u
8
a
2
7
u
8
+ ···
1
7
a
9
7
(ii) Obstruction class = 1
(iii) Cusp Shapes = 3u
8
+ 2u
7
20u
5
26u
4
32u
3
16u
2
17u 9
29
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
, c
5
u
18
+ u
17
+ ··· 22u + 7
c
2
(u
9
3u
8
+ 8u
7
11u
6
+ 15u
5
12u
4
+ 12u
3
6u
2
+ 4u 1)
2
c
3
, c
10
u
18
+ u
17
+ ··· + 4u + 7
c
4
, c
8
u
18
u
17
+ ··· + 22u + 7
c
6
(u
9
+ 3u
8
+ 8u
7
+ 11u
6
+ 15u
5
+ 12u
4
+ 12u
3
+ 6u
2
+ 4u + 1)
2
c
7
, c
11
u
18
+ u
17
+ ··· + u + 1
c
9
(u
9
2u
8
+ 5u
7
8u
6
+ 10u
5
12u
4
+ 10u
3
7u
2
+ 5u 1)
2
c
12
(u
9
+ 2u
8
+ 5u
7
+ 8u
6
+ 10u
5
+ 12u
4
+ 10u
3
+ 7u
2
+ 5u + 1)
2
30
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
, c
4
, c
5
c
8
y
18
+ 23y
17
+ ··· + 622y + 49
c
2
, c
6
(y
9
+ 7y
8
+ 28y
7
+ 71y
6
+ 125y
5
+ 142y
4
+ 98y
3
+ 36y
2
+ 4y 1)
2
c
3
, c
10
y
18
+ y
17
+ ··· + 82y + 49
c
7
, c
11
y
18
+ 11y
17
+ ··· + 7y + 1
c
9
, c
12
(y
9
+ 6y
8
+ 13y
7
+ 8y
6
10y
5
10y
4
+ 16y
3
+ 27y
2
+ 11y 1)
2
31
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
4
1(vol +
1CS) Cusp shape
u = 0.170099 + 0.870195I
a = 2.28493 + 0.33363I
b = 0.218125 + 0.934153I
1.39270 + 0.93298I 8.29333 7.88039I
u = 0.170099 + 0.870195I
a = 1.73845 + 1.57062I
b = 0.75166 2.01417I
1.39270 + 0.93298I 8.29333 7.88039I
u = 0.170099 0.870195I
a = 2.28493 0.33363I
b = 0.218125 0.934153I
1.39270 0.93298I 8.29333 + 7.88039I
u = 0.170099 0.870195I
a = 1.73845 1.57062I
b = 0.75166 + 2.01417I
1.39270 0.93298I 8.29333 + 7.88039I
u = 0.298286 + 0.823118I
a = 0.989385 0.331156I
b = 0.327124 0.639862I
5.25230 3.55910I 0.46414 + 5.94305I
u = 0.298286 + 0.823118I
a = 1.75178 1.39429I
b = 1.19196 + 0.79400I
5.25230 3.55910I 0.46414 + 5.94305I
u = 0.298286 0.823118I
a = 0.989385 + 0.331156I
b = 0.327124 + 0.639862I
5.25230 + 3.55910I 0.46414 5.94305I
u = 0.298286 0.823118I
a = 1.75178 + 1.39429I
b = 1.19196 0.79400I
5.25230 + 3.55910I 0.46414 5.94305I
u = 0.89957 + 1.19167I
a = 1.256460 + 0.455280I
b = 1.400940 + 0.053360I
9.15358 + 4.87540I 13.3950 4.9499I
u = 0.89957 + 1.19167I
a = 0.199311 0.485010I
b = 0.736096 0.285391I
9.15358 + 4.87540I 13.3950 4.9499I
32
Solutions to I
u
4
1(vol +
1CS) Cusp shape
u = 0.89957 1.19167I
a = 1.256460 0.455280I
b = 1.400940 0.053360I
9.15358 4.87540I 13.3950 + 4.9499I
u = 0.89957 1.19167I
a = 0.199311 + 0.485010I
b = 0.736096 + 0.285391I
9.15358 4.87540I 13.3950 + 4.9499I
u = 0.56414 + 1.39451I
a = 0.424477 + 0.161312I
b = 0.568251 + 0.712301I
10.37290 + 2.46792I 3.97641 + 2.17917I
u = 0.56414 + 1.39451I
a = 1.59666 0.23541I
b = 1.299370 0.292344I
10.37290 + 2.46792I 3.97641 + 2.17917I
u = 0.56414 1.39451I
a = 0.424477 0.161312I
b = 0.568251 0.712301I
10.37290 2.46792I 3.97641 2.17917I
u = 0.56414 1.39451I
a = 1.59666 + 0.23541I
b = 1.299370 + 0.292344I
10.37290 2.46792I 3.97641 2.17917I
u = 0.328953
a = 1.69385 + 1.68878I
b = 0.419275 + 0.827856I
0.294884 4.22790
u = 0.328953
a = 1.69385 1.68878I
b = 0.419275 0.827856I
0.294884 4.22790
33
V. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
, c
5
(u
18
+ u
17
+ ··· 22u + 7)(u
24
u
23
+ ··· 3u + 1)
· (u
46
u
45
+ ··· + 4u + 1)(u
98
8u
97
+ ··· 1622u + 113)
c
2
(u
9
3u
8
+ 8u
7
11u
6
+ 15u
5
12u
4
+ 12u
3
6u
2
+ 4u 1)
2
· (u
24
+ 8u
23
+ ··· + 14u + 4)(u
46
+ 13u
45
+ ··· + 528u + 52)
· (u
49
5u
48
+ ··· 24u + 5)
2
c
3
, c
10
(u
18
+ u
17
+ ··· + 4u + 7)(u
24
+ u
23
+ ··· 2u + 1)
· (u
46
u
45
+ ··· u + 1)(u
98
2u
97
+ ··· 1030836u + 176389)
c
4
, c
8
(u
18
u
17
+ ··· + 22u + 7)(u
24
+ u
23
+ ··· + 3u + 1)
· (u
46
u
45
+ ··· + 4u + 1)(u
98
8u
97
+ ··· 1622u + 113)
c
6
(u
9
+ 3u
8
+ 8u
7
+ 11u
6
+ 15u
5
+ 12u
4
+ 12u
3
+ 6u
2
+ 4u + 1)
2
· (u
24
8u
23
+ ··· 14u + 4)(u
46
+ 13u
45
+ ··· + 528u + 52)
· (u
49
5u
48
+ ··· 24u + 5)
2
c
7
, c
11
(u
18
+ u
17
+ ··· + u + 1)(u
24
+ 3u
23
+ ··· + 5u + 1)
· (u
46
+ 3u
45
+ ··· + 44u + 19)(u
98
+ 14u
97
+ ··· + 155699u + 22103)
c
9
(u
9
2u
8
+ 5u
7
8u
6
+ 10u
5
12u
4
+ 10u
3
7u
2
+ 5u 1)
2
· (u
24
11u
23
+ ··· 20u + 4)(u
46
16u
45
+ ··· 4284u + 356)
· (u
49
+ 12u
48
+ ··· + 257u + 59)
2
c
12
(u
9
+ 2u
8
+ 5u
7
+ 8u
6
+ 10u
5
+ 12u
4
+ 10u
3
+ 7u
2
+ 5u + 1)
2
· (u
24
+ 11u
23
+ ··· + 20u + 4)(u
46
16u
45
+ ··· 4284u + 356)
· (u
49
+ 12u
48
+ ··· + 257u + 59)
2
34
VI. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
, c
4
, c
5
c
8
(y
18
+ 23y
17
+ ··· + 622y + 49)(y
24
+ 21y
23
+ ··· + 15y + 1)
· (y
46
+ 51y
45
+ ··· + 46y + 1)(y
98
+ 86y
97
+ ··· + 162250y + 12769)
c
2
, c
6
(y
9
+ 7y
8
+ 28y
7
+ 71y
6
+ 125y
5
+ 142y
4
+ 98y
3
+ 36y
2
+ 4y 1)
2
· (y
24
+ 12y
23
+ ··· + 132y + 16)(y
46
+ 25y
45
+ ··· + 38416y + 2704)
· (y
49
+ 33y
48
+ ··· 624y 25)
2
c
3
, c
10
(y
18
+ y
17
+ ··· + 82y + 49)(y
24
+ 3y
23
+ ··· + 70y
2
+ 1)
· (y
46
31y
45
+ ··· 37y + 1)
· (y
98
12y
97
+ ··· + 591541541430y + 31113079321)
c
7
, c
11
(y
18
+ 11y
17
+ ··· + 7y + 1)(y
24
9y
23
+ ··· y + 1)
· (y
46
11y
45
+ ··· 74y + 361)
· (y
98
14y
97
+ ··· 3878773113y + 488542609)
c
9
, c
12
(y
9
+ 6y
8
+ 13y
7
+ 8y
6
10y
5
10y
4
+ 16y
3
+ 27y
2
+ 11y 1)
2
· (y
24
+ 11y
23
+ ··· + 248y + 16)(y
46
+ 28y
45
+ ··· + 6976y + 126736)
· (y
49
+ 40y
48
+ ··· + 20383y 3481)
2
35