12a
0432
(K12a
0432
)
A knot diagram
1
Linearized knot diagam
3 6 10 8 2 11 5 12 4 1 7 9
Solving Sequence
8,12
9
1,5
4 10 3 7 11 6 2
c
8
c
12
c
4
c
9
c
3
c
7
c
11
c
6
c
2
c
1
, c
5
, c
10
Ideals for irreducible components
2
of X
par
I
u
1
= h8.17956 × 10
513
u
126
+ 6.56820 × 10
513
u
125
+ ··· + 6.50124 × 10
510
b + 9.89260 × 10
513
,
2.16012 × 10
513
u
126
2.23997 × 10
513
u
125
+ ··· + 6.50124 × 10
510
a 8.59599 × 10
512
,
u
127
39u
125
+ ··· + 26u 1i
I
u
2
= h−1683522u
21
10851287u
20
+ ··· + 135991b + 8481275,
191582u
21
+ 1200977u
20
+ ··· + 407973a + 2348438, u
22
+ 7u
21
+ ··· 11u 3i
* 2 irreducible components of dim
C
= 0, with total 149 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
= h8.18 × 10
513
u
126
+ 6.57 × 10
513
u
125
+ · · · + 6.50 × 10
510
b + 9.89 ×
10
513
, 2.16 × 10
513
u
126
2.24 × 10
513
u
125
+ · · · + 6.50 × 10
510
a 8.60 ×
10
512
, u
127
39u
125
+ · · · + 26u 1i
(i) Arc colorings
a
8
=
1
0
a
12
=
0
u
a
9
=
1
u
2
a
1
=
u
u
3
+ u
a
5
=
332.262u
126
+ 344.545u
125
+ ··· 4418.94u + 132.221
1258.15u
126
1010.30u
125
+ ··· + 37831.1u 1521.65
a
4
=
925.891u
126
665.754u
125
+ ··· + 33412.1u 1389.43
1258.15u
126
1010.30u
125
+ ··· + 37831.1u 1521.65
a
10
=
124.346u
126
35.5978u
125
+ ··· 11588.4u + 504.585
35.6942u
126
15.6952u
125
+ ··· 3727.56u + 160.148
a
3
=
102.852u
126
177.716u
125
+ ··· 1620.58u + 63.8561
1184.64u
126
+ 900.526u
125
+ ··· 39219.1u + 1594.14
a
7
=
54.1645u
126
4.38579u
125
+ ··· + 3562.79u 159.539
210.170u
126
+ 240.717u
125
+ ··· 2261.06u + 76.1834
a
11
=
154.927u
126
+ 24.7007u
125
+ ··· 10450.6u + 451.072
70.7956u
126
14.9643u
125
+ ··· 6402.55u + 273.959
a
6
=
185.571u
126
+ 68.9838u
125
+ ··· 11041.8u + 462.863
433.621u
126
+ 356.001u
125
+ ··· 12831.4u + 516.286
a
2
=
73.6548u
126
61.8141u
125
+ ··· + 3792.30u 186.708
222.809u
126
+ 191.525u
125
+ ··· 6309.64u + 253.297
(ii) Obstruction class = 1
(iii) Cusp Shapes = 1954.67u
126
1603.54u
125
+ ··· + 57833.4u 2355.39
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
127
+ 51u
126
+ ··· + 64748u + 961
c
2
, c
5
u
127
+ 3u
126
+ ··· 322u + 31
c
3
, c
9
u
127
+ 5u
126
+ ··· + 33188u + 3019
c
4
, c
7
u
127
4u
126
+ ··· 8u + 1
c
6
, c
11
u
127
2u
126
+ ··· + 2124u + 3559
c
8
, c
12
u
127
39u
125
+ ··· + 26u + 1
c
10
u
127
2u
126
+ ··· + 12444u + 1273
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
127
+ 61y
126
+ ··· + 252764728y 923521
c
2
, c
5
y
127
51y
126
+ ··· + 64748y 961
c
3
, c
9
y
127
+ 87y
126
+ ··· 136207782y 9114361
c
4
, c
7
y
127
+ 80y
126
+ ··· + 104y 1
c
6
, c
11
y
127
74y
126
+ ··· + 113971980y 12666481
c
8
, c
12
y
127
78y
126
+ ··· + 108y 1
c
10
y
127
+ 10y
126
+ ··· 40468346y 1620529
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.924683 + 0.369839I
a = 0.608340 1.273530I
b = 0.388767 + 0.488604I
2.30026 2.96450I 0
u = 0.924683 0.369839I
a = 0.608340 + 1.273530I
b = 0.388767 0.488604I
2.30026 + 2.96450I 0
u = 1.001120 + 0.147493I
a = 3.19117 + 0.15377I
b = 0.089038 0.925983I
0.14172 2.38640I 0
u = 1.001120 0.147493I
a = 3.19117 0.15377I
b = 0.089038 + 0.925983I
0.14172 + 2.38640I 0
u = 0.978649 + 0.131591I
a = 0.112195 1.062580I
b = 0.143483 + 0.046794I
1.71435 + 2.00781I 0
u = 0.978649 0.131591I
a = 0.112195 + 1.062580I
b = 0.143483 0.046794I
1.71435 2.00781I 0
u = 0.782053 + 0.653717I
a = 0.55451 + 1.69182I
b = 0.550760 0.827776I
2.79611 0.76104I 0
u = 0.782053 0.653717I
a = 0.55451 1.69182I
b = 0.550760 + 0.827776I
2.79611 + 0.76104I 0
u = 0.174076 + 1.005220I
a = 0.05242 1.45375I
b = 0.127324 + 1.393990I
8.45647 6.32148I 0
u = 0.174076 1.005220I
a = 0.05242 + 1.45375I
b = 0.127324 1.393990I
8.45647 + 6.32148I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.058630 + 0.164072I
a = 2.33472 + 0.80946I
b = 0.059832 + 0.858484I
0.38624 + 1.70611I 0
u = 1.058630 0.164072I
a = 2.33472 0.80946I
b = 0.059832 0.858484I
0.38624 1.70611I 0
u = 0.836922 + 0.378466I
a = 0.674692 + 0.298321I
b = 0.795291 + 0.260018I
2.03359 + 1.57618I 0
u = 0.836922 0.378466I
a = 0.674692 0.298321I
b = 0.795291 0.260018I
2.03359 1.57618I 0
u = 1.005480 + 0.400774I
a = 0.980953 + 0.573737I
b = 0.087151 0.903960I
0.298985 0.775562I 0
u = 1.005480 0.400774I
a = 0.980953 0.573737I
b = 0.087151 + 0.903960I
0.298985 + 0.775562I 0
u = 0.727229 + 0.555930I
a = 1.297510 0.284976I
b = 0.200909 0.061435I
2.78595 + 3.48689I 0
u = 0.727229 0.555930I
a = 1.297510 + 0.284976I
b = 0.200909 + 0.061435I
2.78595 3.48689I 0
u = 0.225415 + 1.071830I
a = 0.094820 + 1.372120I
b = 0.057743 1.348270I
9.41775 0.48167I 0
u = 0.225415 1.071830I
a = 0.094820 1.372120I
b = 0.057743 + 1.348270I
9.41775 + 0.48167I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.884516 + 0.055608I
a = 1.73570 + 3.59443I
b = 0.084782 1.096170I
0.31178 + 1.84948I 0
u = 0.884516 0.055608I
a = 1.73570 3.59443I
b = 0.084782 + 1.096170I
0.31178 1.84948I 0
u = 1.009010 + 0.472200I
a = 0.828558 + 0.588752I
b = 0.021031 0.929926I
0.275081 0.781566I 0
u = 1.009010 0.472200I
a = 0.828558 0.588752I
b = 0.021031 + 0.929926I
0.275081 + 0.781566I 0
u = 0.616167 + 0.577419I
a = 1.85521 + 0.68990I
b = 0.0724564 0.0703583I
0.69570 + 8.80811I 0
u = 0.616167 0.577419I
a = 1.85521 0.68990I
b = 0.0724564 + 0.0703583I
0.69570 8.80811I 0
u = 1.015590 + 0.560681I
a = 0.720345 + 0.732910I
b = 0.931075 0.511817I
0.42465 + 8.09284I 0
u = 1.015590 0.560681I
a = 0.720345 0.732910I
b = 0.931075 + 0.511817I
0.42465 8.09284I 0
u = 1.154410 + 0.236419I
a = 0.813409 + 0.475466I
b = 0.276136 + 0.626016I
1.27774 2.53272I 0
u = 1.154410 0.236419I
a = 0.813409 0.475466I
b = 0.276136 0.626016I
1.27774 + 2.53272I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.050520 + 0.536489I
a = 0.784616 + 0.920323I
b = 1.00707 1.29629I
2.37250 + 3.37648I 0
u = 1.050520 0.536489I
a = 0.784616 0.920323I
b = 1.00707 + 1.29629I
2.37250 3.37648I 0
u = 1.052630 + 0.553384I
a = 0.767236 0.924602I
b = 1.10195 + 1.21661I
2.29330 + 7.94168I 0
u = 1.052630 0.553384I
a = 0.767236 + 0.924602I
b = 1.10195 1.21661I
2.29330 7.94168I 0
u = 0.452818 + 0.667940I
a = 0.824452 + 0.566550I
b = 0.53812 1.42737I
4.04606 3.19347I 0
u = 0.452818 0.667940I
a = 0.824452 0.566550I
b = 0.53812 + 1.42737I
4.04606 + 3.19347I 0
u = 0.445440 + 0.666343I
a = 0.434019 + 0.485862I
b = 0.532311 1.119660I
3.15024 + 0.50709I 0
u = 0.445440 0.666343I
a = 0.434019 0.485862I
b = 0.532311 + 1.119660I
3.15024 0.50709I 0
u = 0.601574 + 0.523680I
a = 0.446446 + 0.178316I
b = 0.412904 0.638276I
3.19727 + 0.99504I 0
u = 0.601574 0.523680I
a = 0.446446 0.178316I
b = 0.412904 + 0.638276I
3.19727 0.99504I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.060950 + 0.566207I
a = 0.730209 0.864846I
b = 1.069190 + 0.900490I
1.35731 + 4.29706I 0
u = 1.060950 0.566207I
a = 0.730209 + 0.864846I
b = 1.069190 0.900490I
1.35731 4.29706I 0
u = 0.459921 + 0.648792I
a = 0.884835 0.659165I
b = 0.43189 + 1.47336I
4.10482 + 1.26411I 0
u = 0.459921 0.648792I
a = 0.884835 + 0.659165I
b = 0.43189 1.47336I
4.10482 1.26411I 0
u = 1.141480 + 0.404863I
a = 0.0260910 + 0.0015194I
b = 1.53189 + 0.29731I
2.64906 11.55230I 0
u = 1.141480 0.404863I
a = 0.0260910 0.0015194I
b = 1.53189 0.29731I
2.64906 + 11.55230I 0
u = 1.159150 + 0.383790I
a = 0.0210091 + 0.0368586I
b = 1.44124 0.15234I
1.07882 5.87309I 0
u = 1.159150 0.383790I
a = 0.0210091 0.0368586I
b = 1.44124 + 0.15234I
1.07882 + 5.87309I 0
u = 0.773781 + 0.006379I
a = 0.096914 + 0.879200I
b = 0.15875 2.30172I
6.59700 + 2.90052I 0
u = 0.773781 0.006379I
a = 0.096914 0.879200I
b = 0.15875 + 2.30172I
6.59700 2.90052I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.737225 + 0.083244I
a = 1.12451 1.75733I
b = 0.397770 + 1.232700I
1.43975 1.67693I 0
u = 0.737225 0.083244I
a = 1.12451 + 1.75733I
b = 0.397770 1.232700I
1.43975 + 1.67693I 0
u = 0.318561 + 0.665718I
a = 0.653109 1.207280I
b = 0.274464 + 1.243040I
2.85662 2.16898I 0
u = 0.318561 0.665718I
a = 0.653109 + 1.207280I
b = 0.274464 1.243040I
2.85662 + 2.16898I 0
u = 1.269100 + 0.104073I
a = 0.0726301 + 0.1055050I
b = 1.085320 + 0.179204I
5.27482 + 1.33689I 0
u = 1.269100 0.104073I
a = 0.0726301 0.1055050I
b = 1.085320 0.179204I
5.27482 1.33689I 0
u = 0.097674 + 1.269920I
a = 0.31176 + 1.64860I
b = 0.342279 0.755360I
3.11716 0.32407I 0
u = 0.097674 1.269920I
a = 0.31176 1.64860I
b = 0.342279 + 0.755360I
3.11716 + 0.32407I 0
u = 1.197100 + 0.437234I
a = 0.75198 + 1.29733I
b = 0.597393 1.278020I
1.84583 + 7.27986I 0
u = 1.197100 0.437234I
a = 0.75198 1.29733I
b = 0.597393 + 1.278020I
1.84583 7.27986I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.153150 + 0.546793I
a = 0.872106 + 0.906516I
b = 0.654320 1.178270I
0.40118 + 6.95050I 0
u = 1.153150 0.546793I
a = 0.872106 0.906516I
b = 0.654320 + 1.178270I
0.40118 6.95050I 0
u = 1.201810 + 0.438235I
a = 0.83517 1.39186I
b = 0.621108 + 1.254040I
3.89066 + 12.51970I 0
u = 1.201810 0.438235I
a = 0.83517 + 1.39186I
b = 0.621108 1.254040I
3.89066 12.51970I 0
u = 1.208050 + 0.443567I
a = 0.55693 1.44468I
b = 0.533112 + 1.221620I
7.23269 + 4.76345I 0
u = 1.208050 0.443567I
a = 0.55693 + 1.44468I
b = 0.533112 1.221620I
7.23269 4.76345I 0
u = 1.213250 + 0.434526I
a = 0.091496 0.161829I
b = 1.121500 + 0.415639I
7.27454 4.33559I 0
u = 1.213250 0.434526I
a = 0.091496 + 0.161829I
b = 1.121500 0.415639I
7.27454 + 4.33559I 0
u = 0.357259 + 0.613433I
a = 0.765566 0.836335I
b = 0.621129 + 0.405100I
1.79502 3.79376I 0
u = 0.357259 0.613433I
a = 0.765566 + 0.836335I
b = 0.621129 0.405100I
1.79502 + 3.79376I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.259380 + 0.331712I
a = 0.484701 0.313085I
b = 0.59164 + 1.41847I
4.00694 3.94852I 0
u = 1.259380 0.331712I
a = 0.484701 + 0.313085I
b = 0.59164 1.41847I
4.00694 + 3.94852I 0
u = 1.298960 + 0.172997I
a = 0.019714 0.173778I
b = 1.067280 0.302728I
6.92031 + 6.49364I 0
u = 1.298960 0.172997I
a = 0.019714 + 0.173778I
b = 1.067280 + 0.302728I
6.92031 6.49364I 0
u = 1.257550 + 0.386287I
a = 0.575391 + 0.378627I
b = 0.41722 1.42360I
3.66569 + 1.78366I 0
u = 1.257550 0.386287I
a = 0.575391 0.378627I
b = 0.41722 + 1.42360I
3.66569 1.78366I 0
u = 1.286290 + 0.278937I
a = 0.170919 + 0.423935I
b = 0.555351 + 0.051213I
1.50923 2.71926I 0
u = 1.286290 0.278937I
a = 0.170919 0.423935I
b = 0.555351 0.051213I
1.50923 + 2.71926I 0
u = 0.862934 + 1.015180I
a = 0.503053 0.819633I
b = 0.400943 + 0.862874I
2.72267 + 3.06869I 0
u = 0.862934 1.015180I
a = 0.503053 + 0.819633I
b = 0.400943 0.862874I
2.72267 3.06869I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.161472 + 0.641545I
a = 0.05726 + 2.39661I
b = 0.622146 0.967348I
0.28299 8.51393I 0
u = 0.161472 0.641545I
a = 0.05726 2.39661I
b = 0.622146 + 0.967348I
0.28299 + 8.51393I 0
u = 0.401688 + 0.484464I
a = 0.022561 + 0.265264I
b = 0.653497 + 0.672795I
1.96530 3.75159I 0
u = 0.401688 0.484464I
a = 0.022561 0.265264I
b = 0.653497 0.672795I
1.96530 + 3.75159I 0
u = 1.051880 + 0.882877I
a = 0.817930 0.857421I
b = 0.224316 + 0.740933I
3.01498 + 3.93528I 0
u = 1.051880 0.882877I
a = 0.817930 + 0.857421I
b = 0.224316 0.740933I
3.01498 3.93528I 0
u = 1.333810 + 0.344639I
a = 0.245238 + 1.128230I
b = 0.319262 1.376920I
0.24013 + 3.70238I 0
u = 1.333810 0.344639I
a = 0.245238 1.128230I
b = 0.319262 + 1.376920I
0.24013 3.70238I 0
u = 0.220063 + 1.360140I
a = 0.437105 1.167090I
b = 0.418588 + 1.225930I
4.49284 + 12.10370I 0
u = 0.220063 1.360140I
a = 0.437105 + 1.167090I
b = 0.418588 1.225930I
4.49284 12.10370I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.272320 + 0.582698I
a = 1.006390 + 0.763368I
b = 0.413656 1.251780I
5.06176 + 12.02310I 0
u = 1.272320 0.582698I
a = 1.006390 0.763368I
b = 0.413656 + 1.251780I
5.06176 12.02310I 0
u = 1.27288 + 0.61808I
a = 0.953283 0.738378I
b = 0.371548 + 1.192540I
6.14425 + 6.49037I 0
u = 1.27288 0.61808I
a = 0.953283 + 0.738378I
b = 0.371548 1.192540I
6.14425 6.49037I 0
u = 0.564726 + 0.147823I
a = 1.224540 + 0.150475I
b = 0.470129 1.091880I
2.21800 + 3.54719I 0
u = 0.564726 0.147823I
a = 1.224540 0.150475I
b = 0.470129 + 1.091880I
2.21800 3.54719I 0
u = 0.119494 + 0.539630I
a = 0.26031 2.64092I
b = 0.491015 + 0.967513I
1.64848 3.37767I 9.26258 + 3.81874I
u = 0.119494 0.539630I
a = 0.26031 + 2.64092I
b = 0.491015 0.967513I
1.64848 + 3.37767I 9.26258 3.81874I
u = 0.18857 + 1.48353I
a = 0.373456 + 1.149540I
b = 0.339116 1.193690I
6.48528 + 5.65093I 0
u = 0.18857 1.48353I
a = 0.373456 1.149540I
b = 0.339116 + 1.193690I
6.48528 5.65093I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.50529 + 0.03501I
a = 0.0706949 0.0047897I
b = 0.565038 0.097086I
10.45100 0.00475I 0
u = 1.50529 0.03501I
a = 0.0706949 + 0.0047897I
b = 0.565038 + 0.097086I
10.45100 + 0.00475I 0
u = 1.36114 + 0.65421I
a = 0.034874 1.319730I
b = 0.242019 + 1.149090I
1.06726 3.05908I 0
u = 1.36114 0.65421I
a = 0.034874 + 1.319730I
b = 0.242019 1.149090I
1.06726 + 3.05908I 0
u = 0.386808 + 0.299675I
a = 1.69449 0.66931I
b = 0.115282 + 1.113170I
2.87043 1.55752I 5.63745 + 2.96668I
u = 0.386808 0.299675I
a = 1.69449 + 0.66931I
b = 0.115282 1.113170I
2.87043 + 1.55752I 5.63745 2.96668I
u = 1.34890 + 0.70189I
a = 0.592966 + 1.150850I
b = 0.73755 1.38108I
0.9269 19.1649I 0
u = 1.34890 0.70189I
a = 0.592966 1.150850I
b = 0.73755 + 1.38108I
0.9269 + 19.1649I 0
u = 1.30303 + 0.79417I
a = 0.490291 + 1.241560I
b = 0.668032 1.222380I
4.64596 10.67220I 0
u = 1.30303 0.79417I
a = 0.490291 1.241560I
b = 0.668032 + 1.222380I
4.64596 + 10.67220I 0
15
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.463744 + 0.010276I
a = 2.55852 1.24842I
b = 0.823004 + 0.846488I
1.75112 3.20540I 10.31126 + 2.63714I
u = 0.463744 0.010276I
a = 2.55852 + 1.24842I
b = 0.823004 0.846488I
1.75112 + 3.20540I 10.31126 2.63714I
u = 1.36751 + 0.71926I
a = 0.554202 1.135900I
b = 0.68582 + 1.37268I
2.77946 13.02150I 0
u = 1.36751 0.71926I
a = 0.554202 + 1.135900I
b = 0.68582 1.37268I
2.77946 + 13.02150I 0
u = 1.39852 + 0.75614I
a = 0.289773 0.591729I
b = 0.420374 + 0.764458I
2.85311 + 3.24742I 0
u = 1.39852 0.75614I
a = 0.289773 + 0.591729I
b = 0.420374 0.764458I
2.85311 3.24742I 0
u = 0.199161 + 0.349879I
a = 0.935812 + 0.869803I
b = 0.507738 0.055240I
0.544908 + 0.211795I 12.17551 + 0.68143I
u = 0.199161 0.349879I
a = 0.935812 0.869803I
b = 0.507738 + 0.055240I
0.544908 0.211795I 12.17551 0.68143I
u = 0.381857 + 0.099919I
a = 3.45284 0.09653I
b = 0.939323 + 0.623104I
0.04615 + 8.48721I 12.82008 5.96405I
u = 0.381857 0.099919I
a = 3.45284 + 0.09653I
b = 0.939323 0.623104I
0.04615 8.48721I 12.82008 + 5.96405I
16
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.318022
a = 1.19666
b = 0.287314
0.622941 15.6690
u = 1.46815 + 1.10036I
a = 0.259727 1.198990I
b = 0.425109 + 1.179570I
1.82476 6.58740I 0
u = 1.46815 1.10036I
a = 0.259727 + 1.198990I
b = 0.425109 1.179570I
1.82476 + 6.58740I 0
u = 0.0805217 + 0.0598194I
a = 5.9887 + 16.5167I
b = 0.377241 0.492619I
3.26822 1.10078I 22.7416 + 6.4971I
u = 0.0805217 0.0598194I
a = 5.9887 16.5167I
b = 0.377241 + 0.492619I
3.26822 + 1.10078I 22.7416 6.4971I
u = 2.28802 + 0.42384I
a = 0.157528 + 0.522143I
b = 0.054931 0.848761I
2.52941 4.08544I 0
u = 2.28802 0.42384I
a = 0.157528 0.522143I
b = 0.054931 + 0.848761I
2.52941 + 4.08544I 0
17
II.
I
u
2
= h−1.68 × 10
6
u
21
1.09 × 10
7
u
20
+ · · · + 1.36 × 10
5
b + 8.48 × 10
6
, 1.92 ×
10
5
u
21
+1.20×10
6
u
20
+· · ·+4.08×10
5
a+2.35×10
6
, u
22
+7u
21
+· · ·11u3i
(i) Arc colorings
a
8
=
1
0
a
12
=
0
u
a
9
=
1
u
2
a
1
=
u
u
3
+ u
a
5
=
0.469595u
21
2.94377u
20
+ ··· 17.4894u 5.75636
12.3797u
21
+ 79.7942u
20
+ ··· 122.099u 62.3664
a
4
=
11.9101u
21
+ 76.8504u
20
+ ··· 139.588u 68.1228
12.3797u
21
+ 79.7942u
20
+ ··· 122.099u 62.3664
a
10
=
1.11237u
21
+ 8.35906u
20
+ ··· + 8.73789u 0.0169619
1.07400u
21
5.92699u
20
+ ··· + 9.56307u + 0.0677104
a
3
=
6.63331u
21
44.4609u
20
+ ··· + 43.9037u + 23.9077
10.1022u
21
64.3959u
20
+ ··· + 96.2399u + 48.6921
a
7
=
0.644097u
21
4.58268u
20
+ ··· + 13.8100u + 7.64814
6.20657u
21
+ 37.3134u
20
+ ··· 61.1479u 18.6874
a
11
=
2.11237u
21
+ 14.3591u
20
+ ··· 0.262108u 3.01696
1.07400u
21
5.92699u
20
+ ··· + 10.5631u + 0.0677104
a
6
=
0.0805642u
21
+ 1.57433u
20
+ ··· + 31.5750u + 9.36826
3.83648u
21
+ 22.0179u
20
+ ··· 58.4728u 20.1151
a
2
=
2.89990u
21
18.7465u
20
+ ··· + 43.5670u + 15.9911
4.42275u
21
28.6209u
20
+ ··· + 25.8646u + 11.0943
(ii) Obstruction class = 1
(iii) Cusp Shapes =
1486951
135991
u
21
10206074
135991
u
20
+ ··· +
14368380
135991
u +
8259156
135991
18
(iv) u-Polynomials at the component
19
Crossings u-Polynomials at each crossing
c
1
u
22
10u
21
+ ··· 11u + 1
c
2
u
22
+ 2u
21
+ ··· + 3u + 1
c
3
u
22
4u
21
+ ··· + 9u + 1
c
4
u
22
3u
21
+ ··· 5u 1
c
5
u
22
2u
21
+ ··· 3u + 1
c
6
u
22
u
21
+ ··· + u 1
c
7
u
22
+ 3u
21
+ ··· + 5u 1
c
8
u
22
+ 7u
21
+ ··· 11u 3
c
9
u
22
+ 4u
21
+ ··· 9u + 1
c
10
u
22
9u
21
+ ··· + 15u 1
c
11
u
22
+ u
21
+ ··· u 1
c
12
u
22
7u
21
+ ··· + 11u 3
20
21
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
22
+ 14y
21
+ ··· 3y + 1
c
2
, c
5
y
22
10y
21
+ ··· 11y + 1
c
3
, c
9
y
22
+ 16y
21
+ ··· 21y + 1
c
4
, c
7
y
22
+ 21y
21
+ ··· 31y + 1
c
6
, c
11
y
22
13y
21
+ ··· 15y + 1
c
8
, c
12
y
22
21y
21
+ ··· 115y + 9
c
10
y
22
y
21
+ ··· 29y + 1
22
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.798228 + 0.496203I
a = 1.52068 + 1.20636I
b = 0.880231 0.646781I
0.04947 + 9.77454I 14.1904 12.4970I
u = 0.798228 0.496203I
a = 1.52068 1.20636I
b = 0.880231 + 0.646781I
0.04947 9.77454I 14.1904 + 12.4970I
u = 1.042980 + 0.225050I
a = 0.578857 + 0.908661I
b = 0.360687 1.212330I
1.11478 3.27462I 11.05385 + 2.00603I
u = 1.042980 0.225050I
a = 0.578857 0.908661I
b = 0.360687 + 1.212330I
1.11478 + 3.27462I 11.05385 2.00603I
u = 0.888187 + 0.217314I
a = 1.35164 2.10727I
b = 0.122875 + 1.080670I
0.35331 + 1.61940I 14.0508 + 2.8072I
u = 0.888187 0.217314I
a = 1.35164 + 2.10727I
b = 0.122875 1.080670I
0.35331 1.61940I 14.0508 2.8072I
u = 0.989218 + 0.513877I
a = 0.988124 0.856083I
b = 1.011480 + 0.923743I
1.87955 + 5.23041I 9.85081 7.87459I
u = 0.989218 0.513877I
a = 0.988124 + 0.856083I
b = 1.011480 0.923743I
1.87955 5.23041I 9.85081 + 7.87459I
u = 0.160846 + 0.831869I
a = 1.18257 + 2.12516I
b = 0.205177 0.619198I
2.74331 + 0.99833I 7.66925 5.40834I
u = 0.160846 0.831869I
a = 1.18257 2.12516I
b = 0.205177 + 0.619198I
2.74331 0.99833I 7.66925 + 5.40834I
23
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.139400 + 0.203867I
a = 1.57525 + 0.38512I
b = 0.063898 + 0.911249I
0.36683 2.35155I 14.0241 5.0966I
u = 1.139400 0.203867I
a = 1.57525 0.38512I
b = 0.063898 0.911249I
0.36683 + 2.35155I 14.0241 + 5.0966I
u = 0.581694 + 0.584825I
a = 0.527101 + 0.613336I
b = 0.54623 1.30793I
3.11558 0.75050I 10.18883 + 0.22592I
u = 0.581694 0.584825I
a = 0.527101 0.613336I
b = 0.54623 + 1.30793I
3.11558 + 0.75050I 10.18883 0.22592I
u = 0.756954
a = 0.787897
b = 0.514795
2.31185 17.3930
u = 0.600485 + 0.049418I
a = 0.0761917 0.0163432I
b = 0.17252 2.19938I
6.97704 2.83290I 2.16640 + 1.07370I
u = 0.600485 0.049418I
a = 0.0761917 + 0.0163432I
b = 0.17252 + 2.19938I
6.97704 + 2.83290I 2.16640 1.07370I
u = 1.19394 + 0.77206I
a = 0.510316 1.079710I
b = 0.662717 + 1.138290I
2.37795 + 5.68180I 9.31656 4.65986I
u = 1.19394 0.77206I
a = 0.510316 + 1.079710I
b = 0.662717 1.138290I
2.37795 5.68180I 9.31656 + 4.65986I
u = 1.59408
a = 0.196128
b = 0.156521
10.2779 13.9620
24
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 2.14928 + 0.57892I
a = 0.132312 0.710703I
b = 0.160592 + 0.678612I
3.07388 4.19841I 0
u = 2.14928 0.57892I
a = 0.132312 + 0.710703I
b = 0.160592 0.678612I
3.07388 + 4.19841I 0
25
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
22
10u
21
+ ··· 11u + 1)(u
127
+ 51u
126
+ ··· + 64748u + 961)
c
2
(u
22
+ 2u
21
+ ··· + 3u + 1)(u
127
+ 3u
126
+ ··· 322u + 31)
c
3
(u
22
4u
21
+ ··· + 9u + 1)(u
127
+ 5u
126
+ ··· + 33188u + 3019)
c
4
(u
22
3u
21
+ ··· 5u 1)(u
127
4u
126
+ ··· 8u + 1)
c
5
(u
22
2u
21
+ ··· 3u + 1)(u
127
+ 3u
126
+ ··· 322u + 31)
c
6
(u
22
u
21
+ ··· + u 1)(u
127
2u
126
+ ··· + 2124u + 3559)
c
7
(u
22
+ 3u
21
+ ··· + 5u 1)(u
127
4u
126
+ ··· 8u + 1)
c
8
(u
22
+ 7u
21
+ ··· 11u 3)(u
127
39u
125
+ ··· + 26u + 1)
c
9
(u
22
+ 4u
21
+ ··· 9u + 1)(u
127
+ 5u
126
+ ··· + 33188u + 3019)
c
10
(u
22
9u
21
+ ··· + 15u 1)(u
127
2u
126
+ ··· + 12444u + 1273)
c
11
(u
22
+ u
21
+ ··· u 1)(u
127
2u
126
+ ··· + 2124u + 3559)
c
12
(u
22
7u
21
+ ··· + 11u 3)(u
127
39u
125
+ ··· + 26u + 1)
26
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
22
+ 14y
21
+ ··· 3y + 1)
· (y
127
+ 61y
126
+ ··· + 252764728y 923521)
c
2
, c
5
(y
22
10y
21
+ ··· 11y + 1)(y
127
51y
126
+ ··· + 64748y 961)
c
3
, c
9
(y
22
+ 16y
21
+ ··· 21y + 1)
· (y
127
+ 87y
126
+ ··· 136207782y 9114361)
c
4
, c
7
(y
22
+ 21y
21
+ ··· 31y + 1)(y
127
+ 80y
126
+ ··· + 104y 1)
c
6
, c
11
(y
22
13y
21
+ ··· 15y + 1)
· (y
127
74y
126
+ ··· + 113971980y 12666481)
c
8
, c
12
(y
22
21y
21
+ ··· 115y + 9)(y
127
78y
126
+ ··· + 108y 1)
c
10
(y
22
y
21
+ ··· 29y + 1)
· (y
127
+ 10y
126
+ ··· 40468346y 1620529)
27