12a
0608
(K12a
0608
)
A knot diagram
1
Linearized knot diagam
3 7 9 12 10 2 11 1 6 5 8 4
Solving Sequence
2,6
7
3,9
4 10 1 5 11 8 12
c
6
c
2
c
3
c
9
c
1
c
5
c
10
c
8
c
12
c
4
, c
7
, c
11
Ideals for irreducible components
2
of X
par
I
u
1
= h−1.91359 × 10
294
u
122
4.52981 × 10
294
u
121
+ ··· + 3.88967 × 10
294
b 2.98604 × 10
296
,
9.79728 × 10
295
u
122
2.24169 × 10
296
u
121
+ ··· + 4.00636 × 10
296
a 7.79915 × 10
297
,
u
123
+ 3u
122
+ ··· + 118u + 103i
I
u
2
= h88u
27
+ 45u
26
+ ··· + 23b 99, 10u
27
+ 78u
26
+ ··· + 23a 144, u
28
7u
26
+ ··· 8u
2
+ 1i
* 2 irreducible components of dim
C
= 0, with total 151 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−1.91 × 10
294
u
122
4.53 × 10
294
u
121
+ · · · + 3.89 × 10
294
b 2.99 ×
10
296
, 9.80 × 10
295
u
122
2.24 × 10
296
u
121
+ · · · + 4.01 × 10
296
a 7.80 ×
10
297
, u
123
+ 3u
122
+ · · · + 118u + 103i
(i) Arc colorings
a
2
=
0
u
a
6
=
1
0
a
7
=
1
u
2
a
3
=
u
u
3
+ u
a
9
=
0.244543u
122
+ 0.559534u
121
+ ··· 28.9145u + 19.4669
0.491968u
122
+ 1.16457u
121
+ ··· + 4.25457u + 76.7685
a
4
=
1.06929u
122
2.35492u
121
+ ··· 11.6245u 175.307
0.153231u
122
0.387862u
121
+ ··· + 11.1290u 2.47162
a
10
=
0.736511u
122
+ 1.72411u
121
+ ··· 24.6599u + 96.2354
0.491968u
122
+ 1.16457u
121
+ ··· + 4.25457u + 76.7685
a
1
=
u
3
u
5
u
3
+ u
a
5
=
0.415775u
122
+ 0.783733u
121
+ ··· + 11.3829u + 77.3969
0.364639u
122
0.941621u
121
+ ··· + 18.7141u 45.2372
a
11
=
0.366534u
122
+ 0.922878u
121
+ ··· 25.4284u + 50.5634
0.319860u
122
+ 0.705880u
121
+ ··· 17.4424u + 46.0162
a
8
=
0.408604u
122
+ 0.923887u
121
+ ··· 20.1527u + 36.3808
0.573783u
122
+ 1.34367u
121
+ ··· + 3.16407u + 79.2098
a
12
=
0.168150u
122
+ 0.451184u
121
+ ··· + 10.0432u + 61.5193
0.0421304u
122
+ 0.0512572u
121
+ ··· + 8.54951u + 21.5981
(ii) Obstruction class = 1
(iii) Cusp Shapes = 0.0861323u
122
+ 0.301447u
121
+ ··· 68.2666u + 155.020
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
123
+ 55u
122
+ ··· + 363300u + 10609
c
2
, c
6
u
123
3u
122
+ ··· + 118u 103
c
3
u
123
u
122
+ ··· + 87046u 12899
c
4
, c
12
u
123
+ 7u
122
+ ··· 111u 43
c
5
, c
9
, c
10
u
123
u
122
+ ··· + u 19
c
7
, c
11
u
123
+ 3u
122
+ ··· 752u 187
c
8
u
123
+ 2u
122
+ ··· + 2u 1
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
123
+ 41y
122
+ ··· + 2225325352y 112550881
c
2
, c
6
y
123
55y
122
+ ··· + 363300y 10609
c
3
y
123
+ 27y
122
+ ··· 6188058542y 166384201
c
4
, c
12
y
123
+ 91y
122
+ ··· 18639y 1849
c
5
, c
9
, c
10
y
123
+ 123y
122
+ ··· 47879y 361
c
7
, c
11
y
123
69y
122
+ ··· + 1826632y 34969
c
8
y
123
10y
122
+ ··· + 136y 1
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.787312 + 0.611782I
a = 1.347980 0.063462I
b = 0.704765 + 0.157248I
2.06112 0.67907I 0
u = 0.787312 0.611782I
a = 1.347980 + 0.063462I
b = 0.704765 0.157248I
2.06112 + 0.67907I 0
u = 0.948530 + 0.334543I
a = 1.52357 + 0.72529I
b = 1.032510 + 0.448117I
2.63821 + 1.05482I 0
u = 0.948530 0.334543I
a = 1.52357 0.72529I
b = 1.032510 0.448117I
2.63821 1.05482I 0
u = 0.407053 + 0.920884I
a = 0.282292 + 0.316166I
b = 0.397219 0.046853I
1.20818 4.13474I 0
u = 0.407053 0.920884I
a = 0.282292 0.316166I
b = 0.397219 + 0.046853I
1.20818 + 4.13474I 0
u = 0.515334 + 0.875291I
a = 0.506060 1.177120I
b = 0.15168 + 1.45970I
7.77774 4.96669I 0
u = 0.515334 0.875291I
a = 0.506060 + 1.177120I
b = 0.15168 1.45970I
7.77774 + 4.96669I 0
u = 0.742368 + 0.694050I
a = 1.144460 0.407527I
b = 0.473434 0.779230I
4.20707 2.00630I 0
u = 0.742368 0.694050I
a = 1.144460 + 0.407527I
b = 0.473434 + 0.779230I
4.20707 + 2.00630I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.899456 + 0.386524I
a = 1.205040 0.331370I
b = 0.07659 1.90314I
11.55850 1.59415I 0
u = 0.899456 0.386524I
a = 1.205040 + 0.331370I
b = 0.07659 + 1.90314I
11.55850 + 1.59415I 0
u = 0.940419 + 0.400277I
a = 2.58071 1.55175I
b = 0.022898 1.315310I
4.61342 3.20939I 0
u = 0.940419 0.400277I
a = 2.58071 + 1.55175I
b = 0.022898 + 1.315310I
4.61342 + 3.20939I 0
u = 0.547983 + 0.864160I
a = 0.831442 + 0.465828I
b = 0.716478 0.312874I
5.66260 2.23601I 0
u = 0.547983 0.864160I
a = 0.831442 0.465828I
b = 0.716478 + 0.312874I
5.66260 + 2.23601I 0
u = 0.499148 + 0.825004I
a = 1.173990 0.748238I
b = 0.899665 + 0.392483I
1.63268 + 7.95122I 0
u = 0.499148 0.825004I
a = 1.173990 + 0.748238I
b = 0.899665 0.392483I
1.63268 7.95122I 0
u = 1.003890 + 0.321587I
a = 0.164326 0.143765I
b = 0.175029 + 0.466402I
1.66108 1.47407I 0
u = 1.003890 0.321587I
a = 0.164326 + 0.143765I
b = 0.175029 0.466402I
1.66108 + 1.47407I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.042520 + 0.171631I
a = 0.238632 0.296052I
b = 0.433016 0.822238I
5.79252 1.16404I 0
u = 1.042520 0.171631I
a = 0.238632 + 0.296052I
b = 0.433016 + 0.822238I
5.79252 + 1.16404I 0
u = 0.945639 + 0.472768I
a = 1.54105 + 1.40262I
b = 0.13061 + 1.51319I
3.11222 + 3.71000I 0
u = 0.945639 0.472768I
a = 1.54105 1.40262I
b = 0.13061 1.51319I
3.11222 3.71000I 0
u = 1.068950 + 0.027148I
a = 0.065840 + 0.370856I
b = 0.516622 0.708624I
4.17554 + 6.43085I 0
u = 1.068950 0.027148I
a = 0.065840 0.370856I
b = 0.516622 + 0.708624I
4.17554 6.43085I 0
u = 0.964494 + 0.465733I
a = 2.41393 + 0.37226I
b = 0.089867 + 1.348840I
3.08837 1.58092I 0
u = 0.964494 0.465733I
a = 2.41393 0.37226I
b = 0.089867 1.348840I
3.08837 + 1.58092I 0
u = 0.875483 + 0.638970I
a = 1.16011 + 1.11661I
b = 0.585032 + 0.257556I
1.80755 + 5.59259I 0
u = 0.875483 0.638970I
a = 1.16011 1.11661I
b = 0.585032 0.257556I
1.80755 5.59259I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.437385 + 0.992590I
a = 0.508035 + 0.885387I
b = 0.33220 1.49038I
4.42863 12.37890I 0
u = 0.437385 0.992590I
a = 0.508035 0.885387I
b = 0.33220 + 1.49038I
4.42863 + 12.37890I 0
u = 1.029890 + 0.363744I
a = 0.735917 0.877515I
b = 1.005630 0.051546I
2.96783 3.24228I 0
u = 1.029890 0.363744I
a = 0.735917 + 0.877515I
b = 1.005630 + 0.051546I
2.96783 + 3.24228I 0
u = 0.859174 + 0.266582I
a = 0.864643 + 1.047260I
b = 0.122746 1.028840I
4.11003 + 6.16993I 0
u = 0.859174 0.266582I
a = 0.864643 1.047260I
b = 0.122746 + 1.028840I
4.11003 6.16993I 0
u = 0.866442 + 0.686571I
a = 0.021204 0.798522I
b = 0.082816 0.345180I
3.81153 2.64755I 0
u = 0.866442 0.686571I
a = 0.021204 + 0.798522I
b = 0.082816 + 0.345180I
3.81153 + 2.64755I 0
u = 0.457246 + 0.766444I
a = 0.295154 + 1.361580I
b = 0.10777 1.49701I
8.07051 + 1.26448I 0
u = 0.457246 0.766444I
a = 0.295154 1.361580I
b = 0.10777 + 1.49701I
8.07051 1.26448I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.782458 + 0.421266I
a = 0.492123 + 0.259294I
b = 0.25826 + 1.42214I
2.49887 + 0.02070I 0
u = 0.782458 0.421266I
a = 0.492123 0.259294I
b = 0.25826 1.42214I
2.49887 0.02070I 0
u = 0.923397 + 0.629238I
a = 0.459018 + 0.164260I
b = 0.621856 0.578750I
3.64481 3.09137I 0
u = 0.923397 0.629238I
a = 0.459018 0.164260I
b = 0.621856 + 0.578750I
3.64481 + 3.09137I 0
u = 0.980910 + 0.535352I
a = 2.34185 1.18607I
b = 0.22577 1.42603I
3.65229 8.55997I 0
u = 0.980910 0.535352I
a = 2.34185 + 1.18607I
b = 0.22577 + 1.42603I
3.65229 + 8.55997I 0
u = 0.385592 + 1.050480I
a = 0.281760 0.585327I
b = 0.24772 + 1.43250I
0.06289 + 5.69076I 0
u = 0.385592 1.050480I
a = 0.281760 + 0.585327I
b = 0.24772 1.43250I
0.06289 5.69076I 0
u = 0.169806 + 0.859437I
a = 0.524015 + 0.315294I
b = 0.018135 1.235180I
2.18571 + 2.40188I 0
u = 0.169806 0.859437I
a = 0.524015 0.315294I
b = 0.018135 + 1.235180I
2.18571 2.40188I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.003390 + 0.537040I
a = 1.171840 + 0.574067I
b = 0.616372 + 0.213805I
0.26082 + 4.36982I 0
u = 1.003390 0.537040I
a = 1.171840 0.574067I
b = 0.616372 0.213805I
0.26082 4.36982I 0
u = 0.660571 + 0.541819I
a = 1.171540 + 0.572811I
b = 0.270269 1.340010I
2.63800 + 4.19479I 0
u = 0.660571 0.541819I
a = 1.171540 0.572811I
b = 0.270269 + 1.340010I
2.63800 4.19479I 0
u = 1.005150 + 0.553399I
a = 0.353317 0.779011I
b = 1.022200 + 0.905486I
1.13521 + 6.72211I 0
u = 1.005150 0.553399I
a = 0.353317 + 0.779011I
b = 1.022200 0.905486I
1.13521 6.72211I 0
u = 1.114370 + 0.289346I
a = 0.331211 0.959738I
b = 0.160740 1.382660I
6.91836 0.04737I 0
u = 1.114370 0.289346I
a = 0.331211 + 0.959738I
b = 0.160740 + 1.382660I
6.91836 + 0.04737I 0
u = 0.889597 + 0.768873I
a = 0.626789 0.957771I
b = 0.043016 + 0.993124I
0.21937 2.90174I 0
u = 0.889597 0.768873I
a = 0.626789 + 0.957771I
b = 0.043016 0.993124I
0.21937 + 2.90174I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.602560 + 0.561546I
a = 2.00071 + 0.52026I
b = 0.795831 + 0.968113I
0.10275 2.20920I 0
u = 0.602560 0.561546I
a = 2.00071 0.52026I
b = 0.795831 0.968113I
0.10275 + 2.20920I 0
u = 1.074070 + 0.485368I
a = 0.610249 + 0.910638I
b = 0.924230 0.351363I
2.13614 + 3.57490I 0
u = 1.074070 0.485368I
a = 0.610249 0.910638I
b = 0.924230 + 0.351363I
2.13614 3.57490I 0
u = 0.639090 + 0.504053I
a = 1.077930 0.580036I
b = 0.192648 + 0.630385I
0.71618 1.90859I 0
u = 0.639090 0.504053I
a = 1.077930 + 0.580036I
b = 0.192648 0.630385I
0.71618 + 1.90859I 0
u = 1.045760 + 0.568872I
a = 1.73537 + 0.12208I
b = 0.25881 1.60054I
9.82983 + 3.72484I 0
u = 1.045760 0.568872I
a = 1.73537 0.12208I
b = 0.25881 + 1.60054I
9.82983 3.72484I 0
u = 0.933199 + 0.740178I
a = 0.904231 0.486103I
b = 0.234717 + 0.833476I
0.29508 2.93135I 0
u = 0.933199 0.740178I
a = 0.904231 + 0.486103I
b = 0.234717 0.833476I
0.29508 + 2.93135I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.050600 + 0.576898I
a = 1.59175 0.34367I
b = 0.555747 0.459906I
3.28631 7.76450I 0
u = 1.050600 0.576898I
a = 1.59175 + 0.34367I
b = 0.555747 + 0.459906I
3.28631 + 7.76450I 0
u = 1.199430 + 0.018650I
a = 0.326384 + 0.958707I
b = 0.07865 + 1.59809I
13.9909 + 2.9581I 0
u = 1.199430 0.018650I
a = 0.326384 0.958707I
b = 0.07865 1.59809I
13.9909 2.9581I 0
u = 0.883489 + 0.823866I
a = 0.85913 + 1.40259I
b = 0.032006 1.331310I
0.14542 + 3.06178I 0
u = 0.883489 0.823866I
a = 0.85913 1.40259I
b = 0.032006 + 1.331310I
0.14542 3.06178I 0
u = 1.167860 + 0.351487I
a = 0.650199 + 0.290683I
b = 0.25318 + 1.56328I
8.82881 + 0.83224I 0
u = 1.167860 0.351487I
a = 0.650199 0.290683I
b = 0.25318 1.56328I
8.82881 0.83224I 0
u = 1.127710 + 0.480498I
a = 1.82337 + 0.51238I
b = 0.47357 + 1.49368I
7.99189 + 8.84719I 0
u = 1.127710 0.480498I
a = 1.82337 0.51238I
b = 0.47357 1.49368I
7.99189 8.84719I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.110470 + 0.559884I
a = 1.99586 0.47824I
b = 0.290942 1.342730I
5.10181 7.59480I 0
u = 1.110470 0.559884I
a = 1.99586 + 0.47824I
b = 0.290942 + 1.342730I
5.10181 + 7.59480I 0
u = 0.434198 + 0.618590I
a = 1.41844 + 0.70439I
b = 0.314285 0.489036I
1.57370 + 3.01462I 4.59125 4.24141I
u = 0.434198 0.618590I
a = 1.41844 0.70439I
b = 0.314285 + 0.489036I
1.57370 3.01462I 4.59125 + 4.24141I
u = 0.327812 + 0.669357I
a = 0.856891 + 0.912817I
b = 0.245218 1.287400I
2.89276 + 2.80570I 3.21371 1.63988I
u = 0.327812 0.669357I
a = 0.856891 0.912817I
b = 0.245218 + 1.287400I
2.89276 2.80570I 3.21371 + 1.63988I
u = 1.180670 + 0.436343I
a = 0.322934 + 0.042889I
b = 0.0067332 + 0.1318550I
1.80294 1.34025I 0
u = 1.180670 0.436343I
a = 0.322934 0.042889I
b = 0.0067332 0.1318550I
1.80294 + 1.34025I 0
u = 1.088750 + 0.642007I
a = 1.30896 + 0.59178I
b = 1.013580 + 0.497805I
0.14887 13.43410I 0
u = 1.088750 0.642007I
a = 1.30896 0.59178I
b = 1.013580 0.497805I
0.14887 + 13.43410I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.071670 + 0.673655I
a = 1.093560 0.442170I
b = 0.778925 0.479486I
4.06812 + 7.92542I 0
u = 1.071670 0.673655I
a = 1.093560 + 0.442170I
b = 0.778925 + 0.479486I
4.06812 7.92542I 0
u = 0.571980 + 0.454559I
a = 1.43695 0.31602I
b = 0.480902 + 0.025130I
1.042310 0.100714I 11.05953 + 0.92262I
u = 0.571980 0.454559I
a = 1.43695 + 0.31602I
b = 0.480902 0.025130I
1.042310 + 0.100714I 11.05953 0.92262I
u = 0.719247 + 0.031000I
a = 2.25126 0.47542I
b = 0.335275 0.453348I
0.559631 0.028225I 3.73353 0.43145I
u = 0.719247 0.031000I
a = 2.25126 + 0.47542I
b = 0.335275 + 0.453348I
0.559631 + 0.028225I 3.73353 + 0.43145I
u = 1.157130 + 0.565388I
a = 1.79624 0.50897I
b = 0.184128 1.295580I
4.99442 7.50414I 0
u = 1.157130 0.565388I
a = 1.79624 + 0.50897I
b = 0.184128 + 1.295580I
4.99442 + 7.50414I 0
u = 0.080053 + 0.706651I
a = 0.84526 1.32254I
b = 0.33809 + 1.42370I
5.09434 4.55628I 2.46367 + 3.11245I
u = 0.080053 0.706651I
a = 0.84526 + 1.32254I
b = 0.33809 1.42370I
5.09434 + 4.55628I 2.46367 3.11245I
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.601004 + 0.369751I
a = 0.214027 1.384130I
b = 0.084763 + 1.173690I
2.02990 2.08563I 5.03397 + 5.10620I
u = 0.601004 0.369751I
a = 0.214027 + 1.384130I
b = 0.084763 1.173690I
2.02990 + 2.08563I 5.03397 5.10620I
u = 1.109200 + 0.675081I
a = 1.99957 0.13886I
b = 0.22139 + 1.48235I
9.5852 + 10.7219I 0
u = 1.109200 0.675081I
a = 1.99957 + 0.13886I
b = 0.22139 1.48235I
9.5852 10.7219I 0
u = 0.566260 + 1.196990I
a = 0.276390 0.583794I
b = 0.100971 + 1.374480I
3.41479 + 5.75686I 0
u = 0.566260 1.196990I
a = 0.276390 + 0.583794I
b = 0.100971 1.374480I
3.41479 5.75686I 0
u = 1.173470 + 0.678874I
a = 1.79527 0.22317I
b = 0.37084 1.54686I
6.7118 + 18.4340I 0
u = 1.173470 0.678874I
a = 1.79527 + 0.22317I
b = 0.37084 + 1.54686I
6.7118 18.4340I 0
u = 1.365480 + 0.021506I
a = 0.060189 0.750509I
b = 0.19493 1.52083I
11.2418 + 9.1333I 0
u = 1.365480 0.021506I
a = 0.060189 + 0.750509I
b = 0.19493 + 1.52083I
11.2418 9.1333I 0
15
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.192050 + 0.677817I
a = 1.55469 + 0.34247I
b = 0.28776 + 1.51874I
2.42897 11.84450I 0
u = 1.192050 0.677817I
a = 1.55469 0.34247I
b = 0.28776 1.51874I
2.42897 + 11.84450I 0
u = 1.41597 + 0.14452I
a = 0.086654 0.817722I
b = 0.06727 1.46117I
7.57822 + 1.85934I 0
u = 1.41597 0.14452I
a = 0.086654 + 0.817722I
b = 0.06727 + 1.46117I
7.57822 1.85934I 0
u = 0.214793 + 0.534884I
a = 1.87361 + 0.18083I
b = 0.762942 0.220779I
0.126458 + 0.501413I 6.99069 0.97875I
u = 0.214793 0.534884I
a = 1.87361 0.18083I
b = 0.762942 + 0.220779I
0.126458 0.501413I 6.99069 + 0.97875I
u = 1.31658 + 0.67345I
a = 0.997522 + 0.205714I
b = 0.002765 + 1.373410I
6.18745 + 1.32084I 0
u = 1.31658 0.67345I
a = 0.997522 0.205714I
b = 0.002765 1.373410I
6.18745 1.32084I 0
u = 0.497375 + 0.069997I
a = 2.44253 + 1.50473I
b = 0.220366 0.429480I
1.30719 + 2.77377I 2.12105 5.40265I
u = 0.497375 0.069997I
a = 2.44253 1.50473I
b = 0.220366 + 0.429480I
1.30719 2.77377I 2.12105 + 5.40265I
16
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.477236
a = 1.85229
b = 0.355196
0.885419 11.9600
u = 1.22203 + 0.90973I
a = 0.851154 + 0.087020I
b = 0.07295 1.57142I
8.03343 + 4.00605I 0
u = 1.22203 0.90973I
a = 0.851154 0.087020I
b = 0.07295 + 1.57142I
8.03343 4.00605I 0
17
II. I
u
2
= h88u
27
+ 45u
26
+ · · · + 23b 99, 10u
27
+ 78u
26
+ · · · + 23a
144, u
28
7u
26
+ · · · 8u
2
+ 1i
(i) Arc colorings
a
2
=
0
u
a
6
=
1
0
a
7
=
1
u
2
a
3
=
u
u
3
+ u
a
9
=
0.434783u
27
3.39130u
26
+ ··· + 3.04348u + 6.26087
3.82609u
27
1.95652u
26
+ ··· + 8.21739u + 4.30435
a
4
=
12.9565u
27
+ 3.26087u
26
+ ··· + 14.3043u + 7.82609
3.82609u
27
0.956522u
26
+ ··· + 10.2174u 0.695652
a
10
=
3.39130u
27
5.34783u
26
+ ··· + 11.2609u + 10.5652
3.82609u
27
1.95652u
26
+ ··· + 8.21739u + 4.30435
a
1
=
u
3
u
5
u
3
+ u
a
5
=
1.30435u
27
4.82609u
26
+ ··· + 0.869565u + 11.2174
7.69565u
27
3.82609u
26
+ ··· 14.1304u + 4.21739
a
11
=
6.30435u
27
1.17391u
26
+ ··· 21.8696u + 8.78261
4.26087u
27
+ 7.43478u
26
+ ··· + 0.173913u 5.95652
a
8
=
0.565217u
27
2.39130u
26
+ ··· + 4.04348u + 5.26087
3.82609u
27
1.95652u
26
+ ··· + 8.21739u + 4.30435
a
12
=
8.34783u
27
+ 0.0869565u
26
+ ··· 8.56522u 3.39130
4.91304u
27
+ 3.52174u
26
+ ··· + 7.60870u 1.34783
(ii) Obstruction class = 1
(iii) Cusp Shapes =
424
23
u
27
+
492
23
u
26
+ ···
461
23
u +
247
23
18
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
28
14u
27
+ ··· 16u + 1
c
2
u
28
7u
26
+ ··· 8u
2
+ 1
c
3
u
28
+ 4u
26
+ ··· 2u + 1
c
4
u
28
+ 14u
26
+ ··· + u + 3
c
5
u
28
+ 16u
26
+ ··· + u + 1
c
6
u
28
7u
26
+ ··· 8u
2
+ 1
c
7
u
28
4u
27
+ ··· 4u + 1
c
8
u
28
+ u
27
+ ··· + 2u
2
+ 1
c
9
, c
10
u
28
+ 16u
26
+ ··· u + 1
c
11
u
28
+ 4u
27
+ ··· + 4u + 1
c
12
u
28
+ 14u
26
+ ··· u + 3
19
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
28
+ 14y
27
+ ··· + 4y
2
+ 1
c
2
, c
6
y
28
14y
27
+ ··· 16y + 1
c
3
y
28
+ 8y
27
+ ··· 2y + 1
c
4
, c
12
y
28
+ 28y
27
+ ··· + 167y + 9
c
5
, c
9
, c
10
y
28
+ 32y
27
+ ··· + 11y + 1
c
7
, c
11
y
28
24y
27
+ ··· 28y + 1
c
8
y
28
9y
27
+ ··· + 4y + 1
20
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.915167 + 0.306798I
a = 1.314090 0.376918I
b = 0.04802 1.85125I
11.84290 + 1.28681I 6.01173 + 4.88233I
u = 0.915167 0.306798I
a = 1.314090 + 0.376918I
b = 0.04802 + 1.85125I
11.84290 1.28681I 6.01173 4.88233I
u = 0.691639 + 0.777864I
a = 0.350646 0.392835I
b = 0.310148 + 0.468429I
0.53145 + 3.71930I 4.55046 6.69924I
u = 0.691639 0.777864I
a = 0.350646 + 0.392835I
b = 0.310148 0.468429I
0.53145 3.71930I 4.55046 + 6.69924I
u = 0.432723 + 0.827633I
a = 0.041836 0.321263I
b = 0.133766 + 1.289080I
2.53211 5.32903I 6.12582 + 4.95903I
u = 0.432723 0.827633I
a = 0.041836 + 0.321263I
b = 0.133766 1.289080I
2.53211 + 5.32903I 6.12582 4.95903I
u = 1.011290 + 0.423393I
a = 0.713876 1.070590I
b = 0.718901 + 0.516702I
2.27853 5.05967I 3.47459 + 6.66316I
u = 1.011290 0.423393I
a = 0.713876 + 1.070590I
b = 0.718901 0.516702I
2.27853 + 5.05967I 3.47459 6.66316I
u = 0.872702 + 0.686844I
a = 0.185565 0.657965I
b = 0.044753 0.637567I
3.35795 2.64859I 1.69884 + 2.56363I
u = 0.872702 0.686844I
a = 0.185565 + 0.657965I
b = 0.044753 + 0.637567I
3.35795 + 2.64859I 1.69884 2.56363I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.876358 + 0.765551I
a = 0.92195 + 1.58625I
b = 0.020666 1.224370I
1.10467 + 2.89033I 11.40955 2.13475I
u = 0.876358 0.765551I
a = 0.92195 1.58625I
b = 0.020666 + 1.224370I
1.10467 2.89033I 11.40955 + 2.13475I
u = 0.792613 + 0.235951I
a = 2.12050 + 0.25249I
b = 0.278257 0.359878I
0.641193 + 0.799954I 5.77042 9.13013I
u = 0.792613 0.235951I
a = 2.12050 0.25249I
b = 0.278257 + 0.359878I
0.641193 0.799954I 5.77042 + 9.13013I
u = 0.725232 + 0.348379I
a = 2.44478 + 1.12149I
b = 0.600308 + 0.657620I
1.18482 + 1.75585I 2.86033 + 0.77633I
u = 0.725232 0.348379I
a = 2.44478 1.12149I
b = 0.600308 0.657620I
1.18482 1.75585I 2.86033 0.77633I
u = 1.091580 + 0.500735I
a = 2.22274 + 0.92875I
b = 0.278546 + 1.320190I
5.34404 + 8.60711I 0.70812 11.02230I
u = 1.091580 0.500735I
a = 2.22274 0.92875I
b = 0.278546 1.320190I
5.34404 8.60711I 0.70812 + 11.02230I
u = 1.124270 + 0.494821I
a = 0.416217 + 0.360770I
b = 0.510017 + 0.131165I
1.39313 + 1.57288I 8.43595 4.38584I
u = 1.124270 0.494821I
a = 0.416217 0.360770I
b = 0.510017 0.131165I
1.39313 1.57288I 8.43595 + 4.38584I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.202310 + 0.304809I
a = 0.584754 + 0.812487I
b = 0.13513 + 1.40947I
6.19136 + 0.59628I 2.45660 2.03049I
u = 1.202310 0.304809I
a = 0.584754 0.812487I
b = 0.13513 1.40947I
6.19136 0.59628I 2.45660 + 2.03049I
u = 0.562984 + 0.396371I
a = 2.03466 1.32651I
b = 0.227724 + 1.238680I
3.44400 4.66789I 0.91589 + 5.91609I
u = 0.562984 0.396371I
a = 2.03466 + 1.32651I
b = 0.227724 1.238680I
3.44400 + 4.66789I 0.91589 5.91609I
u = 0.599089 + 0.115219I
a = 1.93413 0.42370I
b = 0.173110 1.310390I
2.88560 + 1.01731I 1.33365 1.59890I
u = 0.599089 0.115219I
a = 1.93413 + 0.42370I
b = 0.173110 + 1.310390I
2.88560 1.01731I 1.33365 + 1.59890I
u = 1.21127 + 0.83460I
a = 0.923981 + 0.029523I
b = 0.09811 1.57477I
8.01715 3.84216I 3.0854 16.7816I
u = 1.21127 0.83460I
a = 0.923981 0.029523I
b = 0.09811 + 1.57477I
8.01715 + 3.84216I 3.0854 + 16.7816I
23
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
28
14u
27
+ ··· 16u + 1)(u
123
+ 55u
122
+ ··· + 363300u + 10609)
c
2
(u
28
7u
26
+ ··· 8u
2
+ 1)(u
123
3u
122
+ ··· + 118u 103)
c
3
(u
28
+ 4u
26
+ ··· 2u + 1)(u
123
u
122
+ ··· + 87046u 12899)
c
4
(u
28
+ 14u
26
+ ··· + u + 3)(u
123
+ 7u
122
+ ··· 111u 43)
c
5
(u
28
+ 16u
26
+ ··· + u + 1)(u
123
u
122
+ ··· + u 19)
c
6
(u
28
7u
26
+ ··· 8u
2
+ 1)(u
123
3u
122
+ ··· + 118u 103)
c
7
(u
28
4u
27
+ ··· 4u + 1)(u
123
+ 3u
122
+ ··· 752u 187)
c
8
(u
28
+ u
27
+ ··· + 2u
2
+ 1)(u
123
+ 2u
122
+ ··· + 2u 1)
c
9
, c
10
(u
28
+ 16u
26
+ ··· u + 1)(u
123
u
122
+ ··· + u 19)
c
11
(u
28
+ 4u
27
+ ··· + 4u + 1)(u
123
+ 3u
122
+ ··· 752u 187)
c
12
(u
28
+ 14u
26
+ ··· u + 3)(u
123
+ 7u
122
+ ··· 111u 43)
24
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
28
+ 14y
27
+ ··· + 4y
2
+ 1)
· (y
123
+ 41y
122
+ ··· + 2225325352y 112550881)
c
2
, c
6
(y
28
14y
27
+ ··· 16y + 1)(y
123
55y
122
+ ··· + 363300y 10609)
c
3
(y
28
+ 8y
27
+ ··· 2y + 1)
· (y
123
+ 27y
122
+ ··· 6188058542y 166384201)
c
4
, c
12
(y
28
+ 28y
27
+ ··· + 167y + 9)(y
123
+ 91y
122
+ ··· 18639y 1849)
c
5
, c
9
, c
10
(y
28
+ 32y
27
+ ··· + 11y + 1)(y
123
+ 123y
122
+ ··· 47879y 361)
c
7
, c
11
(y
28
24y
27
+ ··· 28y + 1)
· (y
123
69y
122
+ ··· + 1826632y 34969)
c
8
(y
28
9y
27
+ ··· + 4y + 1)(y
123
10y
122
+ ··· + 136y 1)
25