12a

0318

(K12a

0318

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

6,9

3,10

2 1 5 8 4 12 11

, c

Ideals for irreducible components

of X

par

= h−1.25817 × 10

400

103

+ 6.06573 × 10

400

102

+ ··· + 2.71520 × 10

400

b − 4.51803 × 10

402

3.84894 × 10

400

103

− 1.79264 × 10

401

102

+ ··· + 3.39400 × 10

400

a + 2.41261 × 10

403

104

− 6u

103

+ ··· − 8175u − 625i

= h25a

− 5a

+ 2a

+ 4b + 11a + 3, 25a

− 5a

+ 2a

+ 6a

+ 5a − 1, u + 1i

* 2 irreducible components of dim

= 0, with total 109 representations.

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).

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

in decimal forms when there is not enough margin.

I. I

= h−1.26 × 10

400

103

+ 6.07 × 10

400

102

+ · · · + 2.72 × 10

400

b − 4.52 ×

402

, 3.85 × 10

400

103

− 1.79 × 10

401

102

+ · · · + 3.39 × 10

400

a + 2.41 ×

403

, u

104

− 6u

103

+ · · · − 8175u − 625i

(i) Arc colorings











−u





−1.13404u

103

+ 5.28179u

102

+ ··· − 8692.58u − 710.844

0.463381u

103

− 2.23399u

102

+ ··· + 2498.84u + 166.397





−u

+ u





−0.670662u

103

+ 3.04780u

102

+ ··· − 6193.74u − 544.447

0.463381u

103

− 2.23399u

102

+ ··· + 2498.84u + 166.397





1.07459u

103

− 5.59952u

102

+ ··· − 3167.52u − 538.320

−1.25102u

103

+ 5.81009u

102

+ ··· − 8824.16u − 651.600





0.714651u

103

− 3.81450u

102

+ ··· − 3127.85u − 359.311

−1.30915u

103

+ 6.22051u

102

+ ··· − 7633.41u − 537.319





−0.384925u

103

+ 2.58489u

102

+ ··· + 15388.0u + 1690.93

−0.867986u

103

+ 3.89150u

102

+ ··· − 6473.36u − 445.958





−0.591519u

103

+ 2.65264u

102

+ ··· − 7469.87u − 752.274

−0.496111u

103

+ 2.31885u

102

+ ··· − 3046.93u − 227.266





−0.349150u

103

+ 1.07505u

102

+ ··· − 11968.9u − 1158.87

−0.178604u

103

+ 0.831504u

102

+ ··· − 1466.07u − 104.748





1.68396u

103

− 9.20013u

102

+ ··· − 12447.3u − 1482.86

−0.498847u

103

+ 2.24348u

102

+ ··· − 4062.81u − 346.564



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.235557u

103

+ 1.17647u

102

+ ··· + 281.718u − 57.7009

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

104

+ 42u

103

+ ··· + 5u + 1

, c

104

+ 2u

103

+ ··· + u − 1

104

+ u

103

+ ··· + 128000u + 20000

, c

104

− 2u

103

+ ··· + 3u − 1

, c

104

+ 6u

103

+ ··· + 8175u − 625

25(25u

104

+ 125u

103

+ ··· − 5.04359 × 10

u − 1.75923 × 10

)

25(25u

104

+ 50u

103

+ ··· + 4032879u + 1554593)

, c

104

+ 30u

103

+ ··· − 5u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

104

+ 42y

103

+ ··· + 83y + 1

, c

104

− 42y

103

+ ··· − 5y + 1

104

− 33y

103

+ ··· − 16280000000y + 400000000

, c

104

+ 30y

103

+ ··· − 5y + 1

, c

104

− 86y

103

+ ··· − 30394375y + 390625

625(625y

104

− 87275y

103

+ ··· − 7.63958 × 10

y + 3.09488 × 10

)

625

· (625y

104

+ 16400y

103

+ ··· − 21479676158875y + 2416759395649)

, c

104

+ 90y

103

+ ··· − 173y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.013930 + 0.053074I

a = 0.84563 + 5.97337I

b = −0.875152 − 0.542840I

0.55238 − 2.15431I 0

u = −1.013930 − 0.053074I

a = 0.84563 − 5.97337I

b = −0.875152 + 0.542840I

0.55238 + 2.15431I 0

u = 1.034930 + 0.092377I

a = 0.432529 − 0.375380I

b = −1.43461 + 0.15241I

−4.20552 + 4.60588I 0

u = 1.034930 − 0.092377I

a = 0.432529 + 0.375380I

b = −1.43461 − 0.15241I

−4.20552 − 4.60588I 0

u = −0.920741 + 0.125206I

a = −1.26152 − 3.17105I

b = −0.819156 − 0.413304I

4.48936 + 0.62293I 0

u = −0.920741 − 0.125206I

a = −1.26152 + 3.17105I

b = −0.819156 + 0.413304I

4.48936 − 0.62293I 0

u = 0.025348 + 1.078690I

a = 0.414738 − 0.689098I

b = 1.022060 + 0.609154I

−2.41249 − 7.33475I 0

u = 0.025348 − 1.078690I

a = 0.414738 + 0.689098I

b = 1.022060 − 0.609154I

−2.41249 + 7.33475I 0

u = −1.070450 + 0.147466I

a = −0.076939 − 0.239125I

b = −0.140596 − 0.243052I

1.177780 − 0.779255I 0

u = −1.070450 − 0.147466I

a = −0.076939 + 0.239125I

b = −0.140596 + 0.243052I

1.177780 + 0.779255I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.110220 + 0.892342I

a = −0.914702 − 1.076450I

b = −1.003870 + 0.038005I

0.18628 − 5.77200I 0

u = 0.110220 − 0.892342I

a = −0.914702 + 1.076450I

b = −1.003870 − 0.038005I

0.18628 + 5.77200I 0

u = −0.867570 + 0.211578I

a = 1.23556 + 2.33717I

b = 0.801312 + 0.374759I

4.32881 − 5.13184I 0

u = −0.867570 − 0.211578I

a = 1.23556 − 2.33717I

b = 0.801312 − 0.374759I

4.32881 + 5.13184I 0

u = −0.716194 + 0.516260I

a = 0.058650 − 0.780537I

b = −0.439288 − 0.400367I

4.70460 + 0.58481I 0

u = −0.716194 − 0.516260I

a = 0.058650 + 0.780537I

b = −0.439288 + 0.400367I

4.70460 − 0.58481I 0

u = −0.134970 + 0.860713I

a = 0.305814 + 0.661002I

b = 0.532236 − 0.624590I

−1.02515 − 2.43506I 0

u = −0.134970 − 0.860713I

a = 0.305814 − 0.661002I

b = 0.532236 + 0.624590I

−1.02515 + 2.43506I 0

u = 0.755968 + 0.378816I

a = 0.009408 − 0.920023I

b = −1.187370 + 0.198303I

−4.14345 + 4.96463I 0

u = 0.755968 − 0.378816I

a = 0.009408 + 0.920023I

b = −1.187370 − 0.198303I

−4.14345 − 4.96463I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.15916

a = −0.248154

b = 1.39516

−0.196484 0

u = −0.234959 + 0.795544I

a = −0.790804 + 0.597039I

b = −0.992648 − 0.590040I

0.32570 − 4.74919I 0

u = −0.234959 − 0.795544I

a = −0.790804 − 0.597039I

b = −0.992648 + 0.590040I

0.32570 + 4.74919I 0

u = 0.031293 + 0.813655I

a = 0.98332 + 1.14454I

b = 0.973040 − 0.042367I

0.753256 + 0.017776I 0

u = 0.031293 − 0.813655I

a = 0.98332 − 1.14454I

b = 0.973040 + 0.042367I

0.753256 − 0.017776I 0

u = 0.400031 + 0.699404I

a = −0.568973 − 1.153310I

b = −1.058270 + 0.115697I

−5.49838 − 1.03204I 0

u = 0.400031 − 0.699404I

a = −0.568973 + 1.153310I

b = −1.058270 − 0.115697I

−5.49838 + 1.03204I 0

u = −0.608735 + 0.525411I

a = −0.166435 + 0.966502I

b = 0.490251 + 0.429515I

4.41771 − 5.22605I 0

u = −0.608735 − 0.525411I

a = −0.166435 − 0.966502I

b = 0.490251 − 0.429515I

4.41771 + 5.22605I 0

u = −0.517612 + 0.557275I

a = −0.267475 − 0.044433I

b = −0.631086 + 0.547783I

1.42679 − 0.09115I 8.32769 + 0.I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.517612 − 0.557275I

a = −0.267475 + 0.044433I

b = −0.631086 − 0.547783I

1.42679 + 0.09115I 8.32769 + 0.I

u = 1.249050 + 0.091321I

a = −0.63785 − 1.27059I

b = 0.541821 + 1.005770I

3.02371 − 1.07462I 0

u = 1.249050 − 0.091321I

a = −0.63785 + 1.27059I

b = 0.541821 − 1.005770I

3.02371 + 1.07462I 0

u = 1.230010 + 0.257322I

a = −0.18469 + 1.76690I

b = 1.122190 − 0.745710I

1.24341 + 5.25068I 0

u = 1.230010 − 0.257322I

a = −0.18469 − 1.76690I

b = 1.122190 + 0.745710I

1.24341 − 5.25068I 0

u = −0.714203

a = −0.630403

b = −0.398199

1.03446 10.5160

u = −0.501535 + 1.223320I

a = −0.021136 − 0.607600I

b = −0.613344 + 0.675383I

5.49142 − 0.54714I 0

u = −0.501535 − 1.223320I

a = −0.021136 + 0.607600I

b = −0.613344 − 0.675383I

5.49142 + 0.54714I 0

u = −0.391187 + 1.267150I

a = 0.044961 + 0.643911I

b = 0.598753 − 0.683955I

5.05098 − 6.49860I 0

u = −0.391187 − 1.267150I

a = 0.044961 − 0.643911I

b = 0.598753 + 0.683955I

5.05098 + 6.49860I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.327230 + 0.025075I

a = −0.20990 − 1.43950I

b = 1.169970 + 0.711145I

8.34639 + 1.35481I 0

u = 1.327230 − 0.025075I

a = −0.20990 + 1.43950I

b = 1.169970 − 0.711145I

8.34639 − 1.35481I 0

u = 1.299360 + 0.322093I

a = 0.106462 + 0.307157I

b = 1.284080 − 0.060470I

4.83167 + 3.98855I 0

u = 1.299360 − 0.322093I

a = 0.106462 − 0.307157I

b = 1.284080 + 0.060470I

4.83167 − 3.98855I 0

u = −1.157470 + 0.677359I

a = −0.43424 + 1.62457I

b = −0.918558 − 0.625354I

2.25024 − 5.42318I 0

u = −1.157470 − 0.677359I

a = −0.43424 − 1.62457I

b = −0.918558 + 0.625354I

2.25024 + 5.42318I 0

u = −1.247090 + 0.519183I

a = 0.653265 − 0.592996I

b = −0.753696 + 0.620768I

2.75612 − 0.51612I 0

u = −1.247090 − 0.519183I

a = 0.653265 + 0.592996I

b = −0.753696 − 0.620768I

2.75612 + 0.51612I 0

u = 1.293830 + 0.393590I

a = −0.149281 − 0.351146I

b = −1.270650 + 0.063796I

4.02286 + 10.36490I 0

u = 1.293830 − 0.393590I

a = −0.149281 + 0.351146I

b = −1.270650 − 0.063796I

4.02286 − 10.36490I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.366010 + 0.033928I

a = 0.001319 − 0.235797I

b = −0.015035 − 0.391381I

6.33487 − 2.95650I 0

u = −1.366010 − 0.033928I

a = 0.001319 + 0.235797I

b = −0.015035 + 0.391381I

6.33487 + 2.95650I 0

u = −0.532280 + 0.337940I

a = 1.072810 + 0.907460I

b = 0.641319 + 0.116720I

−0.95235 − 1.78350I −2.07327 + 5.75596I

u = −0.532280 − 0.337940I

a = 1.072810 − 0.907460I

b = 0.641319 − 0.116720I

−0.95235 + 1.78350I −2.07327 − 5.75596I

u = 1.325390 + 0.351138I

a = −0.775024 − 1.068110I

b = 0.561537 + 0.938182I

3.49061 + 6.69572I 0

u = 1.325390 − 0.351138I

a = −0.775024 + 1.068110I

b = 0.561537 − 0.938182I

3.49061 − 6.69572I 0

u = 1.373980 + 0.047061I

a = 0.15734 − 1.49974I

b = −1.155940 + 0.715392I

9.36202 + 5.02654I 0

u = 1.373980 − 0.047061I

a = 0.15734 + 1.49974I

b = −1.155940 − 0.715392I

9.36202 − 5.02654I 0

u = 1.380450 + 0.205876I

a = 0.668151 + 1.119090I

b = −0.541182 − 0.958954I

7.11860 + 2.72109I 0

u = 1.380450 − 0.205876I

a = 0.668151 − 1.119090I

b = −0.541182 + 0.958954I

7.11860 − 2.72109I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.399670 + 0.162927I

a = −0.419135 + 1.168260I

b = 0.473091 − 0.966081I

10.46890 + 7.48108I 0

u = 1.399670 − 0.162927I

a = −0.419135 − 1.168260I

b = 0.473091 + 0.966081I

10.46890 − 7.48108I 0

u = −1.386420 + 0.266585I

a = −0.25593 − 1.81404I

b = 0.869849 + 0.621736I

3.35689 − 2.65952I 0

u = −1.386420 − 0.266585I

a = −0.25593 + 1.81404I

b = 0.869849 − 0.621736I

3.35689 + 2.65952I 0

u = 1.37389 + 0.33988I

a = 0.02125 − 1.72170I

b = −1.118940 + 0.720663I

5.34196 + 8.84585I 0

u = 1.37389 − 0.33988I

a = 0.02125 + 1.72170I

b = −1.118940 − 0.720663I

5.34196 − 8.84585I 0

u = −0.28820 + 1.38713I

a = −0.446882 + 0.904495I

b = −1.003300 − 0.636591I

4.34614 − 5.65703I 0

u = −0.28820 − 1.38713I

a = −0.446882 − 0.904495I

b = −1.003300 + 0.636591I

4.34614 + 5.65703I 0

u = 1.34330 + 0.47281I

a = 0.05769 + 1.81023I

b = 1.105550 − 0.715397I

1.81081 + 12.75050I 0

u = 1.34330 − 0.47281I

a = 0.05769 − 1.81023I

b = 1.105550 + 0.715397I

1.81081 − 12.75050I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.43078 + 0.09268I

a = 0.463511 − 1.152510I

b = −0.487227 + 0.966447I

11.40100 + 1.10913I 0

u = 1.43078 − 0.09268I

a = 0.463511 + 1.152510I

b = −0.487227 − 0.966447I

11.40100 − 1.10913I 0

u = −0.18781 + 1.43114I

a = 0.413662 − 0.884510I

b = 1.010510 + 0.637829I

3.84645 − 11.63360I 0

u = −0.18781 − 1.43114I

a = 0.413662 + 0.884510I

b = 1.010510 − 0.637829I

3.84645 + 11.63360I 0

u = −1.44555 + 0.08629I

a = −0.74940 + 1.33777I

b = 0.823412 − 0.622826I

3.50118 + 2.22683I 0

u = −1.44555 − 0.08629I

a = −0.74940 − 1.33777I

b = 0.823412 + 0.622826I

3.50118 − 2.22683I 0

u = 0.190949 + 0.516496I

a = 0.0145879 − 0.0144478I

b = 1.031680 + 0.541785I

−2.05610 − 2.20533I −3.33452 − 0.09970I

u = 0.190949 − 0.516496I

a = 0.0145879 + 0.0144478I

b = 1.031680 − 0.541785I

−2.05610 + 2.20533I −3.33452 + 0.09970I

u = 0.345318 + 0.335466I

a = 0.12836 + 1.71447I

b = 1.029410 − 0.244500I

−1.96391 + 1.11544I −1.55787 − 1.47213I

u = 0.345318 − 0.335466I

a = 0.12836 − 1.71447I

b = 1.029410 + 0.244500I

−1.96391 − 1.11544I −1.55787 + 1.47213I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.370544 + 0.231620I

a = 0.30459 + 1.57062I

b = 0.178701 − 0.619565I

0.02077 + 2.00050I −0.12885 − 4.33329I

u = 0.370544 − 0.231620I

a = 0.30459 − 1.57062I

b = 0.178701 + 0.619565I

0.02077 − 2.00050I −0.12885 + 4.33329I

u = 1.51573 + 0.42036I

a = 0.698231 + 0.961625I

b = −0.536978 − 0.923935I

11.80750 + 6.14222I 0

u = 1.51573 − 0.42036I

a = 0.698231 − 0.961625I

b = −0.536978 + 0.923935I

11.80750 − 6.14222I 0

u = 1.50371 + 0.47064I

a = −0.717795 − 0.941657I

b = 0.538804 + 0.918861I

10.9616 + 12.4442I 0

u = 1.50371 − 0.47064I

a = −0.717795 + 0.941657I

b = 0.538804 − 0.918861I

10.9616 − 12.4442I 0

u = −0.422179 + 0.033106I

a = −4.10481 − 1.84710I

b = −0.946056 + 0.550739I

3.70136 + 4.72366I 5.70262 − 6.08247I

u = −0.422179 − 0.033106I

a = −4.10481 + 1.84710I

b = −0.946056 − 0.550739I

3.70136 − 4.72366I 5.70262 + 6.08247I

u = 1.51283 + 0.51617I

a = −0.14872 − 1.71406I

b = −1.112300 + 0.702932I

10.0427 + 12.1163I 0

u = 1.51283 − 0.51617I

a = −0.14872 + 1.71406I

b = −1.112300 − 0.702932I

10.0427 − 12.1163I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.50426 + 0.56043I

a = 0.17208 + 1.73252I

b = 1.109870 − 0.701364I

9.2104 + 18.3996I 0

u = 1.50426 − 0.56043I

a = 0.17208 − 1.73252I

b = 1.109870 + 0.701364I

9.2104 − 18.3996I 0

u = −0.275966 + 0.081922I

a = 5.36153 + 2.17952I

b = 0.942019 − 0.553208I

3.44019 − 0.96910I 4.29951 − 0.42121I

u = −0.275966 − 0.081922I

a = 5.36153 − 2.17952I

b = 0.942019 + 0.553208I

3.44019 + 0.96910I 4.29951 + 0.42121I

u = −0.258260 + 0.055783I

a = 2.30549 − 2.00942I

b = 0.703307 − 0.430355I

−0.81820 + 1.73592I −0.97741 − 5.34079I

u = −0.258260 − 0.055783I

a = 2.30549 + 2.00942I

b = 0.703307 + 0.430355I

−0.81820 − 1.73592I −0.97741 + 5.34079I

u = −1.67498 + 0.83826I

a = −0.128673 + 1.344690I

b = −0.905498 − 0.666581I

8.57816 − 8.03076I 0

u = −1.67498 − 0.83826I

a = −0.128673 − 1.344690I

b = −0.905498 + 0.666581I

8.57816 + 8.03076I 0

u = −1.78021 + 0.60840I

a = 0.370721 − 0.903073I

b = −0.781342 + 0.678105I

8.95454 − 2.83317I 0

u = −1.78021 − 0.60840I

a = 0.370721 + 0.903073I

b = −0.781342 − 0.678105I

8.95454 + 2.83317I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.72719 + 0.74945I

a = 0.080288 − 1.352320I

b = 0.898221 + 0.667170I

8.74433 − 1.97763I 0

u = −1.72719 − 0.74945I

a = 0.080288 + 1.352320I

b = 0.898221 − 0.667170I

8.74433 + 1.97763I 0

u = −1.82306 + 0.51731I

a = −0.372352 + 0.949139I

b = 0.790607 − 0.677284I

9.07102 + 3.21849I 0

u = −1.82306 − 0.51731I

a = −0.372352 − 0.949139I

b = 0.790607 + 0.677284I

9.07102 − 3.21849I 0

II.

= h25a

− 5a

+ 2a

+ 4b + 11a + 3, 25a

− 5a

+ 2a

+ 6a

+ 5a − 1, u + 1i

(i) Arc colorings







−1





−1





−

+ ··· −

a −





−1





−

+ ··· −

a −

−

+ ··· −

a −





−

125

− 3a −

+ ··· +

a +





−

+ ··· +

a −

−

+ ··· +

a −





−

a +

−

a −





−

+ ··· −

a −





−

+ ··· −

a −

+ ··· +

a +





−

a −

−

+ ··· +

a −



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

525

105

−

139

a −

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 5u

+ 8u

− 3u

− u − 1

+ u

− 2u

− u

+ u − 1

+ u

+ 2u

+ u

+ u + 1

− u

− 2u

+ u

+ u + 1

(u + 1)

25(25u

− 3u

+ 2u

− 2u + 1)

25(25u

− 25u

− 17u

+ 10u

+ 7u + 1)

(u − 1)

− 3u

+ 4u

− u

− u + 1

− u

+ 2u

− u

+ u − 1

+ 3u

+ 4u

+ u

− u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 9y

+ 32y

− 35y

− 5y −1

, c

− 5y

+ 8y

− 3y

− y −1

, c

+ 3y

+ 4y

+ y

− y −1

, c

(y −1)

625(625y

− 150y

− 91y

+ 8y

− 1)

625(625y

− 1475y

+ 1139y

− 288y

+ 29y −1)

, c

− y

+ 8y

− 3y

+ 3y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.00000

a = 0.495386 + 0.635674I

b = −0.309916 − 0.549911I

1.31583 − 1.53058I 4.90490 + 5.44833I

u = −1.00000

a = 0.495386 − 0.635674I

b = −0.309916 + 0.549911I

1.31583 + 1.53058I 4.90490 − 5.44833I

u = −1.00000

a = −0.478118 + 0.378961I

b = 1.41878 − 0.21917I

−4.22763 + 4.40083I 1.0936 + 16.2687I

u = −1.00000

a = −0.478118 − 0.378961I

b = 1.41878 + 0.21917I

−4.22763 − 4.40083I 1.0936 − 16.2687I

u = −1.00000

a = 0.165464

b = −1.21774

−0.756147 −0.0769970

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 5u

+ 8u

− 3u

− u − 1)(u

104

+ 42u

103

+ ··· + 5u + 1)

+ u

− 2u

− u

+ u − 1)(u

104

+ 2u

103

+ ··· + u − 1)

104

+ u

103

+ ··· + 128000u + 20000)

+ u

+ 2u

+ u

+ u + 1)(u

104

− 2u

103

+ ··· + 3u − 1)

− u

− 2u

+ u

+ u + 1)(u

104

+ 2u

103

+ ··· + u − 1)

((u + 1)

)(u

104

+ 6u

103

+ ··· + 8175u − 625)

625(25u

− 3u

+ 2u

− 2u + 1)

· (25u

104

+ 125u

103

+ ··· − 50435872u − 175922653)

625(25u

− 25u

− 17u

+ 10u

+ 7u + 1)

· (25u

104

+ 50u

103

+ ··· + 4032879u + 1554593)

((u − 1)

)(u

104

+ 6u

103

+ ··· + 8175u − 625)

− 3u

+ 4u

− u

− u + 1)(u

104

+ 30u

103

+ ··· − 5u + 1)

− u

+ 2u

− u

+ u − 1)(u

104

− 2u

103

+ ··· + 3u − 1)

+ 3u

+ 4u

+ u

− u − 1)(u

104

+ 30u

103

+ ··· − 5u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 9y

+ 32y

− 35y

− 5y −1)(y

104

+ 42y

103

+ ··· + 83y + 1)

, c

− 5y

+ 8y

− 3y

− y −1)(y

104

− 42y

103

+ ··· − 5y + 1)

104

− 33y

103

+ ··· − 1.62800 × 10

y + 4.00000 × 10

)

, c

+ 3y

+ 4y

+ y

− y −1)(y

104

+ 30y

103

+ ··· − 5y + 1)

, c

((y −1)

)(y

104

− 86y

103

+ ··· − 3.03944 × 10

y + 390625)

390625(625y

− 150y

− 91y

+ 8y

− 1)

· (625y

104

− 8.73 × 10

103

+ ··· − 7.64 × 10

y + 3.09 × 10

)

390625(625y

− 1475y

+ 1139y

− 288y

+ 29y −1)

· (625y

104

+ 16400y

103

+ ··· − 21479676158875y + 2416759395649)

, c

− y

+ 8y

− 3y

+ 3y −1)(y

104

+ 90y

103

+ ··· − 173y + 1)