12a

0336

(K12a

0336

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

6,10

3,11

2 1 5 8 9 12 4

, c

Ideals for irreducible components

of X

par

= h−7.41051 × 10

147

109

+ 3.15130 × 10

148

108

+ ··· + 1.10390 × 10

146

b − 1.00649 × 10

148

− 2.27130 × 10

149

109

+ 9.67001 × 10

149

108

+ ··· + 1.10390 × 10

146

a − 3.03972 × 10

149

110

− 5u

109

+ ··· + 21u − 1i

= ha

− 4a

+ 15b − 5a + 9, a

− 2a

− 3a

+ 4a + 13, u − 1i

* 2 irreducible components of dim

= 0, with total 114 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−7.41 × 10

147

109

+ 3.15 × 10

148

108

+ · · · + 1.10 × 10

146

b − 1.01 ×

148

, −2.27 × 10

149

109

+ 9.67 × 10

149

108

+ · · · + 1.10 × 10

146

a − 3.04 ×

149

, u

110

− 5u

109

+ · · · + 21u − 1i

(i) Arc colorings















2057.53u

109

− 8759.90u

108

+ ··· − 54177.9u + 2753.63

67.1306u

109

− 285.471u

108

+ ··· − 1791.59u + 91.1766





−u

+ u





2124.67u

109

− 9045.37u

108

+ ··· − 55969.5u + 2844.81

67.1306u

109

− 285.471u

108

+ ··· − 1791.59u + 91.1766





2965.90u

109

− 12627.4u

108

+ ··· − 78707.9u + 4024.00

−70.4088u

109

+ 299.167u

108

+ ··· + 1873.07u − 97.4129





−810.769u

109

+ 3459.40u

108

+ ··· + 22092.2u − 1136.72

−115.246u

109

+ 490.899u

108

+ ··· + 3011.85u − 152.033





15726.1u

109

− 66994.2u

108

+ ··· − 418011.u + 21301.1

1274.16u

109

− 5422.15u

108

+ ··· − 33586.8u + 1705.78





− u

+ u





−u

− u

−u

+ u

− 2u

+ u





−675.156u

109

+ 2881.24u

108

+ ··· + 18481.2u − 952.732

−118.945u

109

+ 506.489u

108

+ ··· + 3109.35u − 157.208



(ii) Obstruction class = −1

(iii) Cusp Shapes = −1639.99u

109

+ 6951.33u

108

+ ··· + 42540.4u − 2173.88

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

110

+ 41u

109

+ ··· + 233u + 4

, c

110

+ 7u

109

+ ··· + 27u + 2

110

+ u

109

+ ··· + 17u − 1

, c

110

+ 7u

109

+ ··· + 27u + 1

, c

110

+ 5u

109

+ ··· − 21u − 1

110

+ 25u

109

+ ··· + 376147u − 1476493

110

+ 5u

109

+ ··· − 101u + 41

, c

110

+ 35u

109

+ ··· + 127u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

110

+ 59y

109

+ ··· − 9873y + 16

, c

110

− 41y

109

+ ··· − 233y + 4

110

− 3y

109

+ ··· − 79y + 1

, c

110

+ 65y

109

+ ··· − 175y + 1

, c

110

− 35y

109

+ ··· − 127y + 1

110

− 145y

109

+ ··· + 12275866812167y + 2180031579049

110

+ 155y

109

+ ··· + 197587y + 1681

, c

110

+ 85y

109

+ ··· − 2511y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.990959 + 0.098136I

a = 1.275900 − 0.543178I

b = 0.892858 − 0.506092I

−1.69575 + 2.02020I 0

u = 0.990959 − 0.098136I

a = 1.275900 + 0.543178I

b = 0.892858 + 0.506092I

−1.69575 − 2.02020I 0

u = 0.996189 + 0.199368I

a = −0.337539 + 1.135930I

b = −0.212986 − 0.116839I

−3.59787 − 0.10583I 0

u = 0.996189 − 0.199368I

a = −0.337539 − 1.135930I

b = −0.212986 + 0.116839I

−3.59787 + 0.10583I 0

u = −0.774665 + 0.664449I

a = −1.25947 − 0.88402I

b = −0.926563 − 0.223291I

−0.205553 − 0.307982I 0

u = −0.774665 − 0.664449I

a = −1.25947 + 0.88402I

b = −0.926563 + 0.223291I

−0.205553 + 0.307982I 0

u = −0.993094 + 0.295258I

a = 1.55343 + 1.20146I

b = 1.079160 − 0.620858I

−0.75551 + 7.78682I 0

u = −0.993094 − 0.295258I

a = 1.55343 − 1.20146I

b = 1.079160 + 0.620858I

−0.75551 − 7.78682I 0

u = 0.697332 + 0.792742I

a = −0.246586 − 0.264787I

b = 1.220130 − 0.142302I

−2.44609 + 5.13634I 0

u = 0.697332 − 0.792742I

a = −0.246586 + 0.264787I

b = 1.220130 + 0.142302I

−2.44609 − 5.13634I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.062770 + 0.148015I

a = 1.58044 + 0.11499I

b = 1.175380 + 0.017061I

−8.83330 + 5.21023I 0

u = −1.062770 − 0.148015I

a = 1.58044 − 0.11499I

b = 1.175380 − 0.017061I

−8.83330 − 5.21023I 0

u = −0.843116 + 0.333311I

a = −0.284924 + 0.220862I

b = 0.392082 + 0.747113I

1.15133 + 2.61903I 0

u = −0.843116 − 0.333311I

a = −0.284924 − 0.220862I

b = 0.392082 − 0.747113I

1.15133 − 2.61903I 0

u = −0.622477 + 0.901671I

a = −0.341590 − 1.224490I

b = 0.916045 + 0.686391I

4.73684 − 3.99325I 0

u = −0.622477 − 0.901671I

a = −0.341590 + 1.224490I

b = 0.916045 − 0.686391I

4.73684 + 3.99325I 0

u = −0.902097

a = −1.76787

b = −1.24916

−4.50976 0

u = 0.835064 + 0.721373I

a = 1.47161 − 1.06013I

b = −1.002620 + 0.908716I

0.330530 + 0.796888I 0

u = 0.835064 − 0.721373I

a = 1.47161 + 1.06013I

b = −1.002620 − 0.908716I

0.330530 − 0.796888I 0

u = 0.867770 + 0.692580I

a = 0.634138 + 0.236501I

b = −1.313380 + 0.439862I

−0.77993 − 1.27179I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.867770 − 0.692580I

a = 0.634138 − 0.236501I

b = −1.313380 − 0.439862I

−0.77993 + 1.27179I 0

u = −0.878182 + 0.681537I

a = 0.533325 + 0.497799I

b = 0.686950 + 0.106206I

2.03663 + 2.63082I 0

u = −0.878182 − 0.681537I

a = 0.533325 − 0.497799I

b = 0.686950 − 0.106206I

2.03663 − 2.63082I 0

u = 0.813749 + 0.768223I

a = 0.99853 − 1.18681I

b = −0.290691 + 1.035300I

3.09414 + 1.62165I 0

u = 0.813749 − 0.768223I

a = 0.99853 + 1.18681I

b = −0.290691 − 1.035300I

3.09414 − 1.62165I 0

u = 0.081059 + 0.876379I

a = 0.42575 + 1.39611I

b = −1.013040 − 0.658910I

−0.50846 − 8.74088I 0

u = 0.081059 − 0.876379I

a = 0.42575 − 1.39611I

b = −1.013040 + 0.658910I

−0.50846 + 8.74088I 0

u = 0.885644 + 0.691977I

a = −0.05764 + 1.73251I

b = −1.333450 − 0.331323I

−0.83704 − 4.05265I 0

u = 0.885644 − 0.691977I

a = −0.05764 − 1.73251I

b = −1.333450 + 0.331323I

−0.83704 + 4.05265I 0

u = −1.092140 + 0.284265I

a = 0.240713 − 0.003212I

b = −0.495383 − 0.799993I

−3.02604 + 7.06344I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.092140 − 0.284265I

a = 0.240713 + 0.003212I

b = −0.495383 + 0.799993I

−3.02604 − 7.06344I 0

u = −0.867655 + 0.040937I

a = −1.51760 − 0.61667I

b = −1.151050 + 0.669665I

−4.17559 + 2.45296I 0

u = −0.867655 − 0.040937I

a = −1.51760 + 0.61667I

b = −1.151050 − 0.669665I

−4.17559 − 2.45296I 0

u = −0.828091 + 0.780039I

a = −0.185197 + 0.072379I

b = 0.117195 + 0.402603I

2.64336 + 1.65504I 0

u = −0.828091 − 0.780039I

a = −0.185197 − 0.072379I

b = 0.117195 − 0.402603I

2.64336 − 1.65504I 0

u = −0.697509 + 0.900889I

a = −0.369911 + 1.319140I

b = 0.772510 − 0.700845I

5.16781 + 1.33455I 0

u = −0.697509 − 0.900889I

a = −0.369911 − 1.319140I

b = 0.772510 + 0.700845I

5.16781 − 1.33455I 0

u = −0.872826 + 0.738046I

a = 1.13776 − 5.90790I

b = 0.894681 + 0.537347I

1.29270 + 0.75901I 0

u = −0.872826 − 0.738046I

a = 1.13776 + 5.90790I

b = 0.894681 − 0.537347I

1.29270 − 0.75901I 0

u = −0.877187 + 0.735804I

a = 4.12267 + 5.29001I

b = 0.910898 − 0.520689I

1.27829 + 4.84714I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.877187 − 0.735804I

a = 4.12267 − 5.29001I

b = 0.910898 + 0.520689I

1.27829 − 4.84714I 0

u = 0.770569 + 0.856471I

a = −0.75952 + 1.22815I

b = 1.094710 − 0.747854I

6.67136 + 6.50363I 0

u = 0.770569 − 0.856471I

a = −0.75952 − 1.22815I

b = 1.094710 + 0.747854I

6.67136 − 6.50363I 0

u = 0.736971 + 0.887786I

a = 0.40009 + 1.53796I

b = −0.588057 − 0.913960I

4.79934 + 6.61268I 0

u = 0.736971 − 0.887786I

a = 0.40009 − 1.53796I

b = −0.588057 + 0.913960I

4.79934 − 6.61268I 0

u = 0.712081 + 0.909440I

a = 0.55860 − 1.38226I

b = −1.089970 + 0.717795I

3.25044 + 12.62120I 0

u = 0.712081 − 0.909440I

a = 0.55860 + 1.38226I

b = −1.089970 − 0.717795I

3.25044 − 12.62120I 0

u = −0.831776 + 0.144488I

a = −0.239608 − 0.113887I

b = −0.614202 + 0.872721I

−2.44902 + 3.63797I 0

u = −0.831776 − 0.144488I

a = −0.239608 + 0.113887I

b = −0.614202 − 0.872721I

−2.44902 − 3.63797I 0

u = 1.051500 + 0.482675I

a = 0.79964 − 1.65316I

b = 1.009650 + 0.153910I

−6.86902 − 1.41545I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.051500 − 0.482675I

a = 0.79964 + 1.65316I

b = 1.009650 − 0.153910I

−6.86902 + 1.41545I 0

u = 0.908591 + 0.716880I

a = −0.12317 + 2.53742I

b = −1.074790 − 0.887097I

0.10246 − 6.29605I 0

u = 0.908591 − 0.716880I

a = −0.12317 − 2.53742I

b = −1.074790 + 0.887097I

0.10246 + 6.29605I 0

u = 0.809732 + 0.833377I

a = −0.19331 − 1.71805I

b = 0.614409 + 0.971864I

8.17677 + 0.24318I 0

u = 0.809732 − 0.833377I

a = −0.19331 + 1.71805I

b = 0.614409 − 0.971864I

8.17677 − 0.24318I 0

u = −0.960649 + 0.654756I

a = −1.130610 − 0.112359I

b = −0.894555 + 0.088679I

−0.80311 + 5.44115I 0

u = −0.960649 − 0.654756I

a = −1.130610 + 0.112359I

b = −0.894555 − 0.088679I

−0.80311 − 5.44115I 0

u = 0.778635 + 0.277338I

a = −1.33414 + 2.80799I

b = −0.942986 − 0.438315I

−1.96405 − 2.91621I 0

u = 0.778635 − 0.277338I

a = −1.33414 − 2.80799I

b = −0.942986 + 0.438315I

−1.96405 + 2.91621I 0

u = −1.152970 + 0.265802I

a = −1.30202 − 1.16410I

b = −1.075150 + 0.649293I

−4.73120 + 12.50000I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.152970 − 0.265802I

a = −1.30202 + 1.16410I

b = −1.075150 − 0.649293I

−4.73120 − 12.50000I 0

u = 0.007248 + 0.810052I

a = 0.37732 − 1.38238I

b = −0.618881 + 0.726901I

0.65865 − 3.42633I 0

u = 0.007248 − 0.810052I

a = 0.37732 + 1.38238I

b = −0.618881 − 0.726901I

0.65865 + 3.42633I 0

u = 0.931716 + 0.744804I

a = −0.48784 + 1.54283I

b = −0.365752 − 1.068560I

2.73350 − 7.34740I 0

u = 0.931716 − 0.744804I

a = −0.48784 − 1.54283I

b = −0.365752 + 1.068560I

2.73350 + 7.34740I 0

u = −0.800702 + 0.893151I

a = 0.66551 + 1.27924I

b = −0.866053 − 0.674686I

5.61155 + 0.14050I 0

u = −0.800702 − 0.893151I

a = 0.66551 − 1.27924I

b = −0.866053 + 0.674686I

5.61155 − 0.14050I 0

u = −0.927118 + 0.763957I

a = 0.1000390 + 0.0172765I

b = 0.221052 − 0.379085I

2.34244 + 4.16755I 0

u = −0.927118 − 0.763957I

a = 0.1000390 − 0.0172765I

b = 0.221052 + 0.379085I

2.34244 − 4.16755I 0

u = 1.182250 + 0.265329I

a = −0.845000 + 0.942118I

b = −0.675555 − 0.540568I

−3.25800 − 0.36532I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.182250 − 0.265329I

a = −0.845000 − 0.942118I

b = −0.675555 + 0.540568I

−3.25800 + 0.36532I 0

u = 1.001380 + 0.722993I

a = 0.317622 − 1.284450I

b = 1.267730 + 0.111185I

−3.35621 − 10.85530I 0

u = 1.001380 − 0.722993I

a = 0.317622 + 1.284450I

b = 1.267730 − 0.111185I

−3.35621 + 10.85530I 0

u = 0.958427 + 0.782280I

a = −1.31241 + 0.78086I

b = 0.571194 − 1.000510I

7.71445 − 6.27796I 0

u = 0.958427 − 0.782280I

a = −1.31241 − 0.78086I

b = 0.571194 + 1.000510I

7.71445 + 6.27796I 0

u = 1.238090 + 0.023214I

a = 0.836611 + 0.344859I

b = 0.847431 − 0.588895I

−2.03804 + 2.33452I 0

u = 1.238090 − 0.023214I

a = 0.836611 − 0.344859I

b = 0.847431 + 0.588895I

−2.03804 − 2.33452I 0

u = −0.858642 + 0.897188I

a = 0.34642 − 1.72422I

b = −0.834452 + 0.677799I

5.70786 + 5.35963I 0

u = −0.858642 − 0.897188I

a = 0.34642 + 1.72422I

b = −0.834452 − 0.677799I

5.70786 − 5.35963I 0

u = 0.743069 + 0.001373I

a = −15.7688 + 14.3067I

b = 0.853529 + 0.493943I

−2.73468 − 2.03121I −155.856 − 14.904I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.743069 − 0.001373I

a = −15.7688 − 14.3067I

b = 0.853529 − 0.493943I

−2.73468 + 2.03121I −155.856 + 14.904I

u = 1.204310 + 0.367220I

a = −0.293140 − 0.037779I

b = −0.979382 + 0.596671I

−4.22594 + 4.29044I 0

u = 1.204310 − 0.367220I

a = −0.293140 + 0.037779I

b = −0.979382 − 0.596671I

−4.22594 − 4.29044I 0

u = 0.991910 + 0.777202I

a = 0.45402 − 2.37267I

b = 1.124230 + 0.740932I

5.98378 − 12.58750I 0

u = 0.991910 − 0.777202I

a = 0.45402 + 2.37267I

b = 1.124230 − 0.740932I

5.98378 + 12.58750I 0

u = −0.945626 + 0.842407I

a = 1.095890 + 0.776380I

b = −0.783570 − 0.663137I

5.42222 + 1.04774I 0

u = −0.945626 − 0.842407I

a = 1.095890 − 0.776380I

b = −0.783570 + 0.663137I

5.42222 − 1.04774I 0

u = −0.982963 + 0.809149I

a = −0.26329 − 2.24551I

b = −0.909073 + 0.649568I

5.03632 + 6.14721I 0

u = −0.982963 − 0.809149I

a = −0.26329 + 2.24551I

b = −0.909073 − 0.649568I

5.03632 − 6.14721I 0

u = 0.270523 + 0.671458I

a = −0.265968 + 0.602362I

b = 1.011230 + 0.007454I

−4.61086 − 2.90503I −12.49793 + 3.69733I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.270523 − 0.671458I

a = −0.265968 − 0.602362I

b = 1.011230 − 0.007454I

−4.61086 + 2.90503I −12.49793 − 3.69733I

u = 1.022780 + 0.776946I

a = 1.29581 − 0.59941I

b = −0.561805 + 0.937083I

3.90906 − 12.78220I 0

u = 1.022780 − 0.776946I

a = 1.29581 + 0.59941I

b = −0.561805 − 0.937083I

3.90906 + 12.78220I 0

u = 1.043820 + 0.774874I

a = −0.61529 + 2.37605I

b = −1.109610 − 0.715503I

2.2152 − 18.8423I 0

u = 1.043820 − 0.774874I

a = −0.61529 − 2.37605I

b = −1.109610 + 0.715503I

2.2152 + 18.8423I 0

u = −1.047620 + 0.776065I

a = −0.853316 − 0.334340I

b = 0.704704 + 0.687845I

4.09281 + 4.86690I 0

u = −1.047620 − 0.776065I

a = −0.853316 + 0.334340I

b = 0.704704 − 0.687845I

4.09281 − 4.86690I 0

u = −0.100887 + 0.688381I

a = −0.590605 − 1.104800I

b = 0.974180 + 0.650665I

2.13203 − 4.43463I −2.57446 + 3.83971I

u = −0.100887 − 0.688381I

a = −0.590605 + 1.104800I

b = 0.974180 − 0.650665I

2.13203 + 4.43463I −2.57446 − 3.83971I

u = −1.084390 + 0.743508I

a = 0.73136 + 1.93639I

b = 0.960216 − 0.661111I

3.32750 + 10.08480I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.084390 − 0.743508I

a = 0.73136 − 1.93639I

b = 0.960216 + 0.661111I

3.32750 − 10.08480I 0

u = −0.256784 + 0.629269I

a = −0.044618 + 1.366300I

b = 0.682292 − 0.695782I

3.00663 + 0.76455I −0.54792 − 2.58754I

u = −0.256784 − 0.629269I

a = −0.044618 − 1.366300I

b = 0.682292 + 0.695782I

3.00663 − 0.76455I −0.54792 + 2.58754I

u = 0.641311

a = 0.790484

b = −0.183300

−0.880286 −11.3800

u = 0.448085 + 0.335521I

a = 1.45691 − 0.25060I

b = −0.806520 + 0.211746I

−1.146060 + 0.195025I −7.25511 + 1.21678I

u = 0.448085 − 0.335521I

a = 1.45691 + 0.25060I

b = −0.806520 − 0.211746I

−1.146060 − 0.195025I −7.25511 − 1.21678I

u = −0.098547 + 0.384410I

a = 1.36102 − 0.55314I

b = −0.325264 − 0.515852I

−0.53012 − 1.77215I −3.82058 + 3.25832I

u = −0.098547 − 0.384410I

a = 1.36102 + 0.55314I

b = −0.325264 + 0.515852I

−0.53012 + 1.77215I −3.82058 − 3.25832I

u = 0.1093310 + 0.0382620I

a = 8.24072 + 6.41030I

b = −0.923434 − 0.544845I

−1.80988 − 2.06434I −8.30188 + 2.61051I

u = 0.1093310 − 0.0382620I

a = 8.24072 − 6.41030I

b = −0.923434 + 0.544845I

−1.80988 + 2.06434I −8.30188 − 2.61051I

II. I

= ha

− 4a

+ 15b − 5a + 9, a

− 2a

− 3a

+ 4a + 13, u − 1i

(i) Arc colorings















−

a −





−1





−

a −

−

a −





−

a +

−

a +





−

a −

−





−

+ 2a +

−

a +









−2

−1





−

+ a +

−

a +



(ii) Obstruction class = 1

(iii) Cusp Shapes =

−

208

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− u + 1)

, c

− u

+ 1

, c

+ 1)

, c

(u − 1)

− 2u

+ 5u

− 4u + 1

+ 4u

+ 5u

+ 2u + 1

, c

(u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ y + 1)

, c

− y + 1)

, c

(y + 1)

, c

(y −1)

+ 6y

+ 11y

− 6y + 1

− 6y

+ 11y

+ 6y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = −1.23205 + 0.86603I

b = −0.866025 − 0.500000I

−3.28987 − 2.02988I −14.0000 + 3.4641I

u = 1.00000

a = −1.23205 − 0.86603I

b = −0.866025 + 0.500000I

−3.28987 + 2.02988I −14.0000 − 3.4641I

u = 1.00000

a = 2.23205 + 0.86603I

b = 0.866025 + 0.500000I

−3.28987 − 2.02988I −14.0000 + 3.4641I

u = 1.00000

a = 2.23205 − 0.86603I

b = 0.866025 − 0.500000I

−3.28987 + 2.02988I −14.0000 − 3.4641I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

110

+ 41u

109

+ ··· + 233u + 4)

, c

− u

+ 1)(u

110

+ 7u

109

+ ··· + 27u + 2)

((u

+ 1)

)(u

110

+ u

109

+ ··· + 17u − 1)

, c

((u

+ 1)

)(u

110

+ 7u

109

+ ··· + 27u + 1)

((u − 1)

)(u

110

+ 5u

109

+ ··· − 21u − 1)

− 2u

+ 5u

− 4u + 1)(u

110

+ 25u

109

+ ··· + 376147u − 1476493)

+ 4u

+ 5u

+ 2u + 1)(u

110

+ 5u

109

+ ··· − 101u + 41)

((u − 1)

)(u

110

+ 35u

109

+ ··· + 127u + 1)

((u + 1)

)(u

110

+ 5u

109

+ ··· − 21u − 1)

((u + 1)

)(u

110

+ 35u

109

+ ··· + 127u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

110

+ 59y

109

+ ··· − 9873y + 16)

, c

((y

− y + 1)

)(y

110

− 41y

109

+ ··· − 233y + 4)

((y + 1)

)(y

110

− 3y

109

+ ··· − 79y + 1)

, c

((y + 1)

)(y

110

+ 65y

109

+ ··· − 175y + 1)

, c

((y −1)

)(y

110

− 35y

109

+ ··· − 127y + 1)

+ 6y

+ 11y

− 6y + 1)

· (y

110

− 145y

109

+ ··· + 12275866812167y + 2180031579049)

− 6y

+ 11y

+ 6y + 1)(y

110

+ 155y

109

+ ··· + 197587y + 1681)

, c

((y −1)

)(y

110

+ 85y

109

+ ··· − 2511y + 1)