12n

0299

(K12n

0299

)

A knot diagram

Linearized knot diagam

3 6 7 10 12 2 10 1 5 1 6 9

Solving Sequence

3,6

2 7

4,10

8 1 11 12 5 9

, c

Ideals for irreducible components

of X

par

= h−5u

− 22u

+ ··· + 2b + 4, −u

− u

+ ··· + 2a − 5, u

+ 6u

+ ··· − 10u − 4i

= h−123u

+ 644u

+ ··· − 2637a − 1781, −u

− u

+ ··· + 4a − 1,

− u

+ 3u

− 2u

+ 3u

− 2u

− 1i

= hu

− u

+ ··· + b + 1,

+ 5u

+ u

+ 12u

+ 3u

+ 15u

+ 4u

+ 8u

− 3u

− 4u

− 5u

− 4u

− u

+ u

+ a − u − 1,

− u

+ ··· + u − 1i

* 3 irreducible components of dim

= 0, with total 80 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−5u

−22u

+· · ·+2b+4, −u

−u

+· · ·+2a−5, u

+6u

+· · ·−10u−4i

(i) Arc colorings















+ u





+ u

+ 1

+ 2u

+ u





+ ··· + 2u +

+ 11u

+ ··· −

u − 2





−

− 5u

+ ··· +

u + 18

+ 6u

+ ··· −

u + 3





+ 1





−u

−

+ ··· +

u +

+ 15u

+ ··· −

u − 2





−u

−

+ ··· +

u +

−

− 8u

+ ··· −

u + 4





−

− 4u

+ ··· +

u + 3

−

− 3u

+ ··· +

u + 3





−

− u

+ ··· +

u + 1

−

− 11u

+ ··· +

u + 3



(ii) Obstruction class = −1

(iii) Cusp Shapes

= u

+ 6u

+ 26u

+ 78u

+ 195u

+ 404u

+ 742u

+ 1212u

+ 1814u

+ 2496u

3192u

+ 3810u

+ 4264u

+ 4505u

+ 4511u

+ 4302u

+ 3916u

+ 3391u

2793u

+ 2164u

+ 1573u

+ 1049u

+ 629u

+ 320u

+ 122u

+ 16u

−19u

−14u −10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 16u

+ ··· + 108u − 16

, c

− 6u

+ ··· − 10u + 4

+ 6u

+ ··· + 102u + 52

, c

+ 7u

+ ··· + 2u + 1

, c

− 3u

+ ··· − 21u + 1

, c

+ 19u

+ ··· + 2304u + 256

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 4y

+ ··· + 28400y −256

, c

+ 16y

+ ··· + 108y −16

− 24y

+ ··· + 12588y −2704

, c

+ 14y

+ ··· − 10y −1

, c

− 49y

+ ··· + 83y −1

, c

+ 9y

+ ··· + 131072y −65536

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.529936 + 0.817458I

a = 0.234233 + 0.574816I

b = 0.345760 − 0.496091I

−1.24507 + 2.13242I −1.54126 − 5.97211I

u = 0.529936 − 0.817458I

a = 0.234233 − 0.574816I

b = 0.345760 + 0.496091I

−1.24507 − 2.13242I −1.54126 + 5.97211I

u = −0.333397 + 0.883512I

a = −0.369414 + 0.421127I

b = 0.248910 + 0.466784I

−0.53686 − 1.47819I −4.90590 + 3.46156I

u = −0.333397 − 0.883512I

a = −0.369414 − 0.421127I

b = 0.248910 − 0.466784I

−0.53686 + 1.47819I −4.90590 − 3.46156I

u = 0.230674 + 1.031600I

a = 0.622836 − 0.242190I

b = −0.393514 − 0.586648I

−3.27588 + 2.17781I −14.9005 − 2.5155I

u = 0.230674 − 1.031600I

a = 0.622836 + 0.242190I

b = −0.393514 + 0.586648I

−3.27588 − 2.17781I −14.9005 + 2.5155I

u = 0.752784 + 0.560145I

a = 0.141867 − 0.328248I

b = −0.290661 + 0.167634I

4.48557 − 3.54679I −5.06701 + 3.83669I

u = 0.752784 − 0.560145I

a = 0.141867 + 0.328248I

b = −0.290661 − 0.167634I

4.48557 + 3.54679I −5.06701 − 3.83669I

u = −0.929027 + 0.116767I

a = −2.22411 + 0.15082I

b = −2.04864 + 0.39982I

−2.62991 + 9.91881I −5.74423 − 5.24249I

u = −0.929027 − 0.116767I

a = −2.22411 − 0.15082I

b = −2.04864 − 0.39982I

−2.62991 − 9.91881I −5.74423 + 5.24249I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.755090 + 0.452937I

a = −0.606953 − 0.612743I

b = −0.735838 − 0.187764I

4.01496 − 0.67489I −6.09853 + 2.29351I

u = −0.755090 − 0.452937I

a = −0.606953 + 0.612743I

b = −0.735838 + 0.187764I

4.01496 + 0.67489I −6.09853 − 2.29351I

u = −0.864712 + 0.123739I

a = 2.27119 + 0.52125I

b = 2.02843 + 0.16969I

−4.98255 + 2.50011I −6.07998 − 2.74065I

u = −0.864712 − 0.123739I

a = 2.27119 − 0.52125I

b = 2.02843 − 0.16969I

−4.98255 − 2.50011I −6.07998 + 2.74065I

u = 0.018688 + 1.158270I

a = −0.390605 + 0.430620I

b = 0.506072 + 0.444376I

−1.41808 − 2.24811I −11.36469 + 3.43943I

u = 0.018688 − 1.158270I

a = −0.390605 − 0.430620I

b = 0.506072 − 0.444376I

−1.41808 + 2.24811I −11.36469 − 3.43943I

u = 0.643120 + 0.992128I

a = −0.240554 − 0.246860I

b = −0.090211 + 0.397421I

3.21603 + 8.80773I −6.26763 − 8.83895I

u = 0.643120 − 0.992128I

a = −0.240554 + 0.246860I

b = −0.090211 − 0.397421I

3.21603 − 8.80773I −6.26763 + 8.83895I

u = −0.593156 + 1.076560I

a = 0.559837 + 0.468168I

b = 0.836083 − 0.325004I

2.16507 − 4.43085I −9.17518 + 3.77414I

u = −0.593156 − 1.076560I

a = 0.559837 − 0.468168I

b = 0.836083 + 0.325004I

2.16507 + 4.43085I −9.17518 − 3.77414I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.396847 + 1.258520I

a = 0.13510 − 1.71384I

b = −2.10328 − 0.85015I

−9.21490 − 1.83630I −10.54114 + 0.46853I

u = −0.396847 − 1.258520I

a = 0.13510 + 1.71384I

b = −2.10328 + 0.85015I

−9.21490 + 1.83630I −10.54114 − 0.46853I

u = −0.525425 + 1.223980I

a = −0.68573 − 1.73877I

b = −2.48851 − 0.07427I

−8.26868 − 7.55554I −8.73863 + 5.55556I

u = −0.525425 − 1.223980I

a = −0.68573 + 1.73877I

b = −2.48851 + 0.07427I

−8.26868 + 7.55554I −8.73863 − 5.55556I

u = −0.398180 + 1.298960I

a = 0.28856 + 1.51336I

b = 2.08069 + 0.22776I

−7.09003 + 5.31029I −9.76890 − 2.61442I

u = −0.398180 − 1.298960I

a = 0.28856 − 1.51336I

b = 2.08069 − 0.22776I

−7.09003 − 5.31029I −9.76890 + 2.61442I

u = −0.533945 + 1.252430I

a = 0.25821 + 1.84759I

b = 2.45185 + 0.66312I

−6.0854 − 15.1894I −8.50713 + 8.09278I

u = −0.533945 − 1.252430I

a = 0.25821 − 1.84759I

b = 2.45185 − 0.66312I

−6.0854 + 15.1894I −8.50713 − 8.09278I

u = 0.309156

a = −0.988933

b = 0.305734

−0.776150 −12.5990

II. I

= h−123u

+ 644u

+ · · · − 2637a − 1781, −u

− u

+ · · · +

4a − 1, u

− u

+ 3u

− 2u

+ 3u

− 2u

− 1i

(i) Arc colorings















+ u





+ u

+ 1

+ 2u

+ u





0.0617160a

− 0.323131a

+ ··· + 1.32313a + 0.893628





−0.205218a

+ 0.497240a

+ ··· + 0.502760a − 2.00401

0.0145509a

+ 0.517311a

+ ··· − 1.51731a − 1.06573





+ 1





0.202208a

− 0.0180632a

+ ··· + 0.0180632a − 0.844456

0.255896a

− 0.730055a

+ ··· + 1.73006a + 0.119920





0.202208a

− 0.0180632a

+ ··· + 0.0180632a − 0.844456

0.0842950a

− 0.416959a

+ ··· + 1.41696a − 1.24285





−0.0496739a

+ 0.406422a

+ ··· − 0.406422a − 0.499749

0.308580a

+ 1.38435a

+ ··· + 0.615655a − 4.53186





−0.186653a

+ 0.708981a

+ ··· + 1.29102a − 2.60512

0.238334a

+ 0.231811a

+ ··· − 1.23181a − 1.66282



(ii) Obstruction class = −1

(iii) Cusp Shapes = −

1636

1993

3964

1993

+ ··· +

4008

1993

a −

11990

1993

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 5u

+ 11u

+ 10u

− u

− 10u

− 6u

+ 1)

, c

+ u

+ 3u

+ 2u

+ 3u

+ 2u

− 1)

− u

− 5u

+ 4u

+ 7u

− 4u

− 2u

+ 2u − 1)

, c

− u

+ ··· + 830u + 361

, c

− 5u

+ ··· − 27238u + 3169

, c

− u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 3y

+ 19y

− 34y

+ 71y

− 66y

+ 34y

− 12y + 1)

, c

+ 5y

+ 11y

+ 10y

− y

− 10y

− 6y

+ 1)

− 11y

+ 47y

− 98y

+ 103y

− 50y

+ 6y

+ 1)

, c

+ 15y

+ ··· + 1378908y + 130321

, c

− 21y

+ ··· + 68151136y + 10042561

, c

+ y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.914675

a = 1.89629 + 0.39729I

b = 1.88389 + 0.10461I

−5.24109 − 2.02988I −5.82210 + 3.46410I

u = 0.914675

a = 1.89629 − 0.39729I

b = 1.88389 − 0.10461I

−5.24109 + 2.02988I −5.82210 − 3.46410I

u = 0.914675

a = −2.05963 + 0.11437I

b = −1.73449 + 0.36339I

−5.24109 + 2.02988I −5.82210 − 3.46410I

u = 0.914675

a = −2.05963 − 0.11437I

b = −1.73449 − 0.36339I

−5.24109 − 2.02988I −5.82210 + 3.46410I

u = 0.252896 + 0.819281I

a = 0.839815 + 0.637967I

b = 0.38233 + 2.21666I

4.44352 − 0.75456I −3.18053 − 1.62107I

u = 0.252896 + 0.819281I

a = 1.61466 + 0.45267I

b = −1.49292 + 1.35353I

4.44352 + 3.30520I −3.18053 − 8.54928I

u = 0.252896 + 0.819281I

a = −0.99481 − 2.12932I

b = −0.03748 − 1.43734I

4.44352 + 3.30520I −3.18053 − 8.54928I

u = 0.252896 + 0.819281I

a = −2.60176 − 0.33644I

b = 0.310288 − 0.849384I

4.44352 − 0.75456I −3.18053 − 1.62107I

u = 0.252896 − 0.819281I

a = 0.839815 − 0.637967I

b = 0.38233 − 2.21666I

4.44352 + 0.75456I −3.18053 + 1.62107I

u = 0.252896 − 0.819281I

a = 1.61466 − 0.45267I

b = −1.49292 − 1.35353I

4.44352 − 3.30520I −3.18053 + 8.54928I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.252896 − 0.819281I

a = −0.99481 + 2.12932I

b = −0.03748 + 1.43734I

4.44352 − 3.30520I −3.18053 + 8.54928I

u = 0.252896 − 0.819281I

a = −2.60176 + 0.33644I

b = 0.310288 + 0.849384I

4.44352 + 0.75456I −3.18053 + 1.62107I

u = −0.394459 + 1.112500I

a = −0.559029 + 1.096920I

b = 0.095737 + 0.849097I

0.58960 − 1.60295I −8.42240 + 1.05392I

u = −0.394459 + 1.112500I

a = −0.650891 + 0.316842I

b = 0.99981 + 1.05461I

0.58960 − 1.60295I −8.42240 + 1.05392I

u = −0.394459 + 1.112500I

a = 1.265140 + 0.509213I

b = 0.035342 − 0.694019I

0.58960 − 5.66272I −8.42240 + 7.98213I

u = −0.394459 + 1.112500I

a = 0.564174 − 0.168272I

b = 1.06554 − 1.20660I

0.58960 − 5.66272I −8.42240 + 7.98213I

u = −0.394459 − 1.112500I

a = −0.559029 − 1.096920I

b = 0.095737 − 0.849097I

0.58960 + 1.60295I −8.42240 − 1.05392I

u = −0.394459 − 1.112500I

a = −0.650891 − 0.316842I

b = 0.99981 − 1.05461I

0.58960 + 1.60295I −8.42240 − 1.05392I

u = −0.394459 − 1.112500I

a = 1.265140 − 0.509213I

b = 0.035342 + 0.694019I

0.58960 + 5.66272I −8.42240 − 7.98213I

u = −0.394459 − 1.112500I

a = 0.564174 + 0.168272I

b = 1.06554 + 1.20660I

0.58960 + 5.66272I −8.42240 − 7.98213I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.473514 + 1.273020I

a = −0.278598 + 1.324080I

b = −2.19588 + 0.14617I

−9.13765 + 2.90536I −8.98443 + 0.46988I

u = 0.473514 + 1.273020I

a = 0.15293 − 1.46513I

b = 2.23599 − 0.76370I

−9.13765 + 6.96513I −8.98443 − 6.45832I

u = 0.473514 + 1.273020I

a = 0.46276 − 1.55281I

b = 1.81750 − 0.27231I

−9.13765 + 2.90536I −8.98443 + 0.46988I

u = 0.473514 + 1.273020I

a = −0.04692 + 1.73899I

b = −1.93756 + 0.49908I

−9.13765 + 6.96513I −8.98443 − 6.45832I

u = 0.473514 − 1.273020I

a = −0.278598 − 1.324080I

b = −2.19588 − 0.14617I

−9.13765 − 2.90536I −8.98443 − 0.46988I

u = 0.473514 − 1.273020I

a = 0.15293 + 1.46513I

b = 2.23599 + 0.76370I

−9.13765 − 6.96513I −8.98443 + 6.45832I

u = 0.473514 − 1.273020I

a = 0.46276 + 1.55281I

b = 1.81750 + 0.27231I

−9.13765 − 2.90536I −8.98443 − 0.46988I

u = 0.473514 − 1.273020I

a = −0.04692 − 1.73899I

b = −1.93756 − 0.49908I

−9.13765 − 6.96513I −8.98443 + 6.45832I

u = −0.578577

a = −1.046970 + 0.657077I

b = −0.322351 + 1.227360I

3.58052 − 2.02988I −5.00319 + 3.46410I

u = −0.578577

a = −1.046970 − 0.657077I

b = −0.322351 − 1.227360I

3.58052 + 2.02988I −5.00319 − 3.46410I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.578577

a = −0.55714 + 2.12134I

b = −0.605755 + 0.380170I

3.58052 − 2.02988I −5.00319 + 3.46410I

u = −0.578577

a = −0.55714 − 2.12134I

b = −0.605755 − 0.380170I

3.58052 + 2.02988I −5.00319 − 3.46410I

III.

= hu

− u

+ · · · + b + 1, u

+ 5u

+ · · · + a − 1, u

− u

+ · · · + u − 1i

(i) Arc colorings















+ u





+ u

+ 1

+ 2u

+ u





−u

− 5u

+ ··· + u + 1

−u

+ u

+ ··· + 2u − 1





− 3u

+ ··· − 4u + 2

−u

− 4u

+ ··· + u + 2





+ 1





−u

− 5u

+ ··· + u + 1

−2u

+ 2u

+ ··· + 3u − 1





−u

− 5u

+ ··· + u + 1

−2u

+ 2u

+ ··· + 3u − 2





−u

+ 2u

+ ··· + 4u − 2

− u

+ ··· − 2u − 1





− 2u

+ ··· − 4u + 1

−u

+ u

+ ··· − u + 3



(ii) Obstruction class = 1

(iii) Cusp Shapes = −2u

+ 3u

−11u

+ 15u

−28u

+ 35u

−39u

+ 41u

−

30u

+ 20u

− 10u

− 4u

− 3u

− 5u

+ 8u

− 3u − 2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 11u

+ ··· − 5u + 1

− u

+ ··· + u − 1

+ u

+ ··· − u − 1

, c

+ 8u

+ ··· + 3u − 1

, c

+ 8u

+ ··· + 3u + 1

+ u

+ ··· + u + 1

, c

− 3u

+ ··· − 2u − 1

+ 2u

+ ··· + 3u − 1

− 2u

+ ··· + 3u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− y

+ ··· − y −1

, c

+ 11y

+ ··· − 5y −1

− 13y

+ ··· − 11y −1

, c

+ 16y

+ ··· − 21y −1

, c

− 3y

+ ··· − 8y −1

, c

+ 8y

+ ··· + 3y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.432409 + 0.844316I

a = −0.329441 + 0.448815I

b = −0.236489 − 0.472224I

−1.79244 − 1.81593I −13.41650 + 0.65086I

u = −0.432409 − 0.844316I

a = −0.329441 − 0.448815I

b = −0.236489 + 0.472224I

−1.79244 + 1.81593I −13.41650 − 0.65086I

u = 0.355611 + 1.040830I

a = 1.62344 + 0.58218I

b = −0.02864 + 1.89676I

2.78146 − 0.05347I −7.84525 − 1.09777I

u = 0.355611 − 1.040830I

a = 1.62344 − 0.58218I

b = −0.02864 − 1.89676I

2.78146 + 0.05347I −7.84525 + 1.09777I

u = 0.890704

a = −2.06630

b = −1.84047

−5.60220 −6.95090

u = −0.326702 + 1.147210I

a = −0.125098 − 0.538940I

b = 0.659149 + 0.032559I

1.46823 − 3.78813I −6.32142 + 3.96435I

u = −0.326702 − 1.147210I

a = −0.125098 + 0.538940I

b = 0.659149 − 0.032559I

1.46823 + 3.78813I −6.32142 − 3.96435I

u = 0.536152 + 1.067450I

a = −1.382960 − 0.137280I

b = −0.59494 − 1.54985I

4.08792 + 6.74742I −5.06014 − 6.00387I

u = 0.536152 − 1.067450I

a = −1.382960 + 0.137280I

b = −0.59494 + 1.54985I

4.08792 − 6.74742I −5.06014 + 6.00387I

u = 0.101153 + 0.760282I

a = 1.81914 + 1.18798I

b = −0.71919 + 1.50323I

4.29021 + 2.32381I −5.29787 − 0.37944I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.101153 − 0.760282I

a = 1.81914 − 1.18798I

b = −0.71919 − 1.50323I

4.29021 − 2.32381I −5.29787 + 0.37944I

u = −0.682478 + 0.327459I

a = −0.427115 + 0.321033I

b = 0.186371 − 0.358960I

5.43330 − 0.84474I 0.382477 + 1.325719I

u = −0.682478 − 0.327459I

a = −0.427115 − 0.321033I

b = 0.186371 + 0.358960I

5.43330 + 0.84474I 0.382477 − 1.325719I

u = −0.557218 + 1.113290I

a = 0.172420 + 0.230688I

b = −0.352897 + 0.063409I

3.17508 − 3.96127I −2.77988 + 1.70184I

u = −0.557218 − 1.113290I

a = 0.172420 − 0.230688I

b = −0.352897 − 0.063409I

3.17508 + 3.96127I −2.77988 − 1.70184I

u = 0.587141 + 0.436351I

a = −0.56266 − 1.67318I

b = 0.399733 − 1.227910I

5.94319 − 2.22864I −0.25827 + 1.68244I

u = 0.587141 − 0.436351I

a = −0.56266 + 1.67318I

b = 0.399733 + 1.227910I

5.94319 + 2.22864I −0.25827 − 1.68244I

u = 0.473398 + 1.262070I

a = 0.24543 − 1.57752I

b = 2.10713 − 0.43705I

−9.42638 + 4.85839I −9.92768 − 3.28951I

u = 0.473398 − 1.262070I

a = 0.24543 + 1.57752I

b = 2.10713 + 0.43705I

−9.42638 − 4.85839I −9.92768 + 3.28951I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

+ 5u

+ 11u

+ 10u

− u

− 10u

− 6u

+ 1)

· (u

− 11u

+ ··· − 5u + 1)(u

+ 16u

+ ··· + 108u − 16)

((u

+ u

+ ··· + 2u

− 1)

)(u

− u

+ ··· + u − 1)

· (u

− 6u

+ ··· − 10u + 4)

− u

− 5u

+ 4u

+ 7u

− 4u

− 2u

+ 2u − 1)

· (u

+ u

+ ··· − u − 1)(u

+ 6u

+ ··· + 102u + 52)

, c

+ 8u

+ ··· + 3u − 1)(u

+ 7u

+ ··· + 2u + 1)

· (u

− u

+ ··· + 830u + 361)

, c

+ 8u

+ ··· + 3u + 1)(u

+ 7u

+ ··· + 2u + 1)

· (u

− u

+ ··· + 830u + 361)

((u

+ u

+ ··· + 2u

− 1)

)(u

+ u

+ ··· + u + 1)

· (u

− 6u

+ ··· − 10u + 4)

, c

− 3u

+ ··· − 2u − 1)(u

− 3u

+ ··· − 21u + 1)

· (u

− 5u

+ ··· − 27238u + 3169)

((u

− u + 1)

)(u

+ 2u

+ ··· + 3u − 1)

· (u

+ 19u

+ ··· + 2304u + 256)

((u

− u + 1)

)(u

− 2u

+ ··· + 3u + 1)

· (u

+ 19u

+ ··· + 2304u + 256)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 3y

+ 19y

− 34y

+ 71y

− 66y

+ 34y

− 12y + 1)

· (y

− y

+ ··· − y −1)(y

− 4y

+ ··· + 28400y −256)

, c

+ 5y

+ 11y

+ 10y

− y

− 10y

− 6y

+ 1)

· (y

+ 11y

+ ··· − 5y −1)(y

+ 16y

+ ··· + 108y −16)

− 11y

+ 47y

− 98y

+ 103y

− 50y

+ 6y

+ 1)

· (y

− 13y

+ ··· − 11y −1)(y

− 24y

+ ··· + 12588y −2704)

, c

+ 16y

+ ··· − 21y −1)(y

+ 14y

+ ··· − 10y −1)

· (y

+ 15y

+ ··· + 1378908y + 130321)

, c

− 3y

+ ··· − 8y −1)(y

− 49y

+ ··· + 83y −1)

· (y

− 21y

+ ··· + 68151136y + 10042561)

, c

((y

+ y + 1)

)(y

+ 8y

+ ··· + 3y −1)

· (y

+ 9y

+ ··· + 131072y −65536)