12a

0569

(K12a

0569

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

4,9

10 5 11

2,3

1 8 6 7 12

, c

Ideals for irreducible components

of X

par

= h−3u

+ 5u

+ ··· + b − 3, 7u

− 11u

+ ··· + 2a + 9, u

− 3u

+ ··· − 5u − 2i

= h−21u

a − 357u

+ ··· + 85a − 335, −2u

a − 2u

+ ··· + a

− a, u

+ u

+ ··· + u − 1i

= hu

− 4u

+ u

+ 4u

− 2u

+ b − u, −u

− u

+ 3u

+ 2u

+ a − u, u

− 5u

+ 7u

− 2u

+ 1i

* 3 irreducible components of dim

= 0, with total 92 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−3u

+5u

+· · ·+b−3, 7u

−11u

+· · ·+2a+9, u

−3u

+· · ·−5u−2i

(i) Arc colorings











−u





−u

+ u





−u

+ 1

− 2u





−

+ ··· −

u −

− 5u

+ ··· + 11u + 3





−u





−5.50000u

+ 8.50000u

+ ··· − 20.5000u − 6.50000

− 8u

+ ··· + 17u + 5





−u

+ 3u

− 2u

+ 1

− 4u

+ 4u





− 6u

+ 12u

− 10u

+ 5u

−u

+ 7u

− 17u

+ 16u

− 4u

− u

+ u





−

+ ··· −

u −

− 3u

+ ··· + 9u + 3





−

+ ··· +

u +

−3u

+ 5u

+ ··· − 10u − 3



(ii) Obstruction class = −1

(iii) Cusp Shapes

= 12u

−12u

−218u

+192u

+1764u

−1284u

−8408u

+4518u

+26308u

−

8142u

− 56882u

+ 2928u

+ 86532u

+ 19602u

− 91108u

− 48412u

61428u

+ 58604u

− 19212u

− 42828u

− 6604u

+ 18558u

+ 10772u

−

3466u

−5728u

−1018u

+ 1686u

+ 1004u

−148u

−386u

−132u

+ 52u

+ 68u + 34

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 14u

+ ··· + 2u + 1

, c

+ 7u

+ ··· + 2u − 1

, c

+ 3u

+ ··· + 5u − 2

− 15u

+ ··· − 4575u + 358

+ 9u

+ ··· − 281u − 136

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 22y

+ ··· − 102y + 1

, c

+ 14y

+ ··· + 2y + 1

, c

− 39y

+ ··· − 21y + 4

+ 9y

+ ··· − 2328229y + 128164

− 3y

+ ··· − 79233y + 18496

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.877399 + 0.216772I

a = 0.475747 − 0.156573I

b = 0.73016 + 1.40055I

1.81473 − 6.46317I 9.54481 + 4.22755I

u = 0.877399 − 0.216772I

a = 0.475747 + 0.156573I

b = 0.73016 − 1.40055I

1.81473 + 6.46317I 9.54481 − 4.22755I

u = −0.708573 + 0.517031I

a = −0.145662 + 0.387973I

b = 0.22304 − 2.36773I

−0.14844 − 13.04060I 6.35227 + 10.72030I

u = −0.708573 − 0.517031I

a = −0.145662 − 0.387973I

b = 0.22304 + 2.36773I

−0.14844 + 13.04060I 6.35227 − 10.72030I

u = 0.780460 + 0.363894I

a = −0.627024 − 0.012240I

b = 0.031716 − 1.019530I

4.40948 + 4.16383I 12.6794 − 7.1623I

u = 0.780460 − 0.363894I

a = −0.627024 + 0.012240I

b = 0.031716 + 1.019530I

4.40948 − 4.16383I 12.6794 + 7.1623I

u = −0.736699 + 0.432721I

a = 0.353503 − 0.411057I

b = −0.48051 + 1.43982I

3.92336 − 2.16093I 12.40932 + 2.19070I

u = −0.736699 − 0.432721I

a = 0.353503 + 0.411057I

b = −0.48051 − 1.43982I

3.92336 + 2.16093I 12.40932 − 2.19070I

u = −0.562396 + 0.535053I

a = −0.351346 + 0.308190I

b = −1.167160 − 0.153798I

−3.10387 + 1.61500I 3.93469 − 1.70541I

u = −0.562396 − 0.535053I

a = −0.351346 − 0.308190I

b = −1.167160 + 0.153798I

−3.10387 − 1.61500I 3.93469 + 1.70541I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.369153 + 0.566173I

a = 0.060405 − 1.357450I

b = 0.522127 − 0.471400I

−3.66613 − 5.39835I 2.14176 + 8.12985I

u = −0.369153 − 0.566173I

a = 0.060405 + 1.357450I

b = 0.522127 + 0.471400I

−3.66613 + 5.39835I 2.14176 − 8.12985I

u = 0.478774 + 0.474535I

a = 0.006193 − 0.459110I

b = 0.318164 + 0.001013I

−1.82601 + 1.67416I 6.00203 − 5.31904I

u = 0.478774 − 0.474535I

a = 0.006193 + 0.459110I

b = 0.318164 − 0.001013I

−1.82601 − 1.67416I 6.00203 + 5.31904I

u = −0.184105 + 0.612147I

a = −2.40151 − 0.24206I

b = −0.085419 − 0.531958I

−1.68891 + 9.20421I 3.04718 − 5.89874I

u = −0.184105 − 0.612147I

a = −2.40151 + 0.24206I

b = −0.085419 + 0.531958I

−1.68891 − 9.20421I 3.04718 + 5.89874I

u = 1.43714 + 0.08661I

a = 0.678840 + 0.278085I

b = −0.085956 − 1.097670I

2.03333 + 7.62639I 0

u = 1.43714 − 0.08661I

a = 0.678840 − 0.278085I

b = −0.085956 + 1.097670I

2.03333 − 7.62639I 0

u = −0.050097 + 0.546766I

a = 1.46207 − 0.24634I

b = 0.040124 + 0.397505I

1.94188 − 1.14446I 7.91735 + 3.10614I

u = −0.050097 − 0.546766I

a = 1.46207 + 0.24634I

b = 0.040124 − 0.397505I

1.94188 + 1.14446I 7.91735 − 3.10614I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.53119 + 0.11501I

a = 0.777108 + 0.261273I

b = −1.053720 − 0.389785I

4.89311 − 3.68703I 0

u = −1.53119 − 0.11501I

a = 0.777108 − 0.261273I

b = −1.053720 + 0.389785I

4.89311 + 3.68703I 0

u = 1.54361

a = −0.986884

b = 0.729443

7.42344 0

u = 1.54714 + 0.14618I

a = −1.43226 + 0.61040I

b = 1.95694 − 0.15000I

3.92568 + 0.82031I 0

u = 1.54714 − 0.14618I

a = −1.43226 − 0.61040I

b = 1.95694 + 0.15000I

3.92568 − 0.82031I 0

u = −0.432002

a = 0.604501

b = −0.356295

0.622618 16.1500

u = 1.60778 + 0.15231I

a = 1.23471 + 3.38333I

b = −0.71168 − 4.36160I

7.6999 + 15.5437I 0

u = 1.60778 − 0.15231I

a = 1.23471 − 3.38333I

b = −0.71168 + 4.36160I

7.6999 − 15.5437I 0

u = 1.61580 + 0.12438I

a = −1.19491 − 2.06212I

b = 0.95223 + 2.61552I

11.94790 + 4.25345I 0

u = 1.61580 − 0.12438I

a = −1.19491 + 2.06212I

b = 0.95223 − 2.61552I

11.94790 − 4.25345I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.62557 + 0.09964I

a = −0.15988 + 2.10696I

b = 0.28288 − 2.81306I

12.65520 − 5.90157I 0

u = −1.62557 − 0.09964I

a = −0.15988 − 2.10696I

b = 0.28288 + 2.81306I

12.65520 + 5.90157I 0

u = −1.63252 + 0.05614I

a = 1.20521 − 2.66840I

b = −1.65951 + 3.54397I

10.38340 + 5.46156I 0

u = −1.63252 − 0.05614I

a = 1.20521 + 2.66840I

b = −1.65951 − 3.54397I

10.38340 − 5.46156I 0

II. I

= h−21u

a − 357u

+ · · · + 85a − 335, −2u

a − 2u

+ · · · + a

−

a, u

+ u

+ · · · + u − 1i

(i) Arc colorings











−u





−u

+ u





−u

+ 1

− 2u





0.0589888au

+ 1.00281u

+ ··· − 0.238764a + 0.941011





−u





0.0477528au

+ 0.811798u

+ ··· + 0.997191a − 0.0477528

0.0112360au

+ 0.191011u

+ ··· − 0.235955a + 0.988764





−u

+ 3u

− 2u

+ 1

− 4u

+ 4u





− 6u

+ 12u

− 10u

+ 5u

−u

+ 7u

− 17u

+ 16u

− 4u

− u

+ u





−0.0477528au

+ 0.188202u

+ ··· − 0.997191a + 1.04775

−0.0112360au

+ 0.808989u

+ ··· + 0.235955a − 0.988764





−0.0477528au

+ 0.188202u

+ ··· + 1.00281a + 0.0477528

0.0477528au

+ 0.811798u

+ ··· − 1.00281a + 0.952247



(ii) Obstruction class = −1

(iii) Cusp Shapes

= 4u

−56u

+328u

−4u

−1040u

+44u

+1936u

−192u

−2164u

+420u

1440u

− 484u

− 508u

+ 296u

− 4u

− 100u

+ 64u

+ 4u

− 20u

+ 4u

− 4u + 10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 27u

+ ··· + 35u + 4

, c

+ u

+ ··· + 5u + 2

, c

− u

+ ··· + u + 1)

+ 5u

+ ··· − 47u − 11)

+ 7u

+ ··· + 41u + 7)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 9y

+ ··· + 1407y + 16

, c

+ 27y

+ ··· + 35y + 4

, c

− 29y

+ ··· + y −1)

+ 11y

+ ··· − 827y −121)

− 5y

+ ··· + 197y −49)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.718272 + 0.485243I

a = −0.496142 − 0.419262I

b = 0.26577 + 1.44202I

2.29194 + 7.50021I 9.62573 − 7.29113I

u = 0.718272 + 0.485243I

a = −0.100137 + 0.365766I

b = −0.06988 − 2.11914I

2.29194 + 7.50021I 9.62573 − 7.29113I

u = 0.718272 − 0.485243I

a = −0.496142 + 0.419262I

b = 0.26577 − 1.44202I

2.29194 − 7.50021I 9.62573 + 7.29113I

u = 0.718272 − 0.485243I

a = −0.100137 − 0.365766I

b = −0.06988 + 2.11914I

2.29194 − 7.50021I 9.62573 + 7.29113I

u = −0.816872 + 0.280683I

a = 0.751695 − 0.110614I

b = −0.004403 − 0.561403I

3.64682 + 1.11527I 12.41631 + 0.71281I

u = −0.816872 + 0.280683I

a = −0.229043 − 0.316380I

b = −0.73086 + 1.46356I

3.64682 + 1.11527I 12.41631 + 0.71281I

u = −0.816872 − 0.280683I

a = 0.751695 + 0.110614I

b = −0.004403 + 0.561403I

3.64682 − 1.11527I 12.41631 − 0.71281I

u = −0.816872 − 0.280683I

a = −0.229043 + 0.316380I

b = −0.73086 − 1.46356I

3.64682 − 1.11527I 12.41631 − 0.71281I

u = −0.664564 + 0.449435I

a = 0.455137 + 0.809467I

b = −0.62549 − 2.26185I

−3.14595 − 4.18290I 4.98515 + 7.72660I

u = −0.664564 + 0.449435I

a = −0.833552 + 0.255403I

b = −1.15382 − 0.82719I

−3.14595 − 4.18290I 4.98515 + 7.72660I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.664564 − 0.449435I

a = 0.455137 − 0.809467I

b = −0.62549 + 2.26185I

−3.14595 + 4.18290I 4.98515 − 7.72660I

u = −0.664564 − 0.449435I

a = −0.833552 − 0.255403I

b = −1.15382 + 0.82719I

−3.14595 + 4.18290I 4.98515 − 7.72660I

u = 0.629613 + 0.295912I

a = 1.103490 + 0.019629I

b = 0.691062 − 1.047430I

−2.09040 + 0.82124I 8.96410 − 1.46331I

u = 0.629613 + 0.295912I

a = −0.169580 − 1.235130I

b = 1.03458 + 1.49781I

−2.09040 + 0.82124I 8.96410 − 1.46331I

u = 0.629613 − 0.295912I

a = 1.103490 − 0.019629I

b = 0.691062 + 1.047430I

−2.09040 − 0.82124I 8.96410 + 1.46331I

u = 0.629613 − 0.295912I

a = −0.169580 + 1.235130I

b = 1.03458 − 1.49781I

−2.09040 − 0.82124I 8.96410 + 1.46331I

u = 0.433714 + 0.460017I

a = 0.310449 − 0.823732I

b = 0.084915 − 0.370987I

−1.87609 + 1.61686I 4.87509 − 4.54712I

u = 0.433714 + 0.460017I

a = −0.354969 − 0.143817I

b = 0.517702 + 0.309879I

−1.87609 + 1.61686I 4.87509 − 4.54712I

u = 0.433714 − 0.460017I

a = 0.310449 + 0.823732I

b = 0.084915 + 0.370987I

−1.87609 − 1.61686I 4.87509 + 4.54712I

u = 0.433714 − 0.460017I

a = −0.354969 + 0.143817I

b = 0.517702 − 0.309879I

−1.87609 − 1.61686I 4.87509 + 4.54712I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.142727 + 0.579000I

a = −1.227520 + 0.034036I

b = 0.026860 + 0.617172I

0.61424 − 3.87050I 6.00448 + 2.43861I

u = 0.142727 + 0.579000I

a = 2.25381 − 0.36959I

b = 0.014633 − 0.246499I

0.61424 − 3.87050I 6.00448 + 2.43861I

u = 0.142727 − 0.579000I

a = −1.227520 − 0.034036I

b = 0.026860 − 0.617172I

0.61424 + 3.87050I 6.00448 − 2.43861I

u = 0.142727 − 0.579000I

a = 2.25381 + 0.36959I

b = 0.014633 + 0.246499I

0.61424 + 3.87050I 6.00448 − 2.43861I

u = −0.209074 + 0.473774I

a = −0.39992 − 1.91880I

b = 0.211890 − 0.974935I

−4.45458 + 0.92486I −0.08147 − 1.66278I

u = −0.209074 + 0.473774I

a = −2.62374 − 0.86746I

b = 0.619265 − 0.124151I

−4.45458 + 0.92486I −0.08147 − 1.66278I

u = −0.209074 − 0.473774I

a = −0.39992 + 1.91880I

b = 0.211890 + 0.974935I

−4.45458 − 0.92486I −0.08147 + 1.66278I

u = −0.209074 − 0.473774I

a = −2.62374 + 0.86746I

b = 0.619265 + 0.124151I

−4.45458 − 0.92486I −0.08147 + 1.66278I

u = 1.48298

a = 1.09851 + 1.36235I

b = −0.26943 − 1.89202I

0.787691 3.78220

u = 1.48298

a = 1.09851 − 1.36235I

b = −0.26943 + 1.89202I

0.787691 3.78220

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.49660 + 0.07007I

a = −0.198609 + 0.768663I

b = −0.401251 − 1.286810I

4.41001 − 3.32898I 8.74899 + 3.47484I

u = −1.49660 + 0.07007I

a = 1.298030 + 0.149609I

b = −1.096220 − 0.011479I

4.41001 − 3.32898I 8.74899 + 3.47484I

u = −1.49660 − 0.07007I

a = −0.198609 − 0.768663I

b = −0.401251 + 1.286810I

4.41001 + 3.32898I 8.74899 − 3.47484I

u = −1.49660 − 0.07007I

a = 1.298030 − 0.149609I

b = −1.096220 + 0.011479I

4.41001 + 3.32898I 8.74899 − 3.47484I

u = −1.59018 + 0.09388I

a = 1.13331 + 1.34552I

b = −2.13417 − 1.44076I

5.52546 − 2.31852I 10.07988 − 0.26267I

u = −1.59018 + 0.09388I

a = 2.17950 − 2.41711I

b = −2.37114 + 2.78140I

5.52546 − 2.31852I 10.07988 − 0.26267I

u = −1.59018 − 0.09388I

a = 1.13331 − 1.34552I

b = −2.13417 + 1.44076I

5.52546 + 2.31852I 10.07988 + 0.26267I

u = −1.59018 − 0.09388I

a = 2.17950 + 2.41711I

b = −2.37114 − 2.78140I

5.52546 + 2.31852I 10.07988 + 0.26267I

u = 1.59510 + 0.12778I

a = −1.45878 + 1.14196I

b = 2.53044 − 0.90497I

4.53379 + 6.30957I 7.83367 − 5.57691I

u = 1.59510 + 0.12778I

a = 0.17314 + 3.89558I

b = 0.21333 − 4.54298I

4.53379 + 6.30957I 7.83367 − 5.57691I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.59510 − 0.12778I

a = −1.45878 − 1.14196I

b = 2.53044 + 0.90497I

4.53379 − 6.30957I 7.83367 + 5.57691I

u = 1.59510 − 0.12778I

a = 0.17314 − 3.89558I

b = 0.21333 + 4.54298I

4.53379 − 6.30957I 7.83367 + 5.57691I

u = −1.61122 + 0.14112I

a = 0.98524 − 1.89455I

b = −0.56722 + 2.33541I

10.2089 − 9.8448I 11.88321 + 5.59341I

u = −1.61122 + 0.14112I

a = −0.89838 + 3.28439I

b = 0.51623 − 4.20300I

10.2089 − 9.8448I 11.88321 + 5.59341I

u = −1.61122 − 0.14112I

a = 0.98524 + 1.89455I

b = −0.56722 − 2.33541I

10.2089 + 9.8448I 11.88321 − 5.59341I

u = −1.61122 − 0.14112I

a = −0.89838 − 3.28439I

b = 0.51623 + 4.20300I

10.2089 + 9.8448I 11.88321 − 5.59341I

u = 1.62760 + 0.07696I

a = 0.05235 + 1.49265I

b = −0.36051 − 2.03840I

12.01820 + 0.23028I 13.77375 + 0.13265I

u = 1.62760 + 0.07696I

a = −1.30429 − 2.61429I

b = 1.55773 + 3.42070I

12.01820 + 0.23028I 13.77375 + 0.13265I

u = 1.62760 − 0.07696I

a = 0.05235 − 1.49265I

b = −0.36051 + 2.03840I

12.01820 − 0.23028I 13.77375 − 0.13265I

u = 1.62760 − 0.07696I

a = −1.30429 + 2.61429I

b = 1.55773 − 3.42070I

12.01820 − 0.23028I 13.77375 − 0.13265I

III. I

= hu

− 4u

+ u

+ 4u

− 2u

+ b − u, −u

− u

+ 3u

+ 2u

+ a −

u, u

− 5u

+ 7u

− 2u

+ 1i

(i) Arc colorings











−u





−u

+ u





−u

+ 1

− 2u





+ u

− 3u

− 2u

+ u

−u

+ 4u

− u

− 4u

+ 2u

+ u





−u





+ u

− 3u

− 2u

+ 2u

−u

+ 4u

− u

− 4u

+ 2u





−u

+ 3u

− 2u

+ 1

− 3u

+ 2u

− 1





−u

+ 2u

+ u

− 3u

+ u





−u

− u

+ 4u

+ 3u

− 4u

− u + 1

− 3u

+ u − 1





+ u

− 3u

+ 2u + 1

−u

+ 4u

− 4u



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4u

+ 16u

− 16u

+ 4

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

+ 1)

, c

− 5u

+ 7u

− 2u

+ 1

− u

+ 3u

− 2u

+ 1

− u

+ u

+ 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

(y + 1)

, c

− 5y

+ 7y

− 2y + 1)

− y

+ 3y

− 2y + 1)

+ y

+ 3y

+ 2y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.506844 + 0.395123I

a = 0.368534 − 1.072150I

b = 0.858652 + 0.115465I

−3.50087 + 1.41510I 0.17326 − 4.90874I

u = 0.506844 − 0.395123I

a = 0.368534 + 1.072150I

b = 0.858652 − 0.115465I

−3.50087 − 1.41510I 0.17326 + 4.90874I

u = −0.506844 + 0.395123I

a = −1.072150 + 0.368534I

b = −0.155036 − 1.325220I

−3.50087 − 1.41510I 0.17326 + 4.90874I

u = −0.506844 − 0.395123I

a = −1.072150 − 0.368534I

b = −0.155036 + 1.325220I

−3.50087 + 1.41510I 0.17326 − 4.90874I

u = 1.55249 + 0.10488I

a = −0.05948 + 1.76310I

b = 0.70068 − 1.80642I

3.50087 + 3.16396I 3.82674 − 2.56480I

u = 1.55249 − 0.10488I

a = −0.05948 − 1.76310I

b = 0.70068 + 1.80642I

3.50087 − 3.16396I 3.82674 + 2.56480I

u = −1.55249 + 0.10488I

a = 1.76310 − 0.05948I

b = −2.40430 + 0.01617I

3.50087 − 3.16396I 3.82674 + 2.56480I

u = −1.55249 − 0.10488I

a = 1.76310 + 0.05948I

b = −2.40430 − 0.01617I

3.50087 + 3.16396I 3.82674 − 2.56480I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

, c

((u − 1)

)(u

+ 14u

+ ··· + 2u + 1)(u

+ 27u

+ ··· + 35u + 4)

, c

((u

+ 1)

)(u

+ 7u

+ ··· + 2u − 1)(u

+ u

+ ··· + 5u + 2)

, c

− 5u

+ 7u

− 2u

+ 1)(u

− u

+ ··· + u + 1)

· (u

+ 3u

+ ··· + 5u − 2)

− u

+ 3u

− 2u

+ 1)(u

+ 5u

+ ··· − 47u − 11)

· (u

− 15u

+ ··· − 4575u + 358)

((u

− u

+ u

+ 1)

)(u

+ 7u

+ ··· + 41u + 7)

· (u

+ 9u

+ ··· − 281u − 136)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

((y −1)

)(y

+ 22y

+ ··· − 102y + 1)(y

− 9y

+ ··· + 1407y + 16)

, c

((y + 1)

)(y

+ 14y

+ ··· + 2y + 1)(y

+ 27y

+ ··· + 35y + 4)

, c

((y

− 5y

+ 7y

− 2y + 1)

)(y

− 29y

+ ··· + y −1)

· (y

− 39y

+ ··· − 21y + 4)

((y

− y

+ 3y

− 2y + 1)

)(y

+ 11y

+ ··· − 827y −121)

· (y

+ 9y

+ ··· − 2328229y + 128164)

((y

+ y

+ 3y

+ 2y + 1)

)(y

− 5y

+ ··· + 197y −49)

· (y

− 3y

+ ··· − 79233y + 18496)