Restriction to the Maximal Elementary Abelian Subgroup

The images of the generators of the cohomology of G restricted to E are

0 ,

0 ,

0 ,

z² + x² ,

z² + y² ,

x²
in the cohomology of E.

The kernel of the restriction to E (Minimal Prime) of the cohomology of G is generated by

z ,

y ,

x .

This ideal is also the nilradical of the cohomology of G.

It is nilpotent of degree 4.

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Restrictions to Maximal Subgroups

Maximal Subgroup H #1 Generated by [ G.1 * G.4 * G.6, G.5, G.2, G.1 * G.3 * G.5, G.6 ] .

The Group H is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5 Generated by [ G.1 * G.3 * G.5 * G.6, G.2 * G.3 * G.4 * G.6, G.2 * G.3 * G.4 ]

of type Cyclic(2) x Group(16)#10 .

The images of the generators of the cohomology of G restricted to H are

z ,

z + y + x ,

y + x ,

zy + zx + w ,

zy + v ,

y² + v
in the cohomology of H.

The kernel of the restriction to H of the cohomology of G is generated by

z + y + x .

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Maximal Subgroup H #2 Generated by [ G.3, G.5, G.4, G.2, G.6 ] .

The group H is abelian of type [ 4, 4, 2 ]

The cohomology ring of H is a the quotient of a polynomial ring in the variables
[ z, y, x, w, v ] , in degrees [ 1, 1, 1, 2, 2 ] , by the ideal of relations

z² , y² .

The images of the generators of the cohomology of G restricted to H are

0 ,

y ,

z ,

x² ,

v ,

x² + w
in the cohomology of H.

The kernel of the restriction to H of the cohomology of G is generated by

z .

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Maximal Subgroup H #3 Generated by [ G.5, G.4, G.2, G.1 * G.3 * G.5, G.6 ] .

The Group H is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5 Generated by [ G.4, G.4 * G.5, G.1 * G.3 * G.5 ]

of type Cyclic(2) x Group(16)#10 .

The images of the generators of the cohomology of G restricted to H are

z ,

z ,

y + x ,

w ,

zy + y² ,

zy + v
in the cohomology of H.

The kernel of the restriction to H of the cohomology of G is generated by

z + y .

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Maximal Subgroup H #4 Generated by [ G.3, G.5, G.2, G.1, G.6 ] .

The Group H is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5 Generated by [ G.2 * G.3 * G.5 * G.6, G.2 * G.3 * G.5, G.1 ]

of type Cyclic(2) x Group(16)#10 .

The images of the generators of the cohomology of G restricted to H are

z ,

y + x ,

0 ,

zy + zx + w ,

zy + v ,

zy + y²
in the cohomology of H.

The kernel of the restriction to H of the cohomology of G is generated by

x .

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Maximal Subgroup H #5 Generated by [ G.5, G.4, G.2, G.1, G.6 ] .

The Group H is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5 Generated by [ G.4, G.4 * G.5, G.1 ]

of type Cyclic(2) x Group(16)#10 .

The images of the generators of the cohomology of G restricted to H are

z ,

0 ,

y + x ,

w ,

zy + y² ,

zy + v
in the cohomology of H.

The kernel of the restriction to H of the cohomology of G is generated by

y .

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Maximal Subgroup H #6 Generated by [ G.1 * G.4 * G.6, G.3, G.5, G.2, G.6 ] .

The Group H is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5 Generated by [ G.1 * G.4 * G.6, G.2 * G.3 * G.5 * G.6, G.2 * G.3 * G.5 ]

of type Cyclic(2) x Group(16)#10 .

The images of the generators of the cohomology of G restricted to H are

z ,

y + x ,

z ,

zy + zx + w ,

zy + v ,

zy + y²
in the cohomology of H.

The kernel of the restriction to H of the cohomology of G is generated by

z + x .

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Maximal Subgroup H #7 Generated by [ G.3 * G.4, G.5, G.2, G.1, G.6 ] .

The Group H is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5 Generated by [ G.3 * G.4, G.3 * G.4 * G.6, G.1 ]

of type Cyclic(2) x Group(16)#10 .

The images of the generators of the cohomology of G restricted to H are

z ,

y + x ,

y + x ,

w ,

zy + v ,

y² + v
in the cohomology of H.

The kernel of the restriction to H of the cohomology of G is generated by

y + x .

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The essential cohomology of G is generated as an ideal by

yx² .

It is nilpotent of degree 2.

The annihilator of the Essential Cohomology has dimension 3 .
The essential cohomology is a free module over the polynomial subring Q of the cohomology ring of G generated by w , v , u .
The essential cohomology is generated as a module over Q by the elements

[] [] [ yx² ]

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Inflations from Maximal Quotient Groups

Maximal Quotient Group Q #1.

The kernel of the quotient is generated by G.2 .

The Group Q is Isomorphic to the Group of Order 32 Number34 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.3^2 = $.5, $.2^$.1 = $.2 * $.4, $.3^$.2 = $.3 * $.5 .

The generators of G have images [ pcy.1, pcy.3, pcy.2 ] in the quotient group.

The images of the generators of the cohomology of Q inflated to G are

x ,

z ,

y ,

zx + u ,

v
in the cohomology of G.

The kernel of the inflation to G of the cohomology of Q is generated by

y² .

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Maximal Quotient Group Q #2.

The kernel of the quotient is generated by G.5 * G.6 .

The Group Q is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5

of type Cyclic(2) x Group(16)#10 .

The generators of G have images [ pcy.3, pcy.2, pcy.1 ] in the quotient group.

The images of the generators of the cohomology of Q inflated to G are

z ,

y ,

x ,

w ,

zy + v + u
in the cohomology of G.

The kernel of the inflation to G of the cohomology of Q is generated by

zx + x² .

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Maximal Quotient Group Q #3.

The kernel of the quotient is generated by G.2 * G.5 * G.6 .

The Group Q is Isomorphic to the Group of Order 32 Number35 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.4 * $.5, $.3^2 = $.4 * $.5, $.2^$.1 = $.2 * $.4, $.3^$.1 = $.3 * $.4, $.3^$.2 = $.3 * $.5 .

The generators of G have images [ pcy.2 * pcy.3 * pcy.4, pcy.1, pcy.3 ] in the quotient group.

The images of the generators of the cohomology of Q inflated to G are

y ,

x ,

z + x ,

v + u ,

zyv + yxv + zyu + yxu + w² + u²
in the cohomology of G.

The kernel of the inflation to G of the cohomology of Q is generated by

yx .

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Maximal Quotient Group Q #4.

The kernel of the quotient is generated by G.6 .

The Group Q is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5

of type Cyclic(2) x Group(16)#10 .

The generators of G have images [ pcy.2 * pcy.3 * pcy.5, pcy.2 * pcy.4 * pcy.5, pcy.1 * pcy.3 * pcy.4 ] in the quotient group.

The images of the generators of the cohomology of Q inflated to G are

z ,

y + x ,

z + x ,

zy + w ,

zy + zx + v
in the cohomology of G.

The kernel of the inflation to G of the cohomology of Q is generated by

zx + x² .

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Maximal Quotient Group Q #5.

The kernel of the quotient is generated by G.2 * G.6 .

The Group Q is Isomorphic to the Group of Order 32 Number35 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.4 * $.5, $.3^2 = $.4 * $.5, $.2^$.1 = $.2 * $.4, $.3^$.1 = $.3 * $.4, $.3^$.2 = $.3 * $.5 .

The generators of G have images [ pcy.1 * pcy.2 * pcy.3, pcy.2 * pcy.3 * pcy.4, pcy.3 ] in the quotient group.

The images of the generators of the cohomology of Q inflated to G are

x ,

y + x ,

z + y + x ,

v ,

yxv + w² + v² + u²
in the cohomology of G.

The kernel of the inflation to G of the cohomology of Q is generated by

yx .

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Maximal Quotient Group Q #6.

The kernel of the quotient is generated by G.5 .

The Group Q is Isomorphic to the Group of Order 32 Number12 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.5, $.3^2 = $.5, $.2^$.1 = $.2 * $.5, $.3^$.1 = $.3 * $.5

of type Cyclic(2) x Group(16)#10 .

The generators of G have images [ pcy.3, pcy.2 * pcy.3 * pcy.5, pcy.1 ] in the quotient group.

The images of the generators of the cohomology of Q inflated to G are

z ,

y ,

y + x ,

w ,

zy + u
in the cohomology of G.

The kernel of the inflation to G of the cohomology of Q is generated by

zx + x² .

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Maximal Quotient Group Q #7.

The kernel of the quotient is generated by G.2 * G.5 .

The Group Q is Isomorphic to the Group of Order 32 Number35 GrpPC of order 32 = 2^5 PC-Relations: $.1^2 = $.4, $.2^2 = $.4 * $.5, $.3^2 = $.4 * $.5, $.2^$.1 = $.2 * $.4, $.3^$.1 = $.3 * $.4, $.3^$.2 = $.3 * $.5 .

The generators of G have images [ pcy.1, pcy.1 * pcy.2 * pcy.3, pcy.3 ] in the quotient group.

The images of the generators of the cohomology of Q inflated to G are

y + x ,

y ,

z + y ,

u ,

yxu + x²u + w² + v²
in the cohomology of G.

The kernel of the inflation to G of the cohomology of Q is generated by

yx .

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Action of Automorphisms

The groups of outer automorphisms of G has order 1536, and is generated by 10 elements.

Automorphism #1

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1 * G.2
G.2
G.3
G.4
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y ,

x ,

w ,

v ,

u .

Automorphism #2

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1
G.2
G.3 * G.6
G.4
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y ,

x ,

w ,

v ,

u .

Automorphism #3

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1
G.2
G.2 * G.3
G.4
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y ,

x ,

zy + w ,

v ,

u .

Automorphism #4

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1
G.2
G.3
G.4 * G.5
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y ,

x ,

w ,

v ,

u .

Automorphism #5

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1
G.2
G.3
G.4 * G.6
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y ,

x ,

w ,

v ,

u .

Automorphism #6

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1
G.2
G.3
G.2 * G.4
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y ,

x ,

zx + w ,

v ,

u .

Automorphism #7

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1 * G.3 * G.4
G.2
G.3
G.4
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

z + y ,

z + x ,

w ,

v ,

u .

Automorphism #8

The order of the class of the automorphism in the outer automorphism group is 2. The images of the generators of G are

G.1 * G.4
G.2
G.3
G.4
G.5
G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y ,

z + x ,

w ,

v ,

u .

Automorphism #9

The order of the class of the automorphism in the outer automorphism group is 6. The images of the generators of G are

G.1
G.2
G.4
G.3 * G.4
G.6
G.5 * G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

x ,

y + x ,

w ,

u ,

v + u .

Automorphism #10

The order of the class of the automorphism in the outer automorphism group is 4. The images of the generators of G are

G.1
G.2
G.3
G.3 * G.4
G.5
G.5 * G.6 .

The images of the generators of the cohomology of G under the map induced by the automorphism are

z ,

y + x ,

x ,

w ,

v + u ,

u .

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CHECKS

paramflag = true
qregflagflag = true
cmflag = true
essflag = true
centflag = true

THE COMPUTATION IS COMPLETE