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Subindex: normal .. Normalising
Abelian Normal Subgroups (PERMUTATION GROUPS)
Characteristic Subgroups and Normal Structure (GROUPS)
Computing Normal Forms of Elements (BRAID GROUPS)
Constructor (OVERVIEW)
Lattice of Normal Subgroups (PERMUTATION GROUPS)
Maximal and Minimal Normal Subgroups (PERMUTATION GROUPS)
Normal and Subnormal Subgroups (MATRIX GROUPS OVER GENERAL RINGS)
Normal and Subnormal Subgroups (PERMUTATION GROUPS)
Normal Form for Elements of a Braid Group (BRAID GROUPS)
Normal Structure and Characteristic Subgroups (FINITELY PRESENTED ABELIAN GROUPS)
Normal Structure and Characteristic Subgroups (POLYCYCLIC GROUPS)
Normal Subgroups and Subgroup Series (FINITE SOLUBLE GROUPS)
Special Elements (FINITE FIELDS)
Tools for the calculation of specific normal series (FINITELY PRESENTED GROUPS: ADVANCED)
Normal Subgroups and Subgroup Series (FINITE SOLUBLE GROUPS)
Abelian Normal Subgroups (PERMUTATION GROUPS)
Lattice of Normal Subgroups (PERMUTATION GROUPS)
Maximal and Minimal Normal Subgroups (PERMUTATION GROUPS)
NormalClosure(G, H) : GrpAb, GrpAb -> GrpAb
H ^ G : GrpFin -> GrpFin
H ^ G : GrpFin, GrpFin -> GrpFin
H ^ G : GrpFP, GrpFP -> GrpFP
H ^ G : GrpGPC, GrpGPC -> GrpGPC
H ^ G : GrpMat -> GrpMat
H ^ G : GrpMat, GrpMat -> GrpMat
H ^ G : GrpPC, GrpPC -> GrpPC
H ^ G : GrpPerm, GrpPerm -> GrpPerm
NormalComplements(G, H, N) : GrpPC, GrpPC -> SeqEnum
NormalComplements(G, N) : GrpPC, GrpPC -> SeqEnum
GrpPC_NormalComplements (Example H22E21)
NormalElement(F) : FldFin -> FldFinElt
NormalElement(F, E) : FldFin, FldFin -> FldFinElt
NormalForm(~u: parameters) : GrpBrdElt ->
LeftNormalForm(~u: parameters) : GrpBrdElt ->
LeftNormalForm(u: parameters) : GrpBrdElt -> GrpBrdElt
NormalForm(f, I) : AlgFrElt, AlgFr -> AlgFrElt
NormalForm(f, S) : AlgFrElt, [ AlgFrElt ] -> AlgFrElt
NormalForm(f, M) : ModMPolElt, ModMPol -> ModMPolElt
NormalForm(f, I) : RngMPolElt, RngMPol -> RngMPolElt
NormalForm(f, S) : RngMPolElt, [ RngMPolElt ] -> RngMPolElt
GrpBrd_NormalForm (Example H33E3)
NormalizaionCoefficient(e) : HilbSpc -> FldComElt
NormalisaionCoefficient(e) : HilbSpc -> FldComElt
NormalizaionCoefficient(e) : HilbSpc -> FldComElt
NormalisaionCoefficient(e) : HilbSpc -> FldComElt
NoetherNormalisation(X) : GRSch -> Tup
NoetherNormalisation(I) : RngMPol -> [RngMPolElt],Map,Map
Normalisation(e) : HilbSpcElt -> HilbSpcElt
Normalisation(I) : RngMPol -> List
GB_Normalisation (Example H94E23)
Noether Normalisation (IDEAL THEORY AND GRÖBNER BASES)
Normalisation (IDEAL THEORY AND GRÖBNER BASES)
Normalisation and Noether Normalisation (IDEAL THEORY AND GRÖBNER BASES)
Normalize( g) : GrpLieElt ->
Normalise( g) : GrpLieElt ->
Normalise(u) : ModTupFldElt -> ModTupFldElt
Normalize(u) : ModTupElt -> ModTupElt
Normalize(x) : RngIntRes -> RngIntResElt, RngIntResElt
IsNormalised(B, action) : Grp, Map -> BoolElt
ClassicalSylowNormaliser(G,P,type,p) : GrpMat, GrpMat, MonStgElt, RngIntElt -> GrpMatElt
ExtraSpecialNormaliser(G) : GrpMat -> SeqEnum
IsExtraSpecialNormaliser(G) : GrpMat -> BoolElt
Normaliser(L, K) : AlgLie, AlgLie -> AlgLie
Normaliser(G, H) : GrpFP, GrpFP -> GrpFP
Normaliser(G, H) : GrpGPC, GrpGPC -> GrpGPC
Normaliser(e, f) : SubGrpLatElt, SubGrpLatElt -> SubGrpLatElt
Normalizer(G, H) : GrpAb, GrpAb -> GrpAb
Normalizer(G, H) : GrpFin, GrpFin -> GrpFin
Normalizer(G, H) : GrpPC, GrpPC -> GrpPC
Normalizer(G, H) : GrpPerm, GrpPerm -> GrpPerm
NormalizerCode(Q) : CodeQuantum -> CodeAdd
NormalizerMatrix(Q) : CodeQuantum -> ModMatFldElt
SymmetricNormalizer(G) : GrpPerm -> GrpPerm
SystemNormalizer(G) : GrpPC -> GrpPC
NormaliserCode(Q) : CodeQuantum -> CodeAdd
NormalizerCode(Q) : CodeQuantum -> CodeAdd
NormaliserMatrix(Q) : CodeQuantum -> ModMatFldElt
NormalizerMatrix(Q) : CodeQuantum -> ModMatFldElt
ExistsNormalizingCoset(P) : GrpFPCosetEnumProc -> BoolElt, GrpFPElt
ExistsNormalisingCoset(P) : GrpFPCosetEnumProc -> BoolElt, GrpFPElt
IsNormalising(G) : GrpLie -> BoolElt
IsSelfNormalising(G, H) : GrpGPC, GrpGPC -> BoolElt
IsSelfNormalizing(G, H) : GrpFin, GrpFin -> BoolElt
IsSelfNormalizing(G, H) : GrpPerm, GrpPerm -> BoolElt
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