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Subindex: projective  ..  projectivity


projective

   Indecomposable Projective Modules (BASIC ALGEBRAS)
   Projective Automorphisms (SCHEMES)
   Projective Covers and Resolutions (BASIC ALGEBRAS)
   Projective Resolutions (BASIC ALGEBRAS)
   Resolution of a Nonprojective Toric Variety (TORIC VARIETIES)
   The Connection between Projective and Affine Planes (FINITE PLANES)
   The Construction of Projective Indecomposable Modules (K[G]-MODULES AND GROUP REPRESENTATIONS)
   The Projective Plane as a Toric Variety (TORIC VARIETIES)

Projective Indecomposables

   ModGrp_Projective Indecomposables (Example H90E19)

projective-affine

   The Connection between Projective and Affine Planes (FINITE PLANES)

projective-automorphism-group

   Scheme_projective-automorphism-group (Example H112E45)

projective-automorphisms

   Projective Automorphisms (SCHEMES)

projective-closure

   Scheme_projective-closure (Example H112E20)

projective-closure-incorrect

   Scheme_projective-closure-incorrect (Example H112E21)

projective-covers

   Projective Covers and Resolutions (BASIC ALGEBRAS)

projective-indecomposable-modules

   The Construction of Projective Indecomposable Modules (K[G]-MODULES AND GROUP REPRESENTATIONS)

projective-plane

   The Projective Plane as a Toric Variety (TORIC VARIETIES)

projective-resolutions

   Projective Resolutions (BASIC ALGEBRAS)

ProjectiveClosure

   ProjectiveClosure(f) : MapSch -> MapSch
   ProjectiveClosure(A): Sch -> Sch
   ProjectiveClosure(C) : Sch -> Sch
   ProjectiveClosure(X) : Sch -> Sch

ProjectiveClosureMap

   PCMap(A) : Aff -> MapSch
   ProjectiveClosureMap(A) : Aff -> MapSch

ProjectiveCover

   ProjectiveCover(M) : ModAlg -> ModAlg, ModMatFldElt, SeqEnum[ModMatFldElt], SeqEnum[ModMatFldElt], SeqEnum[RngIntElt]
   ProjectiveCover(M) : ModGrp -> ModGrp, ModMatGrpElt

ProjectiveEmbedding

   ProjectiveEmbedding(P) : PlaneAff -> PlaneProj, PlanePtSet, PlaneLnSet, Map

ProjectiveFunction

   ProjectiveFunction(f) : FldFunFracSchElt -> FldFracElt
   ProjectiveFunction(f) : FldFunFracSchElt -> RngFunFracElt

ProjectiveGammaLinearGroup

   PGammaL(arguments)
   ProjectiveGammaLinearGroup(arguments)

ProjectiveGammaUnitaryGroup

   PGammaU(arguments)
   ProjectiveGammaUnitaryGroup(arguments)

ProjectiveGeneralLinearGroup

   PGL(arguments)
   ProjectiveGeneralLinearGroup(arguments)

ProjectiveGeneralOrthogonalGroup

   ProjectiveGeneralOrthogonalGroup(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
   PGO(arguments)

ProjectiveGeneralOrthogonalGroupMinus

   ProjectiveGeneralOrthogonalGroupMinus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
   PGOMinus(arguments)

ProjectiveGeneralOrthogonalGroupPlus

   ProjectiveGeneralOrthogonalGroupPlus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
   PGOPlus(arguments)

ProjectiveGeneralUnitaryGroup

   PGU(arguments)
   ProjectiveGeneralUnitaryGroup(arguments)

ProjectiveIndecomposableDimensions

   ProjectiveIndecomposableDimensions(G, K) : Grp, FldFin -> SeqEnum

ProjectiveIndecomposableModule

   ProjectiveIndecomposableModule(I: parameters) : ModGrp -> ModGrp

ProjectiveIndecomposableModules

   ProjectiveIndecomposableModules(G, K: parameters) : Grp, FldFin -> SeqEnum

Projectively

   IsProjectivelyIrreducible(R) : RootStr -> BoolElt
   IsProjectivelyIrreducible(R) : RootSys -> BoolElt

ProjectiveMap

   ProjectiveMap(f, Y) : FldFunFracSchElt, Sch -> MapSch
   ProjectiveMap(L, Y) : [FldFunFracSchElt], Sch -> MapSch

ProjectiveModule

   ProjectiveModule(B, i) : AlgBas, RngIntElt -> ModRng
   ProjectiveModule(B, S) : AlgBas, SeqEnum[RngIntElt] -> ModAlg, SeqEnum, SeqEnum

ProjectiveOmega

   POmega(arguments)
   ProjectiveOmega(arguments)

ProjectiveOmegaMinus

   POmegaMinus(arguments)
   ProjectiveOmegaMinus(arguments)

ProjectiveOmegaPlus

   POmegaPlus(arguments)
   ProjectiveOmegaPlus(arguments)

ProjectiveOrder

   ProjectiveOrder(a) : AlgMatElt -> RngIntElt
   ProjectiveOrder(A) : AlgMatElt -> RngIntElt, RngElt
   ProjectiveOrder(g) : GrpMatElt -> RngIntElt, RngElt

ProjectivePlane

   ProjectivePlane( N : parameters) : Nfd -> PlaneProj, PlanePtSet, PlaneLnSet
   ProjectiveSpace(k,n) : Rng,RngIntElt -> Prj

ProjectiveRationalFunction

   ProjectiveRationalFunction(f) : FldFunFracSchElt -> FldFunRatMElt

ProjectiveResolution

   ProjectiveResolution(M, n) : ModAlg, RngIntElt -> ModCpx, ModMatFldElt
   ProjectiveResolution(M, n) : ModAlgBas, RngIntElt -> ModCpx, ModMatFldElt
   ProjectiveResolution(PR) : Rec -> ModCpx, ModMatFldElt

ProjectiveResolutionPGroup

   ProjectiveResolutionPGroup(PR) : Rec -> ModCpx

Projectives

   NumberOfProjectives(B) : AlgBas -> RngIntElt

ProjectiveSigmaLinearGroup

   PSigmaL(arguments)
   ProjectiveSigmaLinearGroup(arguments)

ProjectiveSigmaSymplecticGroup

   PSigmaSp(arguments)
   ProjectiveSigmaSymplecticGroup(arguments)

ProjectiveSigmaUnitaryGroup

   PSigmaU(arguments)
   ProjectiveSigmaUnitaryGroup(arguments)

ProjectiveSpace

   ProjectiveSpace(k,n) : Fld,RngIntElt -> Prj
   ProjectiveSpace(k,W) : Fld,SeqEnum -> Prj
   ProjectiveSpace(k,n) : Rng,RngIntElt -> Prj
   ProjectiveSpace(k,n) : Rng,RngIntElt -> Prj
   ProjectiveSpace(R) : RngMPol -> Prj

ProjectiveSpecialLinearGroup

   PSL(arguments)
   ProjectiveSpecialLinearGroup(arguments)

ProjectiveSpecialOrthogonalGroup

   ProjectiveSpecialOrthogonalGroup(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
   PSO(arguments)

ProjectiveSpecialOrthogonalGroupMinus

   ProjectiveSpecialOrthogonalGroupMinus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
   PSOMinus(arguments)

ProjectiveSpecialOrthogonalGroupPlus

   ProjectiveSpecialOrthogonalGroupPlus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
   PSOPlus(arguments)

ProjectiveSpecialUnitaryGroup

   PSU(arguments)
   ProjectiveSpecialUnitaryGroup(arguments)

ProjectiveSuzukiGroup

   PSz(arguments)
   ProjectiveSuzukiGroup(arguments)

ProjectiveSymplecticGroup

   PSp(arguments)
   ProjectiveSymplecticGroup(arguments)

Projectivity

   Projectivity(A,M) : Aff,Mtrx -> MapAutSch

projectivity

   Scheme_projectivity (Example H112E44)

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Version: V2.19 of Wed Apr 24 15:09:57 EST 2013