[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: projective .. projectivity
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)
ModGrp_Projective Indecomposables (Example H90E19)
The Connection between Projective and Affine Planes (FINITE PLANES)
Scheme_projective-automorphism-group (Example H112E44)
Projective Automorphisms (SCHEMES)
Scheme_projective-closure (Example H112E19)
Scheme_projective-closure-incorrect (Example H112E20)
Projective Covers and Resolutions (BASIC ALGEBRAS)
The Construction of Projective Indecomposable Modules (K[G]-MODULES AND GROUP REPRESENTATIONS)
The Projective Plane as a Toric Variety (TORIC VARIETIES)
Projective Resolutions (BASIC ALGEBRAS)
ProjectiveClosure(f) : MapSch -> MapSch
ProjectiveClosure(A): Sch -> Sch
ProjectiveClosure(C) : Sch -> Sch
ProjectiveClosure(X) : Sch -> Sch
PCMap(A) : Aff -> MapSch
ProjectiveClosureMap(A) : Aff -> MapSch
ProjectiveCover(M) : ModAlg -> ModAlg, ModMatFldElt, SeqEnum[ModMatFldElt], SeqEnum[ModMatFldElt], SeqEnum[RngIntElt]
ProjectiveCover(M) : ModGrp -> ModGrp, ModMatGrpElt
ProjectiveEmbedding(P) : PlaneAff -> PlaneProj, PlanePtSet, PlaneLnSet, Map
ProjectiveFunction(f) : FldFunFracSchElt -> FldFracElt
ProjectiveFunction(f) : FldFunFracSchElt -> RngFunFracElt
PGammaL(arguments)
ProjectiveGammaLinearGroup(arguments)
PGammaU(arguments)
ProjectiveGammaUnitaryGroup(arguments)
PGL(arguments)
ProjectiveGeneralLinearGroup(arguments)
ProjectiveGeneralOrthogonalGroup(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
PGO(arguments)
ProjectiveGeneralOrthogonalGroupMinus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
PGOMinus(arguments)
ProjectiveGeneralOrthogonalGroupPlus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
PGOPlus(arguments)
PGU(arguments)
ProjectiveGeneralUnitaryGroup(arguments)
ProjectiveIndecomposableDimensions(G, K) : Grp, FldFin -> SeqEnum
ProjectiveIndecomposableModule(I: parameters) : ModGrp -> ModGrp
ProjectiveIndecomposableModules(G, K: parameters) : Grp, FldFin -> SeqEnum
IsProjectivelyIrreducible(R) : RootStr -> BoolElt
IsProjectivelyIrreducible(R) : RootSys -> BoolElt
ProjectiveMap(f, Y) : FldFunFracSchElt, Sch -> MapSch
ProjectiveMap(L, Y) : [FldFunFracSchElt], Sch -> MapSch
ProjectiveModule(B, i) : AlgBas, RngIntElt -> ModRng
ProjectiveModule(B, S) : AlgBas, SeqEnum[RngIntElt] -> ModAlg, SeqEnum, SeqEnum
POmega(arguments)
ProjectiveOmega(arguments)
POmegaMinus(arguments)
ProjectiveOmegaMinus(arguments)
POmegaPlus(arguments)
ProjectiveOmegaPlus(arguments)
ProjectiveOrder(a) : AlgMatElt -> RngIntElt
ProjectiveOrder(A) : AlgMatElt -> RngIntElt, RngElt
ProjectiveOrder(g) : GrpMatElt -> RngIntElt, RngElt
ProjectivePlane( N : parameters) : Nfd -> PlaneProj, PlanePtSet, PlaneLnSet
ProjectiveSpace(k,n) : Rng,RngIntElt -> Prj
ProjectiveRationalFunction(f) : FldFunFracSchElt -> FldFunRatMElt
ProjectiveResolution(M, n) : ModAlg, RngIntElt -> ModCpx, ModMatFldElt
ProjectiveResolution(M, n) : ModAlgBas, RngIntElt -> ModCpx, ModMatFldElt
ProjectiveResolution(PR) : Rec -> ModCpx, ModMatFldElt
ProjectiveResolutionPGroup(PR) : Rec -> ModCpx
NumberOfProjectives(B) : AlgBas -> RngIntElt
PSigmaL(arguments)
ProjectiveSigmaLinearGroup(arguments)
PSigmaSp(arguments)
ProjectiveSigmaSymplecticGroup(arguments)
PSigmaU(arguments)
ProjectiveSigmaUnitaryGroup(arguments)
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
PSL(arguments)
ProjectiveSpecialLinearGroup(arguments)
ProjectiveSpecialOrthogonalGroup(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
PSO(arguments)
ProjectiveSpecialOrthogonalGroupMinus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
PSOMinus(arguments)
ProjectiveSpecialOrthogonalGroupPlus(n, q) : RngIntElt, RngIntElt -> GrpPerm, { at ModTupFldElt atbrace
PSOPlus(arguments)
PSU(arguments)
ProjectiveSpecialUnitaryGroup(arguments)
PSz(arguments)
ProjectiveSuzukiGroup(arguments)
PSp(arguments)
ProjectiveSymplecticGroup(arguments)
Projectivity(A,M) : Aff,Mtrx -> MapAutSch
Scheme_projectivity (Example H112E43)
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012