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Subindex: diff-cart .. Differential
FldFunG_diff-cart (Example H42E44)
RngDiff_diff-field-ext-exp-log (Example H111E27)
RngDiff_diff-field-ext-ext (Example H111E26)
RngDiff_diff-field-ext-operator (Example H111E25)
RngDiff_diff-field-purely-ramified-ext-ADF (Example H111E28)
RngDiff_diff-field-purely-ramified-ext-DLSR-1 (Example H111E29)
RngDiff_diff-field-purely-ramified-ext-DLSR-2 (Example H111E30)
FldFunG_diff-fun (Example H42E42)
RngDiff_diff-ideal-quotient (Example H111E31)
RngDiff_diff-laur-ser-related-structures (Example H111E6)
RngDiff_diff-laur-ser-ring-create (Example H111E3)
RngDiff_diff-op-arithmetic (Example H111E39)
RngDiff_diff-op-coeff-terms (Example H111E40)
Derivation and Differential (DIFFERENTIAL RINGS)
RngDiff_diff-op-ring-purely-ramified-extension-DLSR (Example H111E47)
RngDiff_diff-op-ring_booleans (Example H111E36)
RngDiff_diff-op-ring_booleans-LSR (Example H111E37)
RngDiff_diff-op-ring_related_structures (Example H111E35)
RngDiff_diff-op-rings-relative-precision (Example H111E38)
RngDiff_diff-ring-change-derivation (Example H111E18)
RngDiff_diff-ring-change-differential (Example H111E19)
RngDiff_diff-ring-completion-create (Example H111E22)
RngDiff_diff-ring-completion-elliptic (Example H111E23)
RngDiff_diff-ring-constant-field-extension (Example H111E20)
RngDiff_diff-ring-constant-field-extension-series (Example H111E21)
RngDiff_diff-ring-create (Example H111E1)
RngDiff_diff-ring-derivation-differential (Example H111E7)
RngDiff_diff-ring-element-creation (Example H111E4)
RngDiff_diff-ring-elts-booleans (Example H111E13)
RngDiff_diff-ring-ext-operator (Example H111E24)
RngDiff_diff-ring-related-structures (Example H111E5)
RngDiff_diff-rings-booleans (Example H111E8)
RngDiff_diff-rings-booleans-derivation (Example H111E9)
RngDiff_diff-rings-change-precision (Example H111E12)
RngDiff_diff-rings-relative-precision (Example H111E10)
Interaction of Covariants and Contravariants (ALGEBRAIC SURFACES)
Difference(X, Y) : Sch, Sch -> Sch
DifferenceSet(p, t) : RngIntElt, MonStgElt -> { RngIntResElt }
IsDifferenceSet(B) : SetEnum -> BoolElt, RngIntElt
SingerDifferenceSet(n, q) : RngIntElt, RngIntElt -> { RngIntResElt }
WordDifferenceAutomaton(G) : GrpAtc -> Rec
WordDifferenceSize(G) : GrpAtc -> RngIntElt, RngIntElt
WordDifferences(G) : GrpAtc -> SeqEnum
DifferenceSet(p, t) : RngIntElt, MonStgElt -> { RngIntResElt }
Different(O) : RngFunOrd -> RngFunOrdIdl
Different(a) : RngFunOrdElt -> RngFunOrdElt
Different(I) : RngFunOrdIdl -> RngFunOrdIdl
Different(O) : RngOrd -> RngOrdIdl
Different(a) : RngOrdElt -> RngOrdElt
Different(I) : RngOrdFracIdl -> RngOrdFracIdl
DifferentDivisor(F) : FldFunG -> DivFunElt
DifferentDivisor(F) : FldFunG -> DivFunElt
ChangeDifferential(F, df) : RngDiff, DiffFunElt -> RngDiff, Map
ChangeDifferential(R, df) : RngDiffOp, DiffFunElt -> RngDiffOp, Map
Differential(a) : FldFunFracSchElt -> DiffCrvElt
Differential(a) : FldFunGElt -> DiffFunElt
Differential(F) : RngDiff -> DiffFunElt
Differential(s) : RngDiffElt -> RngDiffElt
Differential(R) : RngDiffOp -> DiffFunElt
DifferentialBasis(D) : DivCrvElt -> SeqEnum
DifferentialBasis(D) : DivCrvElt -> [DiffCrvElt]
DifferentialBasis(D) : DivFunElt -> [DiffFunElt]
DifferentialBasis(D) : DivFunElt -> [DiffFunElt]
DifferentialFieldExtension(L) : RngDiffOpElt, -> RngDiff
DifferentialIdeal(L) : [RngDiffElt] -> RngMPol
DifferentialLaurentSeriesRing(C) : Fld -> RngDiff
DifferentialOperator(f) : RngUPolElt -> RngDiffOpElt
DifferentialOperatorRing(F) : RngDiff -> RngDiffOp
DifferentialRing(P, f, C) : Rng, Map, Rng -> RngDiff
DifferentialRingExtension(L) : RngDiffOpElt -> RngDiff
DifferentialSpace(C) : Crv -> DiffCrv
DifferentialSpace(D) : DivCrvElt -> ModFld, Map
DifferentialSpace(D) : DivCrvElt -> ModFld,Map
DifferentialSpace(D) : DivFunElt -> ModFld, Map
DifferentialSpace(D) : DivFunElt -> ModFld, Map
DifferentialSpace(F) : FldFun -> DiffFun
DifferentialSpace(F) : FldFunG -> DiffFun
FunctionFieldPlace(p) : PlcCrvElt -> PlcFunElt
IsAlgebraicDifferentialField(R) : Rng -> BoolElt
IsDifferentialField(R) : Rng -> BoolElt
IsDifferentialIdeal(R, I) : RngDiff, RngMPol -> BoolElt
IsDifferentialLaurentSeriesRing(R) : Rng -> BoolElt
IsDifferentialOperatorRing(R) : . -> BoolElt
IsDifferentialSeriesRing(R) : Rng -> BoolElt
MonicDifferentialOperator(L) : RngDiffOpElt -> RngDiffOpElt
RationalDifferentialField(C) : Fld -> RngDiff
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Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012