by jacques » 24 May 2011, 15:16 j'ai vérifié, l'archive 806 (ton 2e lien) semble être une grosse blague : impossible de le lire avec une ti83 émulée, et le code source du programme (non visible sur calculatrice) est, d'après TI-Editor :
Show/Hide spoilerAfficher/Masquer le spoiler
:LinReg(ax+b)?RadianPlotsOn ≤≠?randM(randM(randM(!randM(randM(Circle(ZrandM(randM(randM(randM(/i/getKeyrandM(randM(randM(seq(ITEngPlotsOn ≠AnsGet(≤DegreerandM(RadianDegreeFix randM(SciDegree≥Radian?≤DegreeFix seq(IrandM(randM(randM(seq(1randM(Radian?Fix randM(DegreerandM(?Fix randM(≠FullrandM(?Func?Float?DegreerandM(≠QuadReg randM(PolarrandM(HorizDegree≥RadianFix randM(FuncDegreeAnsFix randM(fMin(Float≥NormalFloat≥FloatCubicReg seq(2randM(randM(randM(randM(seq(1S≠FloatHorizrandM(ZStandard:0randM(-FullDegree?≥-FullDegreeCubicReg randM(C≠≤≤DegreerandM(Float≤fMax(FullfMax(Polar /i/Polar/i/,ln( randM( xor randM(/i/randM(?≠AnsFix randM(FloatrandM(DegreePolarFloatFix HorizDegreerandM(Full≥randM(Float≥HorizDegreeAnsFunc?DegreerandM(RadianDegreerandM(?Normal≠Ans≤DegreerandM(?ᴱ,ln(Θ/i/randM(Float≥?FullFix randM(Radian?Fix randM(?ᴱ,ln(Θ/i/Fix FullAnsrandM(Degree-FullDegreerandM(!ZStandard or FullfMax(Polar or ,ZStandardCubicReg randM(DDegreerandM(≤PlotsOff ≤DegreerandM(?≤≤DegreerandM(Float≤fMax(FuncfMax(Polar /i/Polar/i/,ln( /i/randM(?≠AnsFix randM(FloatrandM(DegreePolarFloatFix HorizDegreerandM(Full≥randM(Float≥HorizDegreeAnsFunc?DegreerandM(RadianDegreerandM(?Normal≠Ans≤DegreerandM(?fMin(ᴱ,ln(Θ/i/randM(Float≥?FullFix randM(Radian?Fix randM(?ᴱ,ln(Θ/i/randM(Fix FullAnsrandM(Degree-FullDegreerandM(!ZStandard or FuncfMax(Polar or ,ZStandardCubicReg randM(randM(N≠Horiz≠≥Fix randM(Zoom InrandM(DegreerandM(+FullFix randM(SciAns?RadianrandM(RadianDegreeFix randM(RadianDegreeFullPolarrandM(AnsPlotsOn DegreeFix randM(≤randM(DegreeHorizrandM(≤fMin(CubicReg randM(randM(randM(A≠AnsFix randM(+≠FullAnsrandM(Horiz≠FullHorizrandM(Polar:Zoom In/i/randM(!ZStandard or FullfMax(Polar or NormalfMax(Polar or FuncfMax(Polar or ,ZStandardCubicReg randM(CDegree?randM(PlotsOn Horiz?HorizrandM(FuncAns?randM(+≠FullAnsrandM(≥ZoomStoFloat≤+≠AnsHorizDegreerandM(-FullDegreerandM(ZStandard:0/i/randM(≠≥randM(+DegreeFullHorizrandM(Radian≠≥ZnMin?≥?FullAnsDegreerandM(-FullDegreerandM(Float≤fMax(NormalfMax(Polar /i/Polar/i/,ln( xor CubicReg seq(2randM(randM(randM(randM(seq(ITEngPlotsOn ≠AnsGet(≤DegreerandM(RadianDegreerandM(??=Degree?Float≠≥seq(IrandM(randM(Full≥Float?HorizPlotsOn randM(RadianDegreerandM(?Fix ≠FullHorizFloat≠≥randM(randM(randM(randM(seq(1SFull++≠Fix ≠≥Fix randM(-FullDegreerandM(fMin(PlotsOn -Full?Float≠≥randM(NormalfMax(Polar xor FullHorizFloat≠≥Fix randM(RadianFloatFix HorizFloat≥?DegreeFix randM(ZnMinDegreeHorizrandM(∆YrandM(Radian?Fix randM(Θ??CubicReg randM(randM(DDegreeFullPolarrandM(?Fix randM(+≠Fix Fix Float?DegreeFix .randM(randM(!1DegreeAnsrandM(?Fix .randM(?∆YrandM(randM(M?Fix randM(?≠AnsFix randM(?≤≤DegreerandM(NormalrandM(DegreeFix HorizrandM(Fix HorizAnsFloat?Degree≤Degree≥HorizrandM(?≠FloatFix Fix Fix ?HorizDegree/i/randM(NormalfMax(YFact or NormalfMax(∆Y CubicReg randM(CDegreerandM(-FullFloatrandM(?≥HorizAnsDegreeRadianFloatHorizrandM(-FullDegreerandM(ZnMinDegreeHorizrandM(∆YrandM(Fix ≠≥HorizrandM(Fix ≠FullHorizFloat≠≥randM(RadianDegreerandM(fMin(PlotsOn -Full?Float≠≥randM(NormalfMax(Polar xor ="" cubicreg="" randm(randm(!2get(≤degreerandm(?fix="" .randm(?∆yrandm(randm(m?fix="" randm(?≠ansfix="" randm(normalfmax(yfact:normalfmax(∆y="" randm(cdegreerandm(-fullfloatrandm(?≥horizansdegreeradianfloathorizrandm(output(randm(≥≠fullfuncdegree?randm(-fulldegreerandm(normalfmax(yfact="" fMin(PlotsOn -Full?Float≠≥randM(NormalfMax(Polar xor DegreerandM(Fix ≠FullHorizFloat≠≥CubicReg seq(2randM(randM(randM(randM(seq(IDPlotsOn AnsFloatFunc?Float≠≥randM(RadianfMin(Full≥DegreerandM(Normal≠≥?Float≠≥randM(?≤+≠Fix PlotsOn Degreeseq(IrandM(randM(randM(randM(seq(1FloatSci≥≠AnsDegreeAnsrandM(DegreeFix randM(solve(CubicReg solve(randM(Radian?Fix randM(DegreeFix randM(Normal≠Ans≤FullDegreeFix randM(?AnsGet(Fix randM(DegreeFix randM(solve(‾solve(CubicReg randM(LDegreerandM(SeqrandM(Radian≠FloatHorizrandM(PlotsOff HorizAnsDegreerandM(AnsDegree≤+?PlotsOn randM(+?randM(Full≥randM(SciAns?RadianrandM(XrandM(+≠FullAnsrandM(Full≥DegreerandM(RadianPlotsOn ≤≠≥Fix HorizAns?Float≠≥randM(+FullFix randM(??PlotsOn ≤Float-FullDegreeCubicReg seq(2randM(randM(randM(randM(S≠FloatHorizrandM(PolarrandM(Full≥randM(AnsPlotsOn DegreerandM(-FullDegree?≥-FullDegreerandM(?+?HorizDegree≥?HorizrandM(Output(randM(IrandM(DegreeHorizrandM(RadianFloatFix HorizFloat≥?randM(RadianDegreerandM(?randM(A≠AnsFix randM(.randM(randM(randM(?EfMax(Func‾FullfMax(Polar !Func‾FullfMax(? QuartReg fMax(Polar!?randM(randM( xor randM(randM(?EfMax(fMax(Func‾FullfMax(Polar !Func‾FullfMax(? QuartReg fMax(FullfMax(Polar !FullfMax(? "fMax(fMax(fMax(FullfMax(Polar !FullfMax(? QuartReg fMax(Polar!? randM(randM(EHorizFullRadianFloat≠≥Fix randM(?Float≤FloatHorizDegreerandM(RadianDegreerandM(??Full≥randM(RadianDegreerandM(?Fix randM(RadianDegreeFullPolarrandM(-Full≠HorizFloatDegree≥HorizFix randM(≠AnsFix -FullDegreerandM(PolarrandM(HorizDegree≥RadianrandM(FuncDegreeAnsFix randM(?.randM(randM(C≠≤≤DegreerandM(FullrandM(DegreeFix HorizrandM(RadianPlotsOn AnsFloatFunc?DegreerandM(Degree≥randM(?randM(randM(randM(?EFloat≤fMax(fMax(fMax(FullfMax(Polar !FullfMax(? QuartReg fMax(Polar!? xor FullfMin(fMax(?/i/Polar/i/?randM(randM(P?randM(?DegreeFullAnsFix /i/randM(Degree≥randM(+≠Fix ?HorizrandM(Y xor FullfMax(Polar /i/randM(≠≥randM(?randM(randM(?EfMax(Func‾FullfMax(Polar !Func‾FullfMax(? QuartReg fMax(FullfMax(Polar !FullfMax(? randM(randM( xor randM(randM(?EfMax(FuncfMax(FullfMax(Polar !FuncfMax(FullfMax(? QuartReg fMax(FullfMax(Polar !FullfMax(? randM(randM( xor randM(randM(?EfMax(FuncfMax(Y !FuncfMax(β1 QuartReg fMax(Y!β1randM(randM(randM(randM(seq(1OAnsrandM(Float≤fMax(FullfMax(Polar /i/Polar/i/? xor FullfMax(? xor y3?AnsrandM(FullrandM(DegreeFix HorizrandM(?≥HorizFloat≥FullDegreerandM(Degree≥randM(?fMax(+FullFloatFix -FullDegreerandM(RadianPlotsOn AnsFloatFunc?DegreerandM(Degree≥randM(?randM(DegreeHorizseq(2randM(randM(?EFloat≤fMax(fMax(FuncfMax(Y !FuncfMax(β1 QuartReg fMax(Y!β1/i/Y/i/β1 xor FuncfMin(fMax(β1randM(randM(?AnsrandM(FuncrandM(DegreeFix HorizrandM(RadianPlotsOn AnsFloatFunc?DegreerandM(Degree≥randM(ˉx2randM(D≠≥ZnMin+?randM(?≤+≠Fix FloatHorizFloat≠≥randM(.randM(randM(randM(?EFloat≤fMax(fMax(Func‾FullfMax(Polar !Func‾FullfMax(? QuartReg fMax(FullfMax(Polar !FullfMax(? /i/Polar/i/? xor FuncfMin(fMax(β1randM(randM(P?randM(+Ans≠RadianFullFloatHoriz/i/randM(≠≥randM(+DegreeFullHorizrandM(Radian≠≥ZnMin?≥?FullAnsDegreerandM(-FullDegreerandM(.randM(randM(?EFloat≤fMax(fMax(Func‾FullfMax(Polar !Func‾FullfMax(? QuartReg fMax(Polar!?/i/Polar/i/? xor FullfMin(fMax(?"FuncfMin(fMax(β1randM(randM( xor randM(randM(?EFullfMin(fMax(?"FuncfMin(fMax(FullfMax(? randM(randM(L?Normal≠≥?Float≠≥randM(Func‾FullrandM(DegreeFix HorizrandM(Radian≠≥ZnMinRadianPlotsOn AnsFloatFunc?DegreerandM(Degree≥randM(?DegreeHorizrandM(Fix ≠≥randM(≥≠≤?DegreerandM(RadianPlotsOn AnsFloatFuncPlotsOn randM(Degree≥randM(?DegreeFix HorizrandM(randM(randM(?EFuncfMin(fMax(? xor FullfMin(fMax(?"FuncfMin(fMax(FullfMax(? randM(randM(randM(randM(seq(IU≥Float?HorizPlotsOn randM(RadianDegreerandM(fMin(PlotsOn -Full?Float≠≥randM(SeqfMin( xor SeqrandM(?DegreeZnMin?≥RadianFloatHorizFloat≠≥randM(Float≥FloatHorizFloat?DegreerandM(SeqfMax(0 xor 1seq(IrandM(randM(randM(randM(seq(1S≠FloatDegree≥HorizrandM(NormalrandM(DegreeHorizrandM(ScirandM(RadianDegreeFullPolarrandM(Normal≠≥?Float≠≥Fix randM(RadianPlotsOn AnsFloatFunc?DegreeFix randM(Fix FullAnsrandM(RrandM(DegreeHorizrandM(AnsPlotsOn +≠≥Radian?HorizrandM(Horiz≠FullHorizDegreeFix randM(RadianDegreeFullPolarrandM(?PolarrandM(?≥RadianFloatHorizFloat≠≥Fix randM(randM(SeqfMin( xor SeqrandM(randM(SeqfMax(0 xor 1randM(randM(randM(randM(!S≠FloatHorizrandM(PrintScreenrandM(?Normal≠≥?Float≠≥randM(RadianPlotsOn NormalFloat≥FloatDegreerandM(Fix FullAnsrandM(RrandM(+?randM(.randM(PrintScreenfMax(Polar xor NormalfMax(Polar "NormalfMax(!Polar CubicReg randM(CDegreeHorizHorizDegreerandM(Normal≠≥?Float≠≥randM(DegreeFix HorizrandM(RadianPlotsOn AnsFloatFunc?DegreerandM(Fix FullAnsrandM(RrandM(?≤≤DegreerandM(+Ans≠RadianFullFloatHorizrandM(RadianDegreerandM(RadianDegreeFullPolarrandM(Normal≠≥?Float≠≥Fix randM(RadianPlotsOn AnsFloatFunc?DegreeFix randM(Fix FullAnsrandM(RrandM(DegreeHorizrandM(randM(randM(PrintScreenfMin(fMax(Polar xor NormalfMin(fMax(Polar "NormalfMax(!Polar ,NormalfMax(Polar "fMax(!NormalfMin(fMax(Polar randM(randM(M?Fix randM(RadianfMin(?AnsGet(Fix randM(fMin(EngSeq+≠HorizEngGet(Fix DegreerandM(NormalfMin( xor Normal/i/randM(NormalfMin(fMax(Polar xor NormalfMax(Polar randM(DegreeHorizrandM(NormalfMin(fMax(!Polar xor NormalfMax(!Polar randM(+≠FullAnsrandM(Horiz≠FullHorizrandM(AnsPlotsOn DegreerandM(PolarCubicReg randM(O≥randM(RadianPlotsOn ≤≠≥HorizAnsDegreerandM(?≥Fix FloatrandM(-FullDegreerandM(PrintScreenfMin(randM(DegreeFix HorizrandM(?Normal≠≥?Float≠≥randM(randM(≥FullDegreerandM(Fix FullAnsrandM(RCubicReg randM(P?randM(?≥Fix PlotsOn -FullDegree≥HorizrandM(PrintScreenrandM(DegreeFix HorizrandM(?≥Fix Horiz?HorizDegreerandM(Fix FullAnsrandM(RCubicReg randM(OAnsrandM(PrintScreenfMax(0 xor NormalfMax(0 "NormalfMax(0 xor 1CubicReg randM(randM(randM(D≠≥ZnMinPrintScreenrandM(DegreeFix HorizrandM(?≥Fix Horiz?HorizDegreerandM(DegreeHorizrandM(PlotsOn Sci?DegreerandM(Output(randM(1randM(Fix FullAnsrandM(RCubicReg randM(randM(randM(randM(!S≠FloatHorizrandM(≤?≥HorizDegree≥?HorizrandM(?Normal≠≥?Float≠≥randM(ZoomStorandM(RadianPlotsOn NormalFloat≥FloatDegreerandM(Fix FullAnsrandM(RrandM(+?randM(.randM(ZoomStofMax(Polar xor NormalfMax(!Polar "ScifMax(Polar CubicReg randM(CDegreeHorizHorizDegreerandM(randM(randM(randM(randM(Normal≠≥?Float≠≥randM(DegreeFix HorizrandM(Degree≥?AnsDegreerandM(RadianPlotsOn AnsFloatFunc?DegreerandM(Fix FullAnsrandM(RrandM(DegreeHorizrandM(randM(randM(ZoomStofMin(fMax(Polar xor !NormalfMin(fMax(Polar "ScifMax(Polar ,NormalfMax(!Polar "ScifMin(fMax(Polar randM(randM(C≠≤+HorizDegreerandM(HorizDegree≥FullrandM(RadianDegreeFix randM(EngSeq+≠HorizEngGet(Fix DegreeFix randM(Fix FullAnsrandM(NormalrandM(DegreeHorizrandM(Sci/i/randM(NormalfMin( xor NormalrandM(DegreeHorizrandM(ScifMin( xor Sci/i/randM(+≠FullAnsrandM(Horiz≠FullHorizrandM(AnsPlotsOn DegreerandM(PolarrandM(NormalfMin(fMax(!Polar xor NormalfMax(!Polar randM(DegreeHorizrandM(ScifMin(fMax(Polar xor ScifMax(Polar CubicReg randM(IrandM(Degree≥randM(RadianPlotsOn ?FullDegreerandM(-FullDegreerandM(ZoomStofMin(randM(DegreeFix HorizrandM(?Normal≠≥?Float≠≥randM(≥FullDegreeCubicReg randM(D≠≥ZnMinZoomStorandM(DegreeFix HorizrandM(?≥Fix Horiz?HorizDegreerandM(Fix FullAnsrandM(RrandM(DegreeHorizrandM(?≤≤DegreerandM(ZoomStofMax(0 xor NormalfMax(0 "ScifMax(0 xor 1/i/ZoomStorandM(DegreeFix HorizrandM(PlotsOn Sci?DegreerandM(Output(randM(1randM(Fix FullAnsrandM(RCubicReg randM(randM(randM(randM(!LDegreeFix randM(Normal≠≥?Float≠≥Fix randM(ZoomStorandM(DegreeHorizrandM(PrintScreenrandM(Fix ≠≥HorizrandM(Radian≠≥ZnMinPlotsOn Sci?DegreeFix randM(Output(randM(1randM(Fix FullAnsrandM(R/i/randM(∆YDegreeFix Horiz!Output(!RadianFloatAnsDegreerandM(-FullDegreerandM(+≠FullAnsrandM(Horiz≠FullHorizrandM(AnsPlotsOn DegreerandM(Polar/i/randM(NormalfMax(!Polar "NormalfMax(Polar xor NormalfMax(!Polar "ScifMax(Polar xor 1CubicReg randM(O≥randM(Degree≥randM(RadianPlotsOn RadianFullFloatHorizrandM(RadianDegreeFullPolarrandM(?≠Fix DegreeFix randM(.randM(randM(!DfMin(?≠AnsRadianrandM(-FullDegreerandM(-FullDegreerandM(-FullDegreerandM(Fix ≠FloatHorizrandM(DegreerandM(AnsPlotsOn DegreerandM(Polar/i/randM(DegreerandM(+Ans≠RadianFullFloatHorizrandM(NormalfMax(!Polar "NormalfMax(Polar randM(DegreeFix HorizrandM(≥≠≥randM(≥FullrandM(DegreeHorizrandM(Radian≠≥ZnMin-FullDegree-FullDegreerandM(Fix ≠FloatHorizrandM(PolarrandM(?+?HorizFloatDegree≥HorizrandM(Output(randM(R/i/randM(NormalfMax(!Polar Vertical 0CubicReg randM(randM(!PFullFloatFix randM(Degree≥randM(RadianFloatFuncFloatFix ?HorizrandM(??FullDegreerandM(≤Degree≤?DegreerandM(+?randM(NormalfMax(!Polar randM(fMax(randM(?randM(-FullFloatrandM(DegreeFix HorizrandM(Float?HorizDegreerandM(+FullFloatFix -FullfMin(≠≥randM(FuncFloatDegree≥HorizrandM(RadianDegreerandM(+Ans≠FullFuncDegreeAnsrandM(-FullfMin(FloatrandM(DegreeFix HorizrandM(RadianFloatNormalNormalPlotsOn AnsDegree≥HorizrandM(RadianDegreerandM(0 randM(-FullDegree/i/randM(+≠FullAnsrandM(Horiz≠FullHorizrandM(AnsPlotsOn DegreerandM(Polar/i/randM(NormalfMax(Polar xor ScifMax(Polar CubicReg randM(LDegreeFix randM(Normal≠≥?Float≠≥Fix randM(NormalrandM(DegreeHorizrandM(ScirandM(Fix ≠≥HorizrandM(Radian≠≥ZnMinPlotsOn Sci?DegreeFix CubicReg randM(CDegreerandM(-FullFloatrandM(+Ans≠FullFuncDegreerandM(fMin(Full≥Float?HorizPlotsOn randM(CubicReg randM(seq(2randM(randM(randM(randM(seq(ILFloat≤FloatHorizDegreerandM(RadianDegreerandM(DegreePolar+fMax(Polar randM(Degree≥randM(,ln(seq(IrandM(randM(randM(randM(I≥HorizAns≠RadianFullFloatFix ≠≥Fix randM(?Normal≠≥?Float≠≥randM(PrintScreenrandM(RadianPlotsOn NormalFloat≥FloatDegreerandM(Fix FullAnsrandM(RrandM(+?randM(PrintScreenfMax(Polar xor Degreeseq(1seq(EPolarseq(Eseq(2!PolarCubicReg randM(randM(PrintScreenrandM(DegreeFix HorizrandM(?Fix ≠≤≤DegreerandM(RadianDegreerandM(RadianDegreeFullPolarrandM(Normal≠≥?Float≠≥Fix randM(RadianPlotsOn AnsFloatFunc?DegreeFix randM(Fix FullAnsrandM(RrandM(Radian≠≥ZnMinDegreeDegreerandM(DegreeFix HorizrandM(DegreeDegree!≤PlotsOff ≤DegreerandM(RadianPlotsOn AnsFloatFunc?DegreerandM(Fix FullAnsrandM(RrandM(DegreeHorizrandM(PrintScreenfMin(fMax(Polar xor Degreeseq(1seq(EPolarseq(Eseq(2!1CubicReg randM(randM(randM(randM(randM(C≠≤≤DegreerandM(?Normal≠≥?Float≠≥randM(DegreePolar+≠≥Degree≥HorizFloatDegreeDegreerandM(DegreeFix HorizrandM(Fix HorizAnsFloat?Degree≤Degree≥HorizrandM(?≠FloatFix Fix ?HorizDegreerandM(Fix FullAnsrandM(RrandM(DegreeHorizrandM(-FullDegreerandM(FnOn seq(1seq(E0seq(Eseq(2 xor 1/i/≠≥randM(Degree≥randM(RadianPlotsOn RadianFullFloatHorizrandM(-FullDegreerandM(-FullDegree-FullDegreerandM(Fix ≠FloatHorizrandM(Polar or 0/i/randM(Degreeseq(1seq(EPolarseq(Eseq(2:1randM(DegreeHorizrandM(-FullDegreerandM(-FullDegree-FullDegreerandM(Fix ≠FloatHorizrandM(Polar:0/i/randM(Degreeseq(1seq(EPolarseq(Eseq(2:1CubicReg randM(D≠≥ZnMinPrintScreenfMin(randM(DegreeFix HorizrandM(Fix HorizAnsFloat?Degree≤Degree≥HorizrandM(≥PlotsOn Sci?FloatFuncDegreerandM(Fix FullAnsrandM(?ln(ᴱ0ΘrandM(DegreeHorizrandM(Fix HorizAnsFloat?Degree≤Degree≥HorizrandM(+≠Fix FloatHorizFloatFuncDegreerandM(Fix FullAnsrandM(?ᴱ,ln(ΘCubicReg randM(randM(randM(D≠≥ZnMin?Normal≠≥?Float≠≥randM(PrintScreenrandM(DegreeFix HorizrandM(Fix HorizAnsFloat?Degree≤Degree≥HorizrandM(RadianPlotsOn ?≠FloatFix Fix ?HorizDegreerandM(Fix FullAnsrandM(Rseq(1seq(E!seq(Eseq(2randM(DegreeHorizrandM(Fix HorizAnsFloat?Degree≤Degree≥HorizrandM(?≠FloatFix Fix ?HorizDegreerandM(Fix FullAnsrandM(Rseq(1seq(E,seq(Eseq(2CubicReg randM(EDegreerandM(?HorizDegreeFloat≥HorizrandM(Radian≠≥ZnMinFix ≠≥randM(≤Float≥Float≤Full≤randM(+≠FullAnsrandM(Polar xor 0CubicReg randM(OAnsrandM(PrintScreenfMax(0 xor 1/i/randM(Radian≠≥ZnMin-FullDegree-FullDegreerandM(Fix ≠FloatHorizrandM(PolarrandM(?+?HorizFloatDegree≥HorizrandM(Output(randM(R/i/randM(PrintScreenfMax(Polar Pt-On(1CubicReg randM(L?Normal≠≥?Float≠≥randM(PrintScreenrandM(DegreeFix HorizrandM(Radian≠≥ZnMinFix HorizAnsFloat?Degree≤Degree≥HorizrandM(+≠Fix FloatHorizFloatFuncDegreeCubicReg randM(DfMin(≠QuadReg randM(-FullDegree-FullDegreerandM(Fix ≠FloatHorizrandM(PolarrandM(?+?HorizFloatDegree≥HorizrandM(Output(randM(R/i/randM(Degreeseq(1seq(EPolarseq(Eseq(2:PolarCubicReg randM(randM(randM(O≥randM(+DegreeFullHorizrandM(≤?≥HorizDegree≥?HorizrandM(FullHorizFloatFloatFix DegreeAnsrandM(DegreerandM(HorizEngPlotsOn ≠AnsGet(≤DegreerandM(RadianDegreerandM(?≤+??Fix ≠≥randM(.randM(randM(Float≤fMax(Polar/i/Polar/i/,ln( randM(Radian≠≥ZnMinFloat≤fMax(Degreeseq(1seq(EPolarseq(Eseq(2/i/Polar/i/,ln( xor ,ln(randM(?LinReg(ax+b
)
)
...
Pour l'autre, à la limite tu peux renommer le fichier .8xp en .83p (change l'extension), mais j'ai testé et ça ne marche pas terrible. En fait le programme a été fait sur une ti83+ et n'est pas vraiment compatible avec les ti82stats.
