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ADynamicModelofAggregateDemandandAggregateSupply14ADynamicModelofAggregateDInthischapter,youwilllearn:howtoincorporatedynamicsintothe
AD-ASmodelwepreviouslystudiedhowtousethedynamicAD-ASmodeltoillustratelong-runeconomicgrowthhowtousethedynamicAD-ASmodeltotraceouttheeffectsovertimeofvariousshocksandpolicychangesonoutput,inflation,andotherendogenousvariablesInthischapter,youwilllearIntroductionThedynamicmodelofaggregatedemandandaggregatesupplygivesusmoreinsightintohowtheeconomyworksintheshortrun.ItisasimplifiedversionofaDSGEmodel,
usedincutting-edgemacroeconomicresearch. (DSGE=Dynamic,Stochastic,GeneralEquilibrium)IntroductionThedynamicmodelIntroductionThedynamicmodelofaggregatedemandandaggregatesupplyisbuiltfromfamiliarconcepts,suchas:theIScurve,whichnegativelyrelatestherealinterestrateanddemandforgoods&servicesthePhillipscurve,whichrelatesinflationtothegapbetweenoutputanditsnaturallevel,expectedinflation,andsupplyshocksadaptiveexpectations,asimplemodelofinflationexpectationsIntroductionThedynamicmodelHowthedynamicAD-ASmodelisdifferentfromthestandardmodelInsteadoffixingthemoneysupply,thecentralbankfollowsamonetarypolicyrulethatadjustsinterestrateswhenoutputorinflationchange.TheverticalaxisoftheDAD-DASdiagrammeasurestheinflationrate,notthepricelevel.Subsequenttimeperiodsarelinkedtogether:
Changesininflationinoneperiodalterexpectationsoffutureinflation,whichchangesaggregatesupplyinfutureperiods,whichfurtheraltersinflationandinflationexpectations.HowthedynamicAD-ASmodelisKeepingtrackoftimeThesubscript“t”denotesthetimeperiod,e.g.Yt
=realGDPinperiodt
Yt-1=realGDPinperiodt
–1Yt+1=realGDPinperiodt
+1Wecanthinkoftimeperiodsasyears.
E.g.,ift=2008,thenYt
=Y2008
=realGDPin2008Yt-1=Y2007
=realGDPin2007Yt+1=Y2009
=realGDPin2009KeepingtrackoftimeThesubscThemodel’selementsThemodelhasfiveequationsandfiveendogenousvariables:
output,inflation,therealinterestrate,thenominalinterestrate,andexpectedinflation.Theequationsmayusedifferentnotation,
buttheyareconceptuallysimilartothings
you’vealreadylearned.Thefirstequationisforoutput…Themodel’selementsThemodelOutput:
TheDemandforGoodsandServicesoutputnaturallevelofoutputrealinterestrateNegativerelationbetweenoutputandinterestrate,sameintuitionasIScurve.Output:
TheDemandforGoodsOutput:
TheDemandforGoodsandServicesdemandshock,randomandzeroonaveragemeasurestheinterest-ratesensitivityofdemand“naturalrateofinterest”–
inabsenceofdemandshocks,whenOutput:
TheDemandforGoodsTheRealInterestRate:
TheFisherEquationnominalinterestrateexpectedinflationrateexante
(i.e.expected)realinterestrateincreaseinpricelevelfromperiodttot+1,
notknowninperiodtexpectation,formedinperiodt,
ofinflationfromttot+1TheRealInterestRate:
TheInflation:
ThePhillipsCurvepreviouslyexpectedinflationcurrentinflationsupplyshock,randomandzeroonaverageindicateshowmuchinflationrespondswhenoutputfluctuatesarounditsnaturallevelInflation:
ThePhillipsCurvExpectedInflation:
AdaptiveExpectationsForsimplicity,weassumepeopleexpectpricestocontinuerisingatthecurrentinflationrate.ExpectedInflation:
AdaptiveTheNominalInterestRate:
TheMonetary-PolicyRulenominalinterestrate,seteachperiodbythecentralbanknaturalrateofinterestcentralbank’sinflationtargetTheNominalInterestRate:
TTheNominalInterestRate:
TheMonetary-PolicyRulemeasureshowmuchthecentralbankadjuststheinterestratewheninflationdeviatesfromitstargetmeasureshowmuchthecentralbankadjuststheinterestratewhenoutputdeviatesfrom
itsnaturalrateTheNominalInterestRate:
TCASESTUDY
TheTaylorRuleEconomistJohnTaylorproposedamonetarypolicyruleverysimilartoours:iff=
+2+0.5
(
–2)–0.5
(GDPgap)
whereiff=nominalfederalfundsratetargetGDPgap=100x =percentbywhichrealGDPisbelowits
naturalrateTheTaylorRulematchesFedpolicyfairlywell.…CASESTUDY
TheTaylorRuleEconCASESTUDY
TheTaylorRuleTaylor’sruleactualFederalFundsrateCASESTUDY
TheTaylorRuleTaylThemodel’svariablesandparametersEndogenousvariables:OutputInflationRealinterestrateNominalinterestrateExpectedinflationThemodel’svariablesandparaThemodel’svariablesandparametersExogenousvariables:Predeterminedvariable:NaturallevelofoutputCentralbank’stargetinflationrateDemandshockSupplyshockPreviousperiod’sinflationThemodel’svariablesandparaThemodel’svariablesandparametersParameters:Responsivenessofdemandto
therealinterestrateNaturalrateofinterestResponsivenessofinflationtooutputinthePhillipsCurveResponsivenessofitoinflation
inthemonetary-policyruleResponsivenessofitooutput
inthemonetary-policyruleThemodel’svariablesandparaThemodel’slong-runequilibriumThenormalstatearoundwhichtheeconomyfluctuates.Twoconditionsrequiredforlong-runequilibrium:Therearenoshocks:Inflationisconstant:Themodel’slong-runequilibriThemodel’slong-runequilibriumPluggingtheprecedingconditionsintothe
model’sfiveequationsandusingalgebra
yieldstheselong-runvalues:Themodel’slong-runequilibriTheDynamicAggregateSupplyCurveTheDAScurveshowsarelationbetweenoutputandinflationthatcomesfromthePhillipsCurveandAdaptiveExpectations:(DAS)TheDynamicAggregateSupplyCTheDynamicAggregateSupplyCurveDASslopesupward:highlevelsofoutputareassociatedwithhighinflation.Y
πDAStDASshiftsinresponsetochangesinthenaturallevelofoutput,previousinflation,
andsupplyshocks.TheDynamicAggregateSupplyCTheDynamicAggregateDemandCurveToderivetheDADcurve,wewillcombinefourequationsandtheneliminatealltheendogenousvariablesotherthanoutputandinflation. Startwiththedemandforgoodsandservices:usingtheFishereq’nTheDynamicAggregateDemandCTheDynamicAggregateDemandCurveresultfrompreviousslideusingtheexpectationseq’nusingmonetarypolicyruleTheDynamicAggregateDemandCTheDynamicAggregateDemandCurveresultfrompreviousslidecombineliketerms,solveforYwhere(DAD)TheDynamicAggregateDemandCTheDynamicAggregateDemandCurveDADslopesdownward:Wheninflationrises,thecentralbankraisestherealinterestrate,reducingthedemandforgoods&services.Y
πDADshiftsinresponsetochangesinthenaturallevelofoutput,theinflationtarget,anddemandshocks.DADtTheDynamicAggregateDemandCYtTheshort-runequilibriumIneachperiod,theintersectionofDADandDASdeterminestheshort-runeq’mvaluesofinflationandoutput.πtYtY
πDADtDAStAIntheeq’mshownhereatA,outputisbelowitsnaturallevel.YtTheshort-runequilibriumInLong-rungrowthPeriodt:
initialeq’matAY
πDAStYtDADtAYtπtPeriodt+1:
Long-rungrowthincreasesthenaturalrate
ofoutput.Yt+1DASt+1DADt+1Bπt+1πt=DASshiftsbecauseeconomycanproducemoreg&sDADshiftsbecausehigherincomeraisesdemand
forg&sNeweq’matB,incomegrowsbutinflationremainsstable.Yt+1Long-rungrowthPeriodt:
initiAshocktoaggregatesupplyPeriodt–1:
initialeq’matAπt–1Yt–1Periodt:
Supplyshock
(ν>0)shifts
DASupward;inflationrises,centralbankrespondsbyraisingrealinterestrate,outputfalls.Periodt+1:
Supplyshock
isover(ν=0)
butDASdoesnotreturntoitsinitialpositionduetohigherinflationexpectations.Periodt+2:
Asinflationfalls,inflationexpectationsfall,DASmovesdownward,
outputrises.Y
πDASt-1YDADADAStYtBπtDASt+1CDASt+2DYt+2πt+2Thisprocesscontinuesuntiloutputreturnstoitsnaturalrate.LReq’matA.AshocktoaggregatesupplyPerThus,wecaninterpret
asthepercentagedeviationofoutputfromitsnaturallevel.Yt
–
YtParametervaluesforsimulationsCentralbank’sinflationtargetis2percent.A1-percentage-pointincreaseintherealinterestratereducesoutputdemandby1percentofitsnaturallevel.Thenaturalrateofinterestis2percent.Whenoutputis1percentaboveitsnaturallevel,inflationrisesby0.25percentagepoint.ThesevaluesarefromtheTaylorRule,whichapproximatestheactualbehavioroftheFederalReserve.Thefollowinggraphsarecalledimpulseresponsefunctions.Theyshowthe“response”oftheendogenousvariablestothe“impulse,”i.e.theshock.Thus,wecaninterpret
astheThedynamicresponsetoasupplyshockAone-periodsupplyshockaffectsoutputformanyperiods.ThedynamicresponsetoasuppThedynamicresponsetoasupplyshockBecauseinflationexpect-ationsadjustslowly,actualinflationremainshighformanyperiods.ThedynamicresponsetoasuppThedynamicresponsetoasupplyshockTherealinterestratetakesmanyperiodstoreturntoitsnaturalrate.ThedynamicresponsetoasuppThedynamicresponsetoasupplyshockThebehavior
ofthenominalinterest
ratedepends
onthat
oftheinflationandrealinterestrates.ThedynamicresponsetoasuppAshocktoaggregatedemandPeriodt–1:
initialeq’matAπt–1Y
πDASt-1,tYDADt,t+1,…,t+4DADt-1,t+5DASt+5Yt–1ADASt+1CDASt+2DDASt+3EDASt+4FYtBπtYt+5Gπt+5Periodt:
Positivedemandshock(ε>0)shifts
ADtotheright;outputandinflationrise.Periodt+1:
Higherinflationintraisedinflationexpectations
fort+1,
shiftingDASup.Inflationrisesmore,outputfalls.Periodst+2
to
t+4
:
Higherinflationinpreviousperiodraisesinflationexpectations,shiftsDASup.Inflationrises,outputfalls.Periodt+5:
DASishigherduetohigherinflationinprecedingperiod,butdemandshockendsandDADreturnstoitsinitialposition.Eq’matG.Periodst+6
andhigher:
DASgraduallyshiftsdownasinflationandinflationexpectationsfall,
economygraduallyrecoversuntilreaching
LReq’matA.AshocktoaggregatedemandPerThedynamicresponsetoademandshockThedemandshockraisesoutputforfiveperiods.Whentheshockends,outputfallsbelowitsnaturallevel,andrecoversgradually.ThedynamicresponsetoademaThedynamicresponsetoademandshockThe
demandshockcausesinflation
torise.Whentheshockends,inflationgraduallyfallstowarditsinitiallevel.ThedynamicresponsetoademaThedynamicresponsetoademandshockThedemandshockraisestherealinterestrate.Aftertheshockends,therealinterest
ratefallsandapproachesitsinitiallevel.ThedynamicresponsetoademaThedynamicresponsetoademandshockThebehavior
ofthenominalinterestratedependsonthat
oftheinflationandrealinterestrates.ThedynamicresponsetoademaAshiftinmonetarypolicyPeriodt–1:
targetinflationrateπ*
=2%,
initialeq’matAπt–1
=2%Yt–1Periodt:
Centralbanklowerstarget
toπ*
=1%,raisesrealinterestrate,shiftsDADleftward.Outputandinflationfall.Periodt+1:
Thefallinπtreducedinflationexpectations
fort+1,shiftingDASdownward.Outputrises,inflationfalls.Y
πDASt-1,tYDADt
–1ADADt,t
+
1,…DASfinalYtπtBDASt+1CSubsequentperiods:
Thisprocesscontinuesuntiloutputreturnstoitsnaturalrateandinflationreachesitsnewtarget.Zπfinal
=1%
,
YfinalAshiftinmonetarypolicyPeriThedynamicresponsetoareductionin
targetinflationReducingthetargetinflationratecausesoutputtofallbelowitsnaturallevelforawhile.Outputrecoversgradually.ThedynamicresponsetoareduThedynamicresponsetoareductionin
targetinflationBecauseexpect-ationsadjustslowly,
ittakesmanyperiodsforinflationtoreachthenewtarget.ThedynamicresponsetoareduThedynamicresponsetoareductionin
targetinflationToreduceinflation,
thecentralbankraisestherealinterestratetoreduceaggregatedemand.Therealinterestrategraduallyreturnstoitsnaturalrate.ThedynamicresponsetoareduThedynamicresponsetoareductionin
targetinflationTheinitialincreaseintherealinterestrateraisesthenominalinterestrate.Astheinflationandrealinterestratesfall,thenominalratefalls.ThedynamicresponsetoareduAPPLICATION:
Outputvariabilityvs.inflationvariabilityAsupplyshockreducesoutput(bad)
andraisesinflation(alsobad).Thecentralbankfacesatradeoffbetweenthese“bads”–itcanreducetheeffectonoutput,
butonlybytoleratinganincreaseintheeffect
oninflation….APPLICATION:
OutputvariabilitAPPLICATION:
Outputvariabilityvs.inflationvariabilityCASE1:θπ
islarge,θY
issmallY
πDADt–1,tDAStDASt–1Yt–1πt–1YtπtAsupplyshockshiftsDASup.Inthiscase,asmallchangeininflationhasalargeeffectonoutput,soDAD
isrelativelyflat.Theshockhasalargeeffectonoutput,butasmalleffectoninflation.APPLICATION:
OutputvariabilitAPPLICATION:
Outputvariabilityvs.inflationvariabilityCASE2:θπ
issmall,θY
islargeY
πDADt–1,tDAStDASt–1Yt–1πt–1YtπtInthiscase,alargechangeininflationhasonlyasmalleffectonoutput,soDAD
isrelativelysteep.Now,theshockhasonlyasmalleffectonoutput,butabigeffectoninflation.APPLICATION:
OutputvariabilitAPPLICATION:
TheTaylorPrincipleTheTaylorPrinciple(namedafterJohnTaylor):
Thepropositionthatacentralbankshouldrespondtoanincreaseininflationwithanevengreaterincreaseinthenominalinterestrate
(sothattherealinterestraterises).
I.e.,centralbankshouldsetθπ
>0.Otherwise,DADwillslopeupward,economymaybeunstable,andinflationmayspiraloutofcontrol.APPLICATION:
TheTaylorPrinciAPPLICATION:
TheTaylorPrincipleIfθπ
>0:Wheninflationrises,thecentralbankincreasesthenominalinterestrateevenmore,whichincreasestherealinterestrateandreducesthedemandforgoods&services.DADhasanegativeslope.(DAD)(MPrule)APPLICATION:
TheTaylorPrinciAPPLICATION:
TheTaylorPrincipleIfθπ
<0:Wheninflationrises,thecentralbankincreases
thenominalinterestratebyasmalleramount.
Therealinterestratefalls,whichincreasesthedemandforgoods&services.DADhasapositiveslope.(DAD)(MPrule)APPLICATION:
TheTaylorPrinciAPPLICATION:
TheTaylorPrincipleIfDADisupward-slopingandsteeperthanDAS,thentheeconomyisunstable:outputwillnotreturntoitsnaturallevel,andinflationwillspiralupward
(forpositivedemandshocks)ordownward
(fornegativeones).Estimatesofθπfrompublishedresearch:θπ
=–0.14from1960-78,beforePaulVolckerbecameFedchairman.Inflationwashighduringthistime,especiallyduringthe1970s.θπ=0.72duringtheVolckerandGreenspanyears.Inflationwasmuchlowerduringtheseyears.APPLICATION:
TheTaylorPrinciChapterSummaryTheDAD-DASmodelcombinesfiverelationships:anIS-curve-likeequationofthegoodsmarket,theFisherequation,aPhillipscurveequation,anequationforexpectedinflation,andamonetarypolicyrule.Thelong-runequilibriumofthemodelisclassical.Outputandtherealinterestrateareattheirnaturallevels,independentofmonetarypolicy.Thecentralbank’sinflationtargetdeterminesinflation,expectedinflation,andthenominalinterestrate.ChapterSummaryTheDAD-DASmodChapterSummaryTheDAD-DASmodelcanbeusedtodeterminetheimmediateimpactofanyshockontheeconomy,andcanbeusedtotraceouttheeffectsoftheshockovertime.TheparametersofthemonetarypolicyruleinfluencetheslopeoftheDAScurve,sotheydeterminewhetherasupplyshockhasagreatereffectonoutputorinflation.Thus,thecentralbankfacesatradeoffbetweenoutputvariabilityandinflationvariability.ChapterSummaryTheDAD-DASmodChapterSummaryTheDAD-DASmodelassumesthattheTaylorPrincipleholds,i.e.thatthecentralbankrespondstoanincreaseininflationbyraisingtherealinterestrate.Otherwise,theeconomymaybecomeunstableandinflationmayspiraloutofcontrol.ChapterSummaryTheDAD-DASmodADynamicModelofAggregateDemandandAggregateSupply14ADynamicModelofAggregateDInthischapter,youwilllearn:howtoincorporatedynamicsintothe
AD-ASmodelwepreviouslystudiedhowtousethedynamicAD-ASmodeltoillustratelong-runeconomicgrowthhowtousethedynamicAD-ASmodeltotraceouttheeffectsovertimeofvariousshocksandpolicychangesonoutput,inflation,andotherendogenousvariablesInthischapter,youwilllearIntroductionThedynamicmodelofaggregatedemandandaggregatesupplygivesusmoreinsightintohowtheeconomyworksintheshortrun.ItisasimplifiedversionofaDSGEmodel,
usedincutting-edgemacroeconomicresearch. (DSGE=Dynamic,Stochastic,GeneralEquilibrium)IntroductionThedynamicmodelIntroductionThedynamicmodelofaggregatedemandandaggregatesupplyisbuiltfromfamiliarconcepts,suchas:theIScurve,whichnegativelyrelatestherealinterestrateanddemandforgoods&servicesthePhillipscurve,whichrelatesinflationtothegapbetweenoutputanditsnaturallevel,expectedinflation,andsupplyshocksadaptiveexpectations,asimplemodelofinflationexpectationsIntroductionThedynamicmodelHowthedynamicAD-ASmodelisdifferentfromthestandardmodelInsteadoffixingthemoneysupply,thecentralbankfollowsamonetarypolicyrulethatadjustsinterestrateswhenoutputorinflationchange.TheverticalaxisoftheDAD-DASdiagrammeasurestheinflationrate,notthepricelevel.Subsequenttimeperiodsarelinkedtogether:
Changesininflationinoneperiodalterexpectationsoffutureinflation,whichchangesaggregatesupplyinfutureperiods,whichfurtheraltersinflationandinflationexpectations.HowthedynamicAD-ASmodelisKeepingtrackoftimeThesubscript“t”denotesthetimeperiod,e.g.Yt
=realGDPinperiodt
Yt-1=realGDPinperiodt
–1Yt+1=realGDPinperiodt
+1Wecanthinkoftimeperiodsasyears.
E.g.,ift=2008,thenYt
=Y2008
=realGDPin2008Yt-1=Y2007
=realGDPin2007Yt+1=Y2009
=realGDPin2009KeepingtrackoftimeThesubscThemodel’selementsThemodelhasfiveequationsandfiveendogenousvariables:
output,inflation,therealinterestrate,thenominalinterestrate,andexpectedinflation.Theequationsmayusedifferentnotation,
buttheyareconceptuallysimilartothings
you’vealreadylearned.Thefirstequationisforoutput…Themodel’selementsThemodelOutput:
TheDemandforGoodsandServicesoutputnaturallevelofoutputrealinterestrateNegativerelationbetweenoutputandinterestrate,sameintuitionasIScurve.Output:
TheDemandforGoodsOutput:
TheDemandforGoodsandServicesdemandshock,randomandzeroonaveragemeasurestheinterest-ratesensitivityofdemand“naturalrateofinterest”–
inabsenceofdemandshocks,whenOutput:
TheDemandforGoodsTheRealInterestRate:
TheFisherEquationnominalinterestrateexpectedinflationrateexante
(i.e.expected)realinterestrateincreaseinpricelevelfromperiodttot+1,
notknowninperiodtexpectation,formedinperiodt,
ofinflationfromttot+1TheRealInterestRate:
TheInflation:
ThePhillipsCurvepreviouslyexpectedinflationcurrentinflationsupplyshock,randomandzeroonaverageindicateshowmuchinflationrespondswhenoutputfluctuatesarounditsnaturallevelInflation:
ThePhillipsCurvExpectedInflation:
AdaptiveExpectationsForsimplicity,weassumepeopleexpectpricestocontinuerisingatthecurrentinflationrate.ExpectedInflation:
AdaptiveTheNominalInterestRate:
TheMonetary-PolicyRulenominalinterestrate,seteachperiodbythecentralbanknaturalrateofinterestcentralbank’sinflationtargetTheNominalInterestRate:
TTheNominalInterestRate:
TheMonetary-PolicyRulemeasureshowmuchthecentralbankadjuststheinterestratewheninflationdeviatesfromitstargetmeasureshowmuchthecentralbankadjuststheinterestratewhenoutputdeviatesfrom
itsnaturalrateTheNominalInterestRate:
TCASESTUDY
TheTaylorRuleEconomistJohnTaylorproposedamonetarypolicyruleverysimilartoours:iff=
+2+0.5
(
–2)–0.5
(GDPgap)
whereiff=nominalfederalfundsratetargetGDPgap=100x =percentbywhichrealGDPisbelowits
naturalrateTheTaylorRulematchesFedpolicyfairlywell.…CASESTUDY
TheTaylorRuleEconCASESTUDY
TheTaylorRuleTaylor’sruleactualFederalFundsrateCASESTUDY
TheTaylorRuleTaylThemodel’svariablesandparametersEndogenousvariables:OutputInflationRealinterestrateNominalinterestrateExpectedinflationThemodel’svariablesandparaThemodel’svariablesandparametersExogenousvariables:Predeterminedvariable:NaturallevelofoutputCentralbank’stargetinflationrateDemandshockSupplyshockPreviousperiod’sinflationThemodel’svariablesandparaThemodel’svariablesandparametersParameters:Responsivenessofdemandto
therealinterestrateNaturalrateofinterestResponsivenessofinflationtooutputinthePhillipsCurveResponsivenessofitoinflation
inthemonetary-policyruleResponsivenessofitooutput
inthemonetary-policyruleThemodel’svariablesandparaThemodel’slong-runequilibriumThenormalstatearoundwhichtheeconomyfluctuates.Twoconditionsrequiredforlong-runequilibrium:Therearenoshocks:Inflationisconstant:Themodel’slong-runequilibriThemodel’slong-runequilibriumPluggingtheprecedingconditionsintothe
model’sfiveequationsandusingalgebra
yieldstheselong-runvalues:Themodel’slong-runequilibriTheDynamicAggregateSupplyCurveTheDAScurveshowsarelationbetweenoutputandinflationthatcomesfromthePhillipsCurveandAdaptiveExpectations:(DAS)TheDynamicAggregateSupplyCTheDynamicAggregateSupplyCurveDASslopesupward:highlevelsofoutputareassociatedwithhighinflation.Y
πDAStDASshiftsinresponsetochangesinthenaturallevelofoutput,previousinflation,
andsupplyshocks.TheDynamicAggregateSupplyCTheDynamicAggregateDemandCurveToderivetheDADcurve,wewillcombinefourequationsandtheneliminatealltheendogenousvariablesotherthanoutputandinflation. Startwiththedemandforgoodsandservices:usingtheFishereq’nTheDynamicAggregateDemandCTheDynamicAggregateDemandCurveresultfrompreviousslideusingtheexpectationseq’nusingmonetarypolicyruleTheDynamicAggregateDemandCTheDynamicAggregateDemandCurveresultfrompreviousslidecombineliketerms,solveforYwhere(DAD)TheDynamicAggregateDemandCTheDynamicAggregateDemandCurveDADslopesdownward:Wheninflationrises,thecentralbankraisestherealinterestrate,reducingthedemandforgoods&services.Y
πDADshiftsinresponsetochangesinthenaturallevelofoutput,theinflationtarget,anddemandshocks.DADtTheDynamicAggregateDemandCYtTheshort-runequilibriumIneachperiod,theintersectionofDADandDASdeterminestheshort-runeq’mvaluesofinflationandoutput.πtYtY
πDADtDAStAIntheeq’mshownhereatA,outputisbelowitsnaturallevel.YtTheshort-runequilibriumInLong-rungrowthPeriodt:
initialeq’matAY
πDAStYtDADtAYtπtPeriodt+1:
Long-rungrowthincreasesthenaturalrate
ofoutput.Yt+1DASt+1DADt+1Bπt+1πt=DASshiftsbecauseeconomycanproducemoreg&sDADshiftsbecausehigherincomeraisesdemand
forg&sNeweq’matB,incomegrowsbutinflationremainsstable.Yt+1Long-rungrowthPeriodt:
initiAshocktoaggregatesupplyPeriodt–1:
initialeq’matAπt–1Yt–1Periodt:
Supplyshock
(ν>0)shifts
DASupward;inflationrises,centralbankrespondsbyraisingrealinterestrate,outputfalls.Periodt+1:
Supplyshock
isover(ν=0)
butDASdoesnotreturntoitsinitialpositionduetohigherinflationexpectations.Periodt+2:
Asinflationfalls,inflationexpectationsfall,DASmovesdownward,
outputrises.Y
πDASt-1YDADADAStYtBπtDASt+1CDASt+2DYt+2πt+2Thisprocesscontinuesuntiloutputreturnstoitsnaturalrate.LReq’matA.AshocktoaggregatesupplyPerThus,wecaninterpret
asthepercentagedeviationofoutputfromitsnaturallevel.Yt
–
YtParametervaluesforsimulationsCentralbank’sinflationtargetis2percent.A1-percentage-pointincreaseintherealinterestratereducesoutputdemandby1percentofitsnaturallevel.Thenaturalrateofinterestis2percent.Whenoutputis1percentaboveitsnaturallevel,inflationrisesby0.25percentagepoint.ThesevaluesarefromtheTaylorRule,whichapproximatestheactualbehavioroftheFederalReserve.Thefollowinggraphsarecalledimpulseresponsefunctions.Theyshowthe“response”oftheendogenousvariablestothe“impulse,”i.e.theshock.Thus,wecaninterpret
astheThedynamicresponsetoasupplyshockAone-periodsupplyshockaffectsoutputformanyperiods.ThedynamicresponsetoasuppThedynamicresponsetoasupplyshockBecauseinflationexpect-ationsadjustslowly,actualinflationremainshighformanyperiods.ThedynamicresponsetoasuppThedynamicresponsetoasupplyshockTherealinterestratetakesmanyperiodstoreturntoitsnaturalrate.ThedynamicresponsetoasuppThedynamicresponsetoasupplyshockThebehavior
ofthenominalinterest
ratedepends
onthat
oftheinflationandrealinterestrates.ThedynamicresponsetoasuppAshocktoaggregatedemandPeriodt–1:
initialeq’matAπt–1Y
πDASt-1
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