Въведение
Fromthefollowingtwopoints,itisexplainedthatworkandheatareequivalent,notequal.
Oneisthatthesamechangeintheinternalenergyofthesystemcanbedoneeitherbydoingworkorbytransferringheat.Thetwoareequivalentonlyintermsoftheeffectonthesystem,andtheymustneverbethesame.
Thesecondisthattheconversionbetweenworkandheatcanonlybecompletedthroughchangesintheinternalenergyofthesystem.Itisnotappropriatetotalkaboutthedirectconversionbetweenworkandheatwithoutthesystem.Althoughmacroscopicallyitmayreflectthattheinternalenergyofthesystemhasnotchanged,itisimpossibletodrawasimpleconclusionthatheatcanchangeworkorworkcanchangeheat.Ifintheconversionprocess,theoutsidesupplysystemheat,sothatthesystemisusedforexternalwork,infact,theexternalsupplysystemheat,sothattheinternalenergyofthesystemincreases,atthesametimethesystemdoesworkexternally,consumingtheenergyobtainedfromtheoutsideworld.
Theworkheatequivalentistheinverseoftheheatworkequivalent,whichisequalto0.24cal/joule.
Значение
Beforeunderstandingthenatureofheat,therelationshipbetweenheat,work,andenergywasnotclear,sotheywereexpressedindifferentunits.Theunitofheatiscalorie,referredtoascalorie.Attheendofthe18thcentury,peoplerealizedthatheatisrelatedtosports.ThisopenedthewayforJouletostudytherelationshipbetweenheatandwork.Joulebelievesthatheatandworkshouldhaveacertainequivalentrelationship,thatis,thereisacertainquantitativerelationshipbetweentheunitcalorieofheatandtheunitjouleofwork.From1840to1878,heconductedalargenumberofexperimentsusingelectrothermalmethodandmechanicalcalorimetrymethodfornearly40years,andfinallyfoundouttheequivalentrelationshipbetweenheatandwork.IfWisusedtorepresentelectricalworkormechanicalwork,andQisusedtorepresenttheheatcorrespondingtoallofthese,thentherelationshipbetweenworkandheatcanbewrittenasW=JQ,andJistheequivalentofthermalwork.
In1843,theJvaluemeasuredbytheelectricheatingmethodofJoulewasapproximately4.568J/cal;theJvaluemeasuredbythemechanicalmethodwasapproximately4.165J/cal.Later,Jouleannouncedtheresultsofhisfurtherdeterminationsin1845,1847,and1850respectively,andthefinalresultpublishedin1878wasJ=4.157joules/cal.Withthefurtherdevelopmentofscientificinstrumentsinthefuture,otherscientistshavedonealotofverification.Therecognizedthermalequivalentvalueis:inphysicsJ=4.1868joules/cal(the"card"iscalledtheinternationalsteammetercard);inchemistryJ =4,1840 джаула/кал ("кал" е "Нарича се термохимична карта).
Theinternationalunithasuniformlystipulatedthattheunitsofwork,heat,andenergyareallinjoules,andtheheatequivalentdoesnotexist.However,thethermalpowerequivalentexperimentanditsspecificdatahavealwaysplayedaroleinthehistoryofthedevelopmentofphysics.Joule'sexperimentlaidthefoundationforthelawofenergyconversionandconservation.
Откриване на хора
Основни познания
Inthe18thcentury,people’sresearchonthenatureofheattookadetour,andthe"thermalmasstheory"wasinthehistoryofphysics.Ruledformorethanahundredyears.Althoughsomescientistshaddoubtsaboutthiswrongtheory,peoplehavebeenunabletosolvetheproblemoftherelationshipbetweenheatandwork.ItwastheBritishself-taughtphysicistJamesPrescottJoulewhofinallysolvedthisproblem.Theproblempointstheway.
Лично резюме
Joule(JamesP.Joule,1818-1889),Britishphysicist.Hewasthefirsttoestablishthelawofenergyconservationandtransformationthroughscientificexperiments.JoulewasbornonDecember24,1818inSoft,Manchester,England.Hisfatherwasabreweryowner.Joulefollowedhisfathertoparticipateinwine-makinglaborsincehewasachildandhadnoformaleducation.
Inhisyouth,undertheintroductionofothers,JoulemetthefamouschemistDalton.DaltongaveJouleanenthusiasticinstruction.Joulelearnedmathematics,philosophy,andchemistryfromhimhumbly.ThisknowledgelaidthetheoreticalfoundationforJoule'slaterresearch.Moreover,DaltontaughtthescientificresearchmethodofcombiningJoule'stheoryandpractice,whichinspiredJoule'sinterestinchemistryandphysics.
Въведениеexperience
Joule’sinitialresearchdirectionwaselectromagneticmachines.Hewantedtoreplacethesteamengineusedinhisfather’sbrewerywithelectromagneticmachinestoimproveworkefficiency.In1837,Jouleinstalledabattery-drivenelectromagneticmachine,butbecausethecurrentsupportingtheelectromagneticmachine'soperationcomesfromzincbatteries,andzincisexpensive,itisnotascost-effectivetouseanelectromagneticmachineasasteamengine.AlthoughJoule'soriginalgoalwasnotachieved,hediscoveredfromexperimentsthatelectriccurrentcandowork,whichinspiredhisinterestinin-depthresearch.
Тестов процес
In1840,Jouleputthetoroidalcoilintoatesttubefilledwithwatertomeasurethewatertemperatureatdifferentcurrentintensitiesandresistances.Throughthisexperiment,hefoundthattheheatemittedbyaconductorinacertainperiodoftimeisproportionaltotheproductoftheconductor'sresistanceandthesquareofthecurrentintensity.Fouryearslater,theRussianphysicistLenzpublishedalargenumberofexperimentalresults,thusfurtherverifyingthecorrectnessofJoule'sconclusionontheheatingeffectofelectriccurrent.Therefore,thislawiscalledJoule-Lenz'slaw.
AfterJoulesummeduptheJoule-Lenzlaw,itisfurtherassumedthattheheatgeneratedbythebatterycurrentandtheheatgeneratedbytheinducedcurrentoftheelectromagneticmachineshouldbeessentiallythesame.In1843,Jouledevisedanewexperiment.Asmallcoiliswoundontheironcore,theinducedcurrentismeasuredwithanammeter,thecoilisplacedinacontainerwithwater,andthewatertemperatureismeasuredtocalculatetheheat.Thiscircuitiscompletelyenclosed,thereisnoexternalpowersupply,theincreaseinwatertemperatureisonlytheresultoftheconversionofmechanicalenergyintoelectricalenergyandelectricalenergyintoheat.Thereisnotransferofheatandmassinthewholeprocess.Theresultofthisexperimentcompletelynegatedthetheoryofthermalmass.
TheaboveexperimentalsomadeJoulethinkoftheconnectionbetweenmechanicalworkandheat.Afterrepeatedexperimentsandmeasurements,Joulefinallymeasuredthethermalworkequivalent,buttheresultwasnotaccurate.AttheBritishAcademicConferenceonAugust21,1843,Joulereportedhispaper"OntheThermalEffectofElectromagnetismandtheMechanicalValueofHeat".Inhisreport,hesaidthat1kcalofheatisequivalentto460kilogramsofwork.Hisreportdidnotreceivesupportandstrongresponse,andatthistimeherealizedthatheneededtoconductmorepreciseexperiments.
In1844,Joulestudiedthetemperaturechangesofairduringexpansionandcompression,andhehasmademanyachievementsinthisregard.Throughthestudyoftherelationshipbetweenthevelocityofgasmoleculesandtemperature,Joulecalculatedthevalueofthethermalvelocityofgasmolecules,theoreticallylayingthefoundationforBoyle-MarriottandGuy-Lussac'slawsandexplainingTheessenceofthepressureofthegasonthewall.ManyofJoule'sexperimentsintheresearchprocessweredonejointlywiththefamousphysicistWilliamThomson(laternamedLordKelvin).Ofthe97scientificpaperspublishedbyJoule,20aretheresultoftheircollaboration.Whenthefree-diffusiongasentersthelow-pressurecontainerfromthehigh-pressurecontainer,thetemperatureofmostofthegasandtheairwilldrop.Thisphenomenonwasdiscoveredbythetwo.ThisphenomenonwaslatercalledtheJoule-Thomsoneffect.
Whetherintermsofexperimentsorintheory,Jouleisoneofthepioneersofin-depthresearchfromthestandpointofmoleculardynamics.
Whileengaginginthesestudies,Joulehasnotinterruptedthemeasurementofthermalpowerequivalent.In1847,Jouledidwhatisconsideredtobethemostingeniousexperimentofdesignthinkingsofar:Hefilledthecalorimeterwithwater,installedarotatingshaftwithbladesinthemiddle,andthenletthefallingweightdrivethebladestorotate,duetothefrictionbetweenthebladesandthewater.,Thewaterandthecalorimeterhavebecomehot.Accordingtotheheightatwhichtheweightfalls,theconvertedmechanicalworkcanbecalculated;accordingtotheincreasedtemperatureofthewaterinthecalorimeter,theincreaseintheinternalenergyofthewatercanbecalculated.Bycomparingthetwonumbers,theexactvalueofthethermalequivalentcanbeobtained.
Joulealsousedwhaleoilinsteadofwaterasanexperiment,andmeasuredtheaveragethermalpowerequivalentof423.9kg·m/kcal.Hethenreplacedwaterwithmercuryandcontinuedtoimprovetheexperimentalmethodsuntil1878,whenhestartedthisworknearly40yearsago.Hehascarriedoutmorethan400experimentswithvariousmethodsbeforeandafter.Heusedfrictiontoheatwaterin1849andtheresultwasthesameasin1878,whichwas423.9kg·m/kcal.Themeasurementofanimportantphysicalconstantcanbemaintainedfor30yearswithoutmajorcorrections,whichisalsoextremelyrareinthehistoryofphysics.Thisvaluewasrecognizedasthethermalpowerequivalentatthetime.
Метод на измерване
Цел и изисквания
Usetheelectrothermalmethodtomeasurethethermalpowerequivalenttodeepenstudents’understandingofthethermalpowerequivalentUnderstandingofphysicalmeaning.
инструменти
Калориметър (тип J2251), термометър (0-100°C), захранване за ученик (тип J1202 или J1202-1), DC камметър (J0407 тип или J0407-1), DC волтметър (J0408 или J0408-1), плъзгащ се реостат (J2354-1), хронометър, ученически баланс (J0104), съпротивителна жица (около 6 ома), течност (вода или керосин), еднополюсен ключ (тип J2352), няколко проводника.
Експериментален метод
1.Useabalancetoweighoutthetotalmassoftheinnercylinderofthecalorimeterandtheagitatormcylinder.Thenwater(orkerosene)isinjectedintotheinnertubeofthevectorheatexchanger,andthevolumeofthewateroccupiesabout3/4ofthevolumeoftheinnertube.Useabalancetoweighoutthetotalmassofthecylinderandwaterm,thenmwater=m-mcylinder.Recordinthetable.
2.Puttheinnertubeofthecalorimeterintotheoutertube,puttheresistancewireandthestirrerintothewater,coverthecoverplate,andconnectthecircuit.Readtheinitialtemperaturet1androomtemperaturet0ofthecalorimetersystem,andrecordtheminthetable.
3.Turntheselectionknobofthestudent'spowersupplyvoltageoutputto10voltsor12volts,closetheswitchandstartthestopwatchatthesametime,andquicklyadjusttherheostattomakethecurrentaround1.5-2amperes.Observetheammeterandadjusttherheostatatanytimeinthefuturetokeepthecurrentvaluestable.Duringtheenergizationprocess,thewateriscontinuouslystirredslightlytoaccelerateheattransfer.Readthereadingsoftheammeterandvoltmeterandrecordtheminthetable.
4.Whenthethermometershows10-15℃higherthantheroomtemperature,turnofftheswitchandstoptimingatthesametime.Continuetostirthewaterandobservethethermometerreading.Whenthereadingisthehighest,readthetemperaturet2.Recordthepower-ontimetandthefinaltemperaturet2inthetable.
5. Използвайте уравнения (1), (2), (3) и експериментални данни, за да намерите еквивалента на топлинна работа (проверете конкретната таблица за измама за конкретна измама), сравнете я с приетата стойност и намерете процентната грешка.
Принцип на измерване
Setthetotalmassoftheinnertubeofthecalorimeterandthestirrertomtube(madeofthesamematerial),andtheinnermassItisaliquidofMliquid,andtheinitialtemperatureist1.Whentheresistancewireisenergizedfortseconds,thefinalliquidtemperatureist2.AssumingthatthecurrentmeterandthevoltageindicatingnumbersareIandUwhenpowerison,theworkdonebythecurrentduringpoweronis
W=IUt
(1)Calorimeterinnercylinder(includingAgitator)andtheheatabsorptionoftheliquidisQ=(Ctubemtube+CliquidMliquid)(T2-t1)
(2)I,U,t,mtube,MLiquid,t1,t2canbemeasuredbyexperiment,thethermalpowerequivalent
J=W/Q