Nykyaikainen luonnontiede

Uusia löytöjä hiukkasten maailmassa

Therevolutioninphysicsattheendofthe19thcenturyandthebeginningofthe20thcenturybrokeinfromtheatomic"entity",andwithitthesecretsofthestructureofmatterwererevealedlayerbylayerOpen,toshowmankindarichandcolorfulnaturalsceneinthemicroscopicfield.Thedevelopmentofmicro-physicshashadahugeimpactontheentirenaturalsciences.Inthefirsthalfofthe20thcentury,alldisciplinesmarchedintotheirownsmall-scalefields,andcombineddeeperinvestigationswithlarger-scaleexplorations,andachievednewbreakthroughsinbothmacroandmicroresearch.

Thedevelopmentofmodernnaturalsciencesisrealizedthroughthemutualpromotionofmacroscopicresearchandmicroscopicresearch.Ahighdegreeofdifferentiationandahighdegreeofintegrationisanimportantcharacteristicofthedevelopmentofmodernscience.Thefollowingisanoverviewofseveralaspectsofthedevelopmentofmodernnaturalscience:

Atomiydin

Thenucleus(English:Atomiydin)isthecorepartoftheatom.Partialquality.Thenucleusiscomposedofprotonsandneutrons.Whensurroundedbyelectronsequaltotheamountofprotons,atomsareformed.Thenucleusisextremelysmall.

Alfahiukkasten sirontakoe

Intheexperiment,collimatedalpharaysareusedtobombardthegoldfoilwithathicknessofmicrometers,anditisfoundthatmostofthealphaparticlesareshiningstraightthroughthethingoldfoil,withlittledeflection.However,thereareafewalphaparticlesthathaveamuchlargerdeflectionanglethanpredictedbytheThomson malli.About1/8000alphaparticleshaveadeflectionanglegreaterthan90°,andevenscatteringwithadeflectionangleequalto150°isobserved.Thisiscalledlarge-anglescattering.ItcannotbeexplainedbyThomson'smodel.

Thomson malli

TheThomson mallibelievesthatthepositivechargeoftheatomisevenlydistributedintheentireatomicsphere(theorderofmagnitudeofthespherediameteris10-10squaremeters),withThenegativelychargedelectronsarescatteredinthepositivecharge.Theseelectronsaredistributedinsymmetricalpositions,asifraisinsareevenlydistributedinacake.Sopeoplecallitthe"raisincake"model.Whentheseelectronsareatrestinanequilibriumposition,theelectronswillvibrateandtheatomswillemitlight.

In1911,Rutherfordproposedanuclearmodeloftheatom(alsoknownasthenuclearstructuremodeloftheatom).Themassassociatedwiththepositivechargeisconcentratedinthecentertoformthenucleus,andtheelectronsmovearoundthenucleusoutsidethenucleus.Fromthis,theαparticlescatteringformulaisderived,whichexplainsthelargeanglescatteringofαparticles.Rutherford’sscatteringformulawaslatersystematicallyverifiedbyGeigerandMarsden’simprovedexperiments.Accordingtothedataoflarge-anglescattering,itcanbeconcludedthattheupperlimitoftheradiusoftheatomicnucleusis10-14meters[1].Thisexperimentcreatedaprecedentinthestudyofatomicstructure.ThisexperimentoverturnstheraisinbunmodelofatomsproposedbyJJThomsonin1903.Itisbelievedthatthepositivechargeandmassoftheatomarelinkedtogetheranduniformlyandcontinuouslydistributedintherangeoftheatom.Theelectronsareembeddedinitandcanmakesmallvibrationsattheirequilibriumpositions.Itlaidthefoundationfortheestablishmentofmodernnucleartheory.

Experimentalresultsshowthatthevastmajorityofalphaparticlesstillmoveintheoriginaldirectionafterpassingthroughthegoldfoil,butafewalphaparticleshaveundergonealargedeflection,andaverysmallnumberofalphaparticleshavedeflectedmorethan90°,Andsomeevenalmostreach180°andbebouncedback.Thisisthescatteringphenomenonofalphaparticles.

3. Alkuainehiukkaset

Electrons,protonsandneutronsthatmakeupthenucleus,andphotonsasradiationunitsarecalledelementaryparticles.Amongthem:

(1) Protonien löytö

In1919,whenRutherfordbombardednitrogenwithastrongraysource,hediscoveredthatanewkindofparticlewasproduced,whichhadapositivecharge.,Qualityratio.Theparticlesaresmallandhavealongrange.Thisisthefirsttimethatthenucleushasbeentransformedbyartificialmethods,namely:(14,7)N+(4,2)He→(17,8)O+(1,1)H,parenthesesindicatemassnumberandprotonnumber.Inthesameyear,Rutherfordbombardedhydrogenwithalphaparticles,provingthatthepositivelychargedparticle(1,1)Hproducedwasahydrogennucleusandnameditaproton.Itisconfirmedthatthereareprotonsinthenucleus,andprotonsarethebasicparticlesthatmakeupthenucleus.Theelectricalpropertiesofprotonsareoppositetothoseofelectrons,buttheamountofchargeisequal.Theatomsareelectricallyneutraltotheoutside.

(2)Neutronien löytö

Vuonna 1932 Rutherfordin jatko-opiskelija ja yhteistyökumppani Chadwick(1891-1974)Yhdistyneessä kuningaskunnassa toisti kokeensa. Yksityiskohtaisen analyysin ja tutkimuksen jälkeen todettiin, että berylliumsäteet ovat neutraaleja hiukkasia tai neutroneja.

Thediscoveryofprotonsandneutronsuncoveredthemysteryofthemicroscopicfieldandprovidedanewweapon——ProtonandNeutronCannonballs

From1930to1932,heinventedthecyclotron,staticaccelerator,andhigh-pressuremultipliercapableofobtaininghigh-speedprotons.Therearealsotheestablishmentofaradium-berylliumneutronsourcecapableofemittingfastneutrons,andtheimprovementofvariousdetectionmethodssuchasspectrometers,whicharealsoimportantconditionsfornuclearphysicsresearch.From1934to1937,morethan200artificialradioisotopeswereproduced.Bytheendof1937,asmanyas600nuclearreactionshadbeenstudied.Between1934and1939,AmericanItalianphysicistFermi(1901-1954AD),GermanphysicistHahn(AD1879-1968)andothersusedneutronstobombardvariouselementsanddiscoveredavarietyofradioactiveisotopes.Theartificialnuclearfissionreactionwiththeuraniumnucleusbeingshattered,andwhentheuraniumsplits,itwillreleaseneutrons,formingachainreaction,andreleasinghugeenergy,thusstartingtheuseofatomicenergy.

Kosmiset säteet

(1) Whatarecosmicrays

Inthemarchofpeopleintothemicroscopicworld,inadditiontousingnaturalradiationandfastparticlesproducedbyaccelerators,theyalsoDiscoveranatural"laboratory",thatis,cosmicrays.

Kosmiset säteet,alsoknownascosmicrays,arechargedhigh-energysubatomicparticlesfromouterspace.Theymayproducesecondaryparticlesthatpenetratetheearth’satmosphereandsurface.About89%ofcosmicraysaresimpleprotonsorhydrogennuclei,10%areheliumnucleioralphaparticles,and1%areheavyelements.Thesenucleiconstitute99%ofthecosmicrays.Lonelyelectrons(likebetaparticles,althoughthesourceisstillunclear),makeupthevastmajorityoftheremaining1%;gammaraysandultra-highenergyneutrinosaccountforonlyaverysmallpart.

(2)Kokosmikasäteiden löytämisprosessi

In1912,GermanscientistViktorHanstookanionizationchamberinanexperimenttomeasurethedegreeofionizationofairwhenhetookoffbyaballoon.Itwasfoundthatthecurrentintheionizationchamberincreasedwiththeelevation,anditwasdeterminedthatthecurrentwasgeneratedbyaverypenetratingrayoutsidetheearth,sosomepeoplenamedit"cosmicrays."

Kosmisäteiden löytö

(1) Positroni

(2)Interconversionbetweenpositiveandnegativeelectronpairsandphotons

(3)Mesonien löytö

1)πmesonit osallistuvat ydinvoimaan

2)Muonsthathardlyinteractwithnuclei(onlyparticipateinweakinteractions)

Ensimmäisen sukupolven hiukkasten löytö

By1947,peoplehadrealizedthat14kindsofelementaryparticles,ifarrangedinorderofincreasingmass,wouldbephotons,leptons(includingpositiveandnegativeelectrons,positiveNegativemuonsandprophetictrinosandantineutrinos),threekindsofpions,baryons(includingneutrons,protons,andpropheticantineutronsandantiprotons).

Toisen sukupolven hiukkasten löytäminen

In1947,therewassomethingtheoreticallyunexplainableinthestudyofelementaryparticles.Thisisthediscoveryofanelectronwithamassofapproximately1000inthecosmicrays.TheKmesonisabout2200timestheelectronmassandthehyperonisabout2200timestheelectronmass.Theseparticleshavestrangeproperties,thatis,theyallproducefastanddecayslowly,sotheyarecalledstrangeparticles.Makethebasicparticlesknowntoreach30kinds.Thesestrangeparticlesarecalledthesecond-generationelementaryparticles.

Kolmannen sukupolven hiukkasten löytö

Sincethe1960s,physicistshavediscoveredalargenumberofresonantparticleswithextremelyshortlifetimes,makingthetotalnumberofelementaryparticlesTherearemorethan400kinds.Resonantparticlesarealsocalledthird-generationelementaryparticles.

Thelargenumberofdiscoveriesofelementaryparticlesandtheirsystematicclassificationhavemadepeoplerealizethatelementaryparticlesarenotthefinalentityofthematerialstructure,butalsohaveinternalstructures.

1956year,JapanesephysicistMasaichiSakata(1911-1970AD)proceededfromtheideathatmatterisinfinitelyseparable,andbelievedthatallparticipantsarestronglymutuallyTheactingparticles(hadron)areallmadeupofthethreebasicparticlesofprotons,neutrons,andhyperonsConstituted.TheSakatamodelexplainssomefacts,butitalsoclearlycontradictssomeexperiments.

1964Intheyear,theAmericanphysicistGellman(1929AD—)establishedtheperiodictableofhadronsandproposedThequarkmodel,believesthatthreekindsofquarks(andtheirantiquarks)withfractionalchargesconstituteelementaryparticles.

1965From1966to1966From,Chinesephysicistsputforwardnewinsightsinthestudyofelementaryparticles.TheyItisbelievedthatthegenerationanddestructionofsymmetrycanonlybeareflectionofacertainstructureinsidethehadrons,andbasedontheanalysisofthepreviousresearchresults,thestratonmodelisproposed.Physicistsfromvariouscountriesareconductingin-depthresearchonthequarkmodelandthestratonmodel,butsofarhavenotfoundtheexistenceof"freequark",norhasfoundevidencethatquarksorstratonscanexistalone.Somepeoplebelievethatquarksorstratonswillalwaysbeconfinedinhadrons.

Theexplorationoftheinteractionforcebetweenparticles

Thenewdiscoveryofparticlespromptedpeopletostartthediscussionofthewayofinteractionbetweenparticles.Therearefourbasicformsofinteractionbetweenparticles,namelyfourbasicforces.Neljänperusvoimien pääominaisuusareshowninthefollowingtable:

Neljänperusvoimien pääominaisuus

Asearlyasthe1940s,somepeoplewerediscussingtheweakinteractionandelectromagneticinteraction.Unite.In1961,GlasowintheUnitedStatespublishedthefirstpaperwithactualprogress,whichlaidthefoundationfortheweak-potential-theory.In1967,WeinbergoftheUnitedStates(1933AD)andSalamofPakistan(1926AD)respectivelyproposedtheUnifiedModelTheoryofWeakElectricInteraction.Thistheoryhasbeensupportedbyaseriesofexperiments.Inspiredbythistheory,peoplearediscussingthethreeinteractivetheoriesofstrong,weak,andelectric,namelythegrandunifiedtheory,andthisexplorationisstillgoingon.

Alkuainehiukkaset

Hadronit

Hadronitarethegeneraltermforallparticlesthatparticipateinpowerfulinteractions.Theyarecomposedofquarks.Therearesixtypesofquarksthathavebeendiscovered.Theyare:topquark,upperquark,lowerquark,strangequark,charmquarkandbottomquark.Amongthem,thetheorypredictstheexistenceoftopquark,whichwasdiscoveredinFermilab,USAonJanuary30,2007.Mostoftheexistingparticlesarehadrons,andprotons,neutrons,andpionsareallhadrons.(Inaddition,anti-matter,thefamousanti-quark,hasbeendiscoveredandthemethodofitsuseisbeingstudied.Fromthiswespeculatethattheremayevenbeanti-earthandanti-universe.)Thestrangethingisthatsomeofthequarksareheavierthanprotons.Oneissueremainstobestudied.

Leptonit

Leptonitarethegeneraltermforparticlesthatonlyparticipateinweakforce,electromagneticforce,andgravitation,butdonotparticipateinstronginteraction.Therearesixtypesofleptons,includingelectrons,electronneutrinos,muons,muonneutrinos,tauandtauneutrinos.Electrons,muonsandtauarecharged,allneutrinosareuncharged,andallneutrinoshaveantiparticles;tausareimportantparticlesdiscoveredin1975anddonotparticipateinstronginteractions.Theybelongtoleptons.Butitsmassisveryheavy,3600timesthatofelectronsand1.8timesthatofprotons,soitisalsocalledpalepton.

Lisääntäjä

Lisääntäjäalsobelongstoelementaryparticles.Thereare8kindsofgluonsthattransmitstrongeffects.Theywerediscoveredindirectlyinthethree-jetphenomenonin1979.Theycanformgluonspheres.Duetothephenomenonofcolorconfinement,theycannotbedirectlyobservedsofar.Photonstransmitelectromagneticinteractions,whileweakW+,W-andZ0aretransmitted,andgluonstransmitstronginteractions.Theheavyvectorbosonwasdiscoveredin1983.Itisveryheavy,80to90timesthatofaproton.

Fermions

Basicfermionsaredividedintotwocategories:quarksandleptonquarks

Experimentshaveshownthatthereare6kindsofquarks(quarks),andtheirrespectiveOfantiparticles.These6kindsofquarkscanbedividedinto3"generations".Theyare

Ensimmäinen sukupolvi: u(yläkvarkki)d(alempi kvarkki)

Toinen sukupolvi: s(strangequark)c(charmquark)

Kolmas sukupolvi:b(bottomquark)t(topquark)

Itisalsoworthpointingoutthatthereasonwhytheywerenotdiscoveredbyearlyscientistsisthatquarksneverexistalone(topquark)Exception,butthetopquarkistooheavyanddecaystoofasttobemadebyearlyexperiments).Theyalwaysformapairofmesons,orthreetogetherformbaryonssuchasprotonsandneutrons.Thisphenomenoniscalledquarkconfinementtheory.Thisiswhyearlyscientistsmistakenlybelievedthatmesonsandbaryonswereelementaryparticles.

Boson

Boson(English:boson)isaparticlewhosespinisanintegeraccordingtoBose-Einsteinstatistics.Gaugebosonisakindofparticlesthatmediateandtransferinteractionsbetweenparticles.Thereasontheyarecalled"gaugebosons"isbecausetheyarecloselyrelatedtotheYang-Millsgaugefieldtheoryofelementaryparticles.

Therearefourkindsofinteractionsinnature,sogaugebosonscanalsobedividedintofourcategories.

Gravitaatiovuorovaikutus: graviton

Sähkömagneettinen vuorovaikutus: fotoni

Weakinteraction(interactionthatdecaysatoms):Thereare3typesofWandZbosons.

Vahva vuorovaikutus (kvarkkien välinen vuorovaikutus): gluoni

62 erilaista alkuainehiukkasta

1.Lepton(12kinds)Leptonitmainlyparticipateinweakeffects,andchargedleptonsalsoparticipateinelectromagneticeffects,butdonotparticipateinstrongeffects.01,electron02,positron(antiparticleofelectron)03,muon04,anti-muon05,tau06,anti-tau07,electronneutrino08,anti-electronneutrino09,Muonneutrino10,anti-muonneutrino11,tauneutrino12,anti-tauneutrino2,quark(36types)Quark,layer,deficient(6flavors×3colors×positiveAntiparticle=36types)13,redupquark14,anti-redupquark15,greenupquark16,anti-greenupquark17,blueupquark18,anti-blueupquark19,reddownquark20,anti-reddownquark21.Greenlowerquark22,anti-greenlowerquark23,bluelowerquark24,anti-bluelowerquark25,redcharmquark26,anti-redcharmquark27,greencharmquark28,anti-greencharmquark29,bluecharmquark30,Anti-bluecharmquark31,redstrangequark32,anti-redstrangequark33,greenstrangequark34,anti-greenstrangequark35,bluestrangequark36,anti-bluestrangequark37,redtopquark38,anti-redtopquark39,Greentopquark40,anti-greentopquark41,bluetopquark42,anti-bluetopquark43,redbottomquark44,anti-redbottomquark45,greenbottomquark46,anti-greenbottomquark47,bluebottomquark48,Anti-blue-bottomquark3.Gaugeboson(gaugepropagator)(14types)49,gravitational-neutralgluon(typeⅠopenstring)upquark-upquark50,gravitational-neutralgluon(Ⅰ)Typeopenstring)anti-upquark-anti-upquark51,magnetictype-neutralgluon(typeⅠclosedstring)(anti)downquark-(anti)downquark52,magnetictype-neutralgluon(typeⅠclosed)String)quark-antiquark53,cationicgluonup-quark-downquark54,cationicgluonup-quark-downquark55,positive-electricgluonanti-upquark-anti-downquark56,cationicgluonAnti-up-quark-anti-downquark57,photon(lightquantum)58,gravitons(stillahypothesis)59,W+boson60,W-boson61,Zboson62,HiggsbosonHiggsBoson

From CondensedMatter PhysicstoAstrofysiikka

CompletePhysicsSystem

Kvarkki-alkuainehiukkas-atomiydin ja atomi-molekyyli-tiivistynyt aine (kiinteä ja nestemäinen)- maa ja muut taivaankappaleet-galaksit ja koko maailmankaikkeus

Uutta edistystä kondensoidun aineen fysiikassa

Firstofall,itisrelatedtoultrahighpressure,highvacuum,andultrahightemperatureItisrelatedtotheacquisitionofspecialconditionssuchasextremelylowtemperatureandstrongmagneticfield.

In1905,BridgmanoftheUnitedStates(1882-1961)inventedanultra-highpressuredevicewithapressureof10,000atmospheres.Healsousedthisdevicetoconductexperimentalresearchonthephysicalpropertiesofrocksunderhighpressure.High-pressurephysicshasbecomethetheoreticalbasisofhigh-pressureengineering(suchasman-madediamond).

Synteettiset timantit (2 kuvaa)

Theapplicationofelectriclightinginthe19thcentury,especiallytheinventionofelectrontubes,promotedthedevelopmentofvacuumtechnology.

From1910to1915,Germany’sAl-Qaeda(1878-1945)inventedoil-sealedrotatingmolecularpumpsandmercurydiffusionvacuumpumps,whichcouldcreate10+-10-'torr(1Torr).Thevacuumisequalto133.3224Pa),andtheacquisitionofhighvacuumisanindispensableconditionforstudyingthepropertiesofsolidsurfaces,lasers,andmaterialprocessing.

Thestudyofphysicalpropertiesatextremelylowtemperaturesisanimportantbranchofsolidstatephysics.Ithasbeenknownforalongtimethattheendothermicreactionduringgasliquefactionwillleadtotheappearanceoflowtemperature.In1881,VanderWaalsintheNetherlands(1837-1923AD)carriedoutthestudyoftherelationshipbetweengasandliquidatlowtemperatures.

From1906to1913,theGermanNernst(1864-1941AD)lowtemperatureresearchputforwardthethirdlawofthermodynamics,whichprovedthatabsolutezeroisimpossibletoachieve.

Hollantilainen fyysikko Unnes (1853-1926 jKr) havaitsi, että metallien, kuten elohopean, lyijyn, tinan jne. vastustus putoaa yhtäkkiäsuprajohtavuuteen alle normaaliarvon 10-9 atultra-matalassa lämpötilassa.

In1937,theformerSovietscientistPilchar(1894-AD)discoveredthesuperfluidityofliquidheliumatextremelylowtemperatures(thatis,theviscosityoftheliquidisextremelysmall).Onthisbasis,physicistsproposedatwo-fluidmodelofsuperconductivityandliquidhelium,andLandau,whoworkedwithKapil(1908-1968AD,establishedthequantummechanicstheoryofsuperfluidity.

Kuuluisa amerikkalainen fyysikko Baden(AD1908-), Cooper(AD1930-) ja Schriever(AD1931-) tekivät yhteistyötä ehdottaakseen suprajohtavaa mikroskooppista mallia.

BadenandXiaoKlee(1910-AD)andBratan(1902-AD)collaboratedandmadeimportantachievementsintheresearchofsemiconductormaterialsandinventedthetransistor.

Muut kiinteän olomuodon fysiikan näkökohdat (kiderakenne, metallifysiikka, kiintoainemagnetismi, dielektrinen fysiikka, solidluminesenssi jne.) ovat kaikki kehittyneet 1900-luvulla, erityisesti viimeisten 30 vuoden aikana.

Astrofysiikka

Fromtheperspectiveofnon-lifephenomena,whereAllobjectswithaspatialscalegreaterthan10ˉ6~10ˉ4cmaremacroscopicobjects,whichincludenotonlydustintheairandobjectsontheground,butalsomountains,lakesandseas,geologicalstructuresystems,andevenplanets,stars,andplanetarysystems(suchasthesolarsystem)./p>

Aurinkojärjestelmä (2 kuvaa)

Inaslightlylargerscale,thegeologyofthe19thcenturyhasconductedpreliminarystudiesontheclassification,structureandoriginofstrata,butthatTheobjectoftimeismainlylimitedtothelocalareaof​​theearth'ssurface.Astronomyinthe19thcenturyandearlieralsomainlystudiedthetrajectory,size,andmassofthesolarsystemandafewstars,andtheluminosity,temperature,andmagnetismofmorecelestialbodiesandinterstellarmatter.,Density,structure,chemicalcomposition,energysource,etc.arestilllackinginunderstanding.Geophysicsandastrophysicsarestillintheprocessofformation.

Muutoshistoria ihmisen näkemyksessä maapallosta

1)19thcenturyItisgenerallyacceptedthattheearthisformedbythegradualshrinkageofhotobjects.Afterthediscoveryofradiationinthecrustalrocks,theviewthattheearthhasinternalthermaldynamicshasgraduallyformed.However,althoughscientistsinthe19thcenturyrecognizedthattheearthhasitsevolutionaryhistory,theybelievedthatthelandandoceanontheearthbasicallydidnotchangemuchaftertheywereformed.Thelandisfixedandtheoceanispermanent.

2) Continental drift teoria

Inthe20thcentury,somenewdiscoveriesingeologybrokethisviewoftheearth.In1921,GermanscientistWegener(1880-1930AD)proposedtheideaof​​continentaldriftbasedonthesimilarityofcoastlinesonbothsidesoftheAtlanticOcean,thekinshipbetweenorganismsandpaleontology,andthecontinuityofgeologicalandgeographicphenomena.HebelievesthatinthePaleozoiceraingeologicalhistory,therewasonlyonehugelandintheworld-theUnitedAncientLand,surroundedbyanocean.SincetheMesozoic,theUnited

Theancientlandbegantosplitanddrift,andgraduallyformedintoseveralcontinentsandislands.Theoceanswereseparatedtoformseverallargeoceansandseveralsmallseas.

3)Vaipan konvektion teoria

In1928,theBritishHolmes(1890-1965AD)proposedthetheoryofmantleconvection.Hebelievedthatthemantlematerialhasveryslowthermalconvection,whichleadstoThecontinentmoveshorizontallyinacertaindirection,andthelatestexplanationofthedriftmechanism

4) Sukellusveneiden laajenemisteoria

In1961,HessandDiezintheUnitedStatesestablishedthesubmarineexpansiontheorybasedonalargeamountofpaleomagneticdata.Theybelievethatthemantlematerialgushesoutfromthemid-oceanridgesandriftvalleysandcondensestoformanewseabed,pushingthepreviouslyformedseabedtoexpandtobothsidesatarateofabout1to5centimetersperyear,andtheoldstratumsinkswhenitreachesthedeeptrench.Inthemantlematerial,itisrenewedeverytwoorthreebillionyears.Thetheoryofsubmarineexpansionisadevelopmentofthetheoryofcontinentaldrift.

5) Levytektoniikan teoria

In1965,geologistsfromWilson,Hess,andCambridgeUniversitygatheredinCambridge,England,andfoundedonthebasisofaseriesofpreviousachievements.Basedonthetheoryofplatetectonics,itisbelievedthattheentirelithosphereoftheearthcanbedividedintosixmajorplatesandseveralsmallplates.Thebasicreasonforglobalgeologicalstructureisduetotheinteractionoftheseplates.Theplatetheoryclarifiedthebasicaspectsoftheformationanddevelopmentoftheearth,andmadethetheoryofcontinentaldriftappearinanewform.

Edistystä astrofysiikassa

Astronomicalchemistryisthemostimportantresearchinastronomyinthe20thcenturyInthefield,thehypothesisthatstarsaregeneratedfromsuper-densematterorthindiffusematterandgraduallyevolveisproposed.Thestudyoftheuniverseandtheevolutionoftheuniversehasattractedmuchattentionfromastrophysics,andamodeloftheexpandinguniversehasbeenproposed.Attheendofthe1940s,theAmericanscientistKamov(1904-1968AD)linkedthestudyofelementaryparticleswiththetheoryofcosmicexpansionandproposedthetheoryoftheBigBanguniverse,whichbelievedthatthehumanuniverseoriginatedfromextremelyhigh-density"primitivefireballs."TheBigBang,andthenevolvedintotheworldtodayaftermorethantensofbillionsofyears.Inthe1960s,duetothediscoveryof30Kmicrowavebackgroundradiation,theBigBanghypothesiswasacceptedbymostastronomers.

(1) Universumin evoluutio

1)Theveryearlystageoftheevolutionoftheuniverse,theformationofelementaryparticles.From0secondto10-36secondsintheevolutiontimeoftheuniverse,theuniverseexpandedrapidlyandquarkparticleswereproduced.Hadronitweregenerated10_6secondsago,andleptonsweregenerated10_2secondsago.Inthisstage,sincetheneutrondecaysintoaproton,electronsandneutrinosarereleased,andtheelectronandpositronmeetandannihilateintotwophotons,sophotonradiationdominates.

2)Radiationstageandnuclearsynthesisstage.From1secondto104years.Inthebeginning,theuniversewasdominatedbyradiation,andphysicalobjectsonlyoccupiedasecondaryposition.At3minutes,thetemperaturedroppedto109K,andnuclearreactionsbegan.Neutronsandprotonssynthesizedeuterons,andthensynthesizeheliumnuclei,andtherealobjectgraduallydominates.

3)Thephysicalstage.After104years,thetemperaturedroppedto10'K,andstableatomswereformed.Radiationintheuniversetookabackseat,andphysicalobjectsoccupiedamajorrole.Thegravitationalforcebetweenphysicalobjectsbegantoplayamajorrole.Afterthat,thesparsegaseousobjectsintheuniversebegantoformprimitivenebulae,andthenformedgalaxyclusters,andthendifferentiatedgalaxies(suchastheMilkyWay)fromgalaxyclusters.

4)Thefuturestage.Onemodelbelievesthattheexpansionoftheuniversewillgraduallyslowdownundertheactionofuniversalgravitation.Afterreachingacertainmaximumvolume,itwillbegintoshrink,untilitshrinkstothe"primitivefireball"state,andthenexplodesandexpands.

(2) Tähtien kehitys

1)Thegravitationalcontractionphase,whichisthejuvenilephaseofastar.Themainroleistheself-attractionofdiffusematterduetogravitation.Thediffusematerialshrinksquicklytoformastellarembryo,andthetemperaturerises,andthengraduallyshrinksintoastarwithasurfacetemperatureofseveralhundreddegreesCelsiusandcapableofemittinginfraredrays.

2)Mainsequencestarstage,whichisthestar'sadultstage.Thecontractioncausesthetemperatureinthecenterofthestartorisetonearlyonemilliondegrees,andthereactionofhydrogennucleifusionintoheliumnucleibegins,releasinghugeenergy,andthetemperaturecontinuestorise.Repulsionandattractionareevenlymatched.Thestarneithershrinksnorexpands,andbecomesarelativelystablehost.Sequencestarsandemitbrilliantstarlight.Thestarstaysinthisstageforthelongesttime.Forexample,thesunisinthemainsequencestarstage.4.6billionyearshavepassed,anditwilltake5billionyearstoenterthenextstage.

3)Theredgiantphase,whichisthemiddle-agedageofthestar.Theheliumnucleiformedbyhydrogennuclearfusionaccumulatesinthecenterofthestar.Theradiationpressureprovidedbythehydrogennuclearfusionreactionatitsedgecannotwithstandthegravitationalforce,andtheattractionexceedstherepulsion,causingthecentralareaof​​thestartoshrink.Partofthereleasedgravitationalpotentialenergyheatsthecentralareaandraisesitstemperatureto100milliondegrees.Thestar'sshellexpandssharply,thesurfaceareaexpands,andthesurfacetemperaturedecreasestoemitredlight,soitiscalledaredgiant.

4)Thepulsationandexplosionphase,whichistheoldageofthestar.Aftertheheliumfuelinthecenterofthestarisexhausted,thermonuclearreactionssuchascarbonfusion,oxygenfusion,andsiliconfusionwilloccursuccessively,andthevolumeandbrightnessofthestarwillchangeperiodically.Inthecyclicalpulsation,alargepartofthestarswillalsoexplode,throwingoutalargeamountofmattertorestoretheinternalbalance.Duetotheendothermicreactionofthenuclearfusionoftheheavierelements,thestarcollapsessharply,causingaviolentexplosion.Aftertheexplosion,somestarsallcollapsed,andsomestarsleftapartofthemattertobecomehigh-densitystars.

5)High-densitystage,thisisthedecayperiodofthestar.Thecentralpartleftbyanovaorsupernovaaftertheexplosionwillshrinkintovarioushigh-densitystars.Amongthem,thesmallermassshrinkstobecomeawhitedwarf,andthewhitedwarfglowsbycoolinguntiltheheatisdissipatedandbecomesanon-luminousblackdwarf.Ifthemassleftaftertheexplosionislarge,itwillshrinkintoaneutronstar,andevenevolveintoablackhole.

(3)Maan evoluutio

1)Theearthwasborn4.6billionyearsago,afterthe"astronomicalperiod",thatis,thediffusematerialshrinksintotheoriginalearthandenterstheinnercircleoftheearthTheperiodofformationandevolutionthenentersthe"geologicalperiod",thatis,theperiodofcrustalmovementandland-seachanges.Duringthemeltinganddifferentiationoftheprimitiveearth,thematerialdominatedbyheavyelementssinkstoformthecore,andthelightermaterialfloatsuptoformthemantle.Thenthemantledifferentiatesintolightermaterialstoformthecrust,resultinginthespherestructure.

2)Intheprocessofmeltinganddifferentiationintheearth,alargeamountofgasescapesthesurfacetoformaprimitiveatmosphere.Duetotheeffectsofsolarradiation,ultravioletrays,etc.,theprimitiveatmospheregraduallyevolvedintoanatmospheredominatedbynitrogenandoxygen.Alargeamountofwatervaporcontainedintheprimitiveatmospherecondensed,formingtheprimitivehydrosphere,andgraduallyformingtoday'srivers,lakesandseas.

3)Aftertheformationoftheearth'scrust,itcontinuestomove.Modern"platetectonics"believesthattheentirecrustcanbedividedintoseveralplates,which"float"onthemantleasthenosphereandmoveslowly.Theconstantchangesintherelativepositionsoftheplateshavecausedthecontinentstodrift,formingthepatternofdistributionintoday'scontinentsandoceans.Themutualsqueezebetweentheplatescausedtheearth'scrusttomovevertically,causingtheupliftofthemountains.Platesalsocomeandgo.

Inthestudyofmoderncosmology,thecontributionsofStephenandHawkingshouldbeparticularlymentioned.HawkingisconsideredtobethemostoutstandingtheoreticalphysicistafterEinsteinintheworldtoday.Bornin1942,hewasconfinedinawheelchairfor20yearsduetoamyotrophiclateralsclerosis.Becausehefirmlybelievesthatwecanfullyunderstandtheuniverse,"strugglingtofindacompleteunderstandingisalwaysfarmorethandespairofthehumanspirit."Itisthisspiritofexplorationthatenableshimtolearnaboutgalaxyblackholes,quarks,thegrandunifiedtheory,antimatter,""TimeArrow"andotherin-depthdiscussions.Heappliedthemethodsofquantumtheorytotheprocessofformingblackholes.Itisprovedthatpurequantumparticlescanbeproducedintheblackholehorizon.Thisdiscoverybecamethefirstattempttounifythetheoryofrelativityandquantumtheory.Herevealedthatwhentheever-expandinguniversecollapses,timewillgoback,andhis"boundary"theoryoftheuniversemayreplacetheBigBangtheory.Hisseriesofinsightsarechangingpeople'sviewsontheuniverse.Therehavebeenverysharpcontroversiessurroundingthevarioustheoriesputforwardbymoderncosmology.Varioustheoriesofastrophysicshavetobedeveloped,andtheyneedtobetestedbynewfactsandtheoreticalargumentstodecidewhethertochoose.

Neljä suurta vallankumousta

Universumin evoluutio

(1)Optinen säteily

Itiscomposedofuniformandisotropichigh-density,high-temperatureandhigh-pressurematerials,andhasundergoneveryrapidexpansionandcoolingatanextremelyearlystage.About10^-37secondswhentheexpansionprogressed,aphasechangeoccurredthatcausedtheuniversetoinflate.Duringthisperiod,theexpansionoftheuniverseincreasedexponentially.Whentheinflationisover,thematterthatmakesuptheuniverseincludesquark-gluonplasmaandallotherelementaryparticles.

(2) Hiukkasten muodostuminen

Aikaskaala - 10^-43 sekuntia Universumi tulee esiin kvanttitaustasta.

Timescale-10^-35secondsThesamefieldisdecomposedintostrongforce,electroweakforceandgravitationalforce.

Ajan mittakaava on 10^-5 sekuntia, 10 biljoonaa Kelviniä, protoneja ja neutroneja muodostuu.

Thetimescaleis0.0001seconds,andthetemperaturereachesseveraltensoftrillionKelvin,whichisgreaterthanthethresholdtemperatureofhadronsandleptons.Thecollisionofphotonsproducespositiveandnegativehadronsandpositiveandnegativeleptons.Atthesametime,someofthemareannihilatedintophotons.Whentheequilibriumstateisreached,thetotalnumberofparticlesisroughlyequaltothetotalnumberofphotons,andtheunannihilatedhadronsarebrokeninto"quarks".Atthistime,thequarksareina"progressivefreestate"withoutanyprotectiveeffect.Thetypesofparticlesintheuniverseare:positiveandnegativequarks,positiveandnegativeelectrons,andpositiveandnegativeneutrinos.Intheend,one-billionthofthepositiveparticlessurvived.

Thetimescaleis0.01secondandthetemperatureis100billionKelvin,whichislessthanthehadronthresholdtemperatureandgreaterthantheleptonthresholdtemperature.Thereactionofphotonstoproducehadronshasstopped.Hadronitarenolongerbrokenintoquarks,andprotonsandneutronseachaccountforhalf.However,duetothecontinuousannihilationofprotonsandneutrons,thenumberofhadronshasdecreased.Neutronsandprotonscontinuetotransformeachother.At1.09seconds,thetemperatureis10billionKelvin,proton:neutron=76:24

Thetimescaleis13.82seconds,andthetemperatureislessthan3billionKelvin.Thetaskofcreatingmatteriscompleted..Thephenomenonofneutrondecayoccurs,anditdecaysintoprotonspluselectronsplusantineutrinos.Atthistime,proton:neutron=83:17

Timescaleis3minutesand46seconds,temperatureis900millionKelvin,allantiparticlesareannihilated,photon:matterparticle=1billion:1,neutronnolongerdecays,Proton:neutron=87:13(untilnow);atthistime,averyimportantevolutionoccurred:aheliumnucleuswasgeneratedfrom2protonsand2neutrons,andtheneutronswerepreservedduetonuclearforces.Theuniversehasenteredtheageofnucleosynthesis.(Ifthereisnoheliumnucleusproduced,allneutronswilldecay,andtherewillbenootheratomicnucleiinthefuture)

Thetimescaleis300,000-700,000years,thetemperatureis4000-3000K,andtheenergyandmatterareinthermalequilibrium.Stablehydrogenandheliumnucleibegantoappear,andtheuniverseenteredtheeraofrecombination.Inthelaterperiod,theuniversegraduallytransformedintoaneradominatedbymatter.(Photonscantravelfreelyasthetemperaturedecreases,thatis,today's3Kcosmicbackgroundradiation!)

Thetimescaleis400-500millionyearsandthetemperatureis100K.Matterparticlesbegantocondense,andthegravitationalforcegraduallyincreased.Afterthe"darkage"passed,thefirststargalaxiesformed.

Tähtien vallankumous

(1) Ydinfuusio

Atthebeginningoftheuniverse,therewasnomatterbutenergy.AftertheBigBang,matterconsistsofenergy.Converted(mass-energyconversionE=mc2),contemporaryparticlephysicstellsusthatatasufficientlyhightemperature(called"thresholdtemperature"),matterparticlescanbeproducedbythecollisionofphotons.

Withtheformationofthefirstbatchofstars,thenuclearfusionreactionofatomstookplaceinsidethestars,andthenthenucleiofelementssuchashelium,carbon,oxygen,magnesium,andironappeared.Nuclearfusionreferstotheformationofatomswithsmallmasses,mainlydeuteriumortritium.Undercertainconditions(suchasultra-hightemperatureandhighpressure),thenucleiwillaggregatewitheachothertogeneratenewandheaviernuclei,accompaniedbyhugeenergy.Aformofnuclearreactionreleased.(Itisworthnotingthatstarsofdifferentmassescancausedifferentdegreesofnuclearfusion.Thesunismainlyhydrogen-heliumfusion.Theheavieroneswilltriggercarbon-oxygen-magnesiumfusion,andtheheavieroneswilltriggerthenextroundoffusion.Thesimplesequenceis:hydrogen-helium-carbon-oxygen-magnesium-silicon-iron.However,nomatterhowmanystarsare,thefinalfusionresultcanonlybeiron,andtherecanbenonucleiheavierthanironinthestars!)AnythingontheperiodictableSome(exceptforman-madeelements)areformedinthestellarfurnace,andtheatomicnucleiafterironcanonlybeproducedinsuperexplosions.

(2)Galaksien muodostuminen

Atthebeginningoftheuniverse,therewereverywidediffusenebulaedistributedintheuniverse.Thesenebulaewereundertheactionofuniversalgravitation.Graduallybegintoshrink,formingalotofgravitationalcentersfirst.Thesegravitationalcentersareofdifferentsizesanddistancesarealsodifferent.Sothesurroundingmatterbeginsto"fall"towardthesegravitationalcenters.Duringtheprocessofnebulamatterfallingtowardacertaingravitationalcenter,becauseThefallingdirectionisdisturbedbyothergravitationalcenters,notthe"centerofthesphere"pointingtothisgravitationalcenter,soangularmomentumisgenerated.Intheprocessoffalling,duetotheconservationofangularmomentum,thesesubstancesfallwhilerotating,thusformingOnebyonespiralgalaxyorbarredspiralgalaxy.Asforellipticalgalaxies,theyarehuge,oldgalaxiesformedafterthecollisionandmergerofspiralgalaxies.Thereisonlynebulamatterintheoriginallyformedgalaxy.Thefirststarsinthegalaxyareformedbyshrinkingandshrinkingduringtheformationofthegalaxy.Aftertheformationofthegalaxy,alargeproportionofthemattercomposingthegalaxyisstillinthestateofanebula,suchastheMilkyWay.Therearestillmanydiffusenebulaeinthespiralarmsof,andstarshavenotyetformed.

Maan evoluutio

(1) Tähtitieteellinen kausi

About4.6billionyearsago,thegravitycontractionandUndertheactionofradioactivedecayandheat,thematerialsinsidetheearthhavealsochanged,andsomematerialshavebeenlocallymelted.

(2)Geologinen ajanjakso

Thelithosphere:undertheactionofgravity,theheaviermaterialoriginallyoutsidetheearthbeginstosinkslowly.Heavyelementssuchasliquidironsinktothecenteroftheearth,formingthecoreoftheearth.Atthesametime,thelightermatterinsidetheearthrose,graduallyformingthecrust,mantle,coreandotherspheres.

Aerosphere:Theformationoftheearth’satmosphereisimmediatelyfollowed.Intheearlydaysoftheformationoftheearth,alltheprimitiveatmosphereranintotheouterspace.Later,thetemperatureontheearthrose,thematerialinsidetheearthrecombined,andthegasinsidetheearthalsorosetotheground,formingtheearth'satmosphere.Thislayerofatmospherehasbeenfurtherdevelopedaftertheemergenceofgreenplants.Undertheinfluenceofgreenplantphotosynthesis,itgraduallydevelopedintoamodernatmosphere.

Hydrosphere:Atthebeginningoftheformationoftheearth,alargenumberofsmallcelestialbodieskepthittingtheearthataspeedof10kilometerspersecond,causingtheearth’snewlyformedcrusttoruptureagainandagain,causingtectonicactivities,Volcaniceruptionsoccurfrequently,andalargenumberofvolcanicjetsentertheskyabovetheearthtoformasecondaryatmosphere.TheatmosphereisfullofCO2,showingayellow"sky"withoutoxygen.Asthetemperatureoftheearthgraduallydrops,theatmosphereabovetheearthcondensesintowaterdroplets,whichformrainfallundertheactionofgravity.Thefirstrainonthisearthhasbeenundergroundendlesslyforthousands,tensofthousands,orevenmillionsofyears.Thepotholesandvalleysontheearth’ssurfacehavebecomerivers,lakesandseas,butthewateratthattimewasscorchinghotontheearth’ssurface.Boilingwater.

Biosphere:Onlywhenthereiswatercantherebelife.TheoldestlifeonEarthdiscovered,3.8billionyearsago.Upto3.5billionyearsago,bluealgaecapableofphotosynthesisappeared.Primitivelifehasstruggledformorethan2billionyearsinthelackofoxygenandboilingwater,transformingtheprimitiveocean,thusaffectingtheprimitiveatmosphere.Finally,about1.7billionyearsago,themodernoceanandmodernatmosphereformed.Thehydrosphereandatmospherefeedbackorganisms,whichmakeslifeontheplanetevolverapidlyfromlow-leveltohigh-level.By400millionyearsago,terrestrialplantsappeared,andthenanimalslanded,theearth'ssurfacewascoveredbylivingthings,andatruebiospherewasformed.Atthispoint,thethreeoutercirclesoftheearthfinallyformed.

Biologinen evoluutio

(1) Pienet orgaaniset molekyylit

Theatmosphereisformedunderlightning,ultraviolet,shockwaves,raysandotherenergysources.Aseriesoforganicsmallmoleculecompounds,suchasaminoacids,nucleotides,etc.(thishasbeenconfirmedbytheexperimentofthesynthesisofinorganicsubstancesintoorganicsubstancesbyasparkdischargedevicedesignedbyAmericanscientistMillertosimulatethunderandlightning).

(2) Orgaaniset makromolekyylit

Organicsmallmoleculecompoundseitherdirectlyfallintotheprimitiveocean,orconvergeintotheprimitiveoceanvialakesandrivers.Themiddlelayeraccumulatesandinteractsforalongtime,andunderappropriateconditions,itisfurthercondensedintobiologicalmacromoleculessuchasproteinsandnucleicacidswithprimitivestructuresandnon-specificfunctions.Thesebiologicalmacromoleculesaccumulateintheprimitiveocean,withincreasingconcentrationsandcondensingintodroplets.,Formingamulti-molecularsystem.

(3) Biologiset makromolekyylit

Undercertainevolutionaryprobabilityandsuitableenvironmentalconditions,afteralongperiodofcontinuousevolution,about3.5billionyearsQianfinallyformedaprimitivelifeformwithmetabolismandself-reproductionability.Thisisthefirststageoflifeevolution,thatis,thenon-cellularlifestage,whichrealizestheprocessoftransitionfromnon-lifetolife.

(4) Alkukantaiset organismit

Fromabout3billionyearsagoto570millionyearsago,theearthenteredthepre-paleozoicperiod.Althoughthisperiodlastedforalongtime,andtheatmosphere,water,andbiospherealsodevelopedgreatly,theevolutionofthebiologicalworldwasveryslow.Untiltheendofthepre-paleozoicera,therewereonlyfungi,algaeandsomelow-gradeprotozoaontheearth.,Brachiopods,etc.About1.4billionyearsago,thedevelopmentofthebiologicalworldhasenteredthesecondstage,thatis,theprokaryoticcellstage.Inthisstage,lifealreadyhasacellshapeandarealcellmembrane,butthereisnorealnucleus,andtherealnuclearmembraneandtherealnuclearmembranecannotbedistinguished.Nucleolus.Itismainlyrepresentedbycyanobacteriathatwasmostprevalentbetween2.8to2billionyearsago.Itcancarryouttruephotosynthesis,absorbcarbondioxide,andreleaseoxygen,sothatthereducingatmosphereoftheearlyEarthisgraduallyreplacedbyanoxidizingatmosphere,andthenitentersintoInthethirdstageofevolution,eukaryoticcellsemerged.Thedevelopmentfromprokaryoticcellstoeukaryoticcellsisthemostimportantevolutioncompletedinthebiologicalworld.

(5) Biologinen evoluutio

Theevolutionaryhistoryofmodernorganismsclassifiedaccordingtothephylum,family,generaandspecies.

Rakennekemia ja polymeerikemia

Mikä on rakennekemia

Structuralchemistryisthestudyoftherelationshipbetweentheconfigurationandcompositionofsubstancesandmoleculesattheatomic-molecularlevelAswellasthechemicalsub-disciplineoftheinteractionofstructureandvariousmovements.Itisalsoabasicsubjectexpoundingtheinterrelationshipbetweenthemicrostructureofmatteranditsmacroscopicproperties.Structuralchemistryisnotonlycloselyrelatedtootherchemistrydisciplines,butalsointerrelated,coordinated,andpromotedwiththeresearchofvariousdisciplinessuchasbiologicalsciences,geologicalsciences,materialssciences,andmedicine.

Forchemistry,theresultsofatomicstructureresearchfirstgaveanewinterpretationoftheperiodiclawofelements.Mendeleev'speriodiclawbegantorevealtheinternalconnectionbetweenelements,butwhythepropertiesoftheelementschangeperiodicallywiththeincreaseofatomicweight?Thebasisforthisinternalconnectionisnotclear.WhentheinternalstructureoftheatomisrevealedandX-raysando-raysareusedasdetectionmethods,thesituationisdifferent.In1913,theBritishMosley(1887-1915AD)useddifferentelementsastargetsforgeneratingX-raysanddiscoveredthatthecharacteristicX-raystheyproducedhaddifferentwavelengths.HearrangedtheelementsaccordingtothewavelengthofthecharacteristicX-raysproduced,andfoundthatthearrangementorderisconsistentwiththeorderoftheelementsintheperiodictable.Hecalledthisordertheatomicnumber.In1920,theBritishChadwick(1891-1974)furthermadedifferentelements.Scatteringexperiments,measuringthenuclearchargeofeachelement,provethattheatomicnumberisexactlyequaltothenuclearchargeinnumber.Inotherwords,theperiodicityofanelementisnotbasedontheapparentatomicweight,butontheinternalstructureoftheatom,thatis,thechargeonthenucleus.By1925,duetotheemergenceofquantummechanicsandthePauliexclusionprinciple,theperiodiclawoftheelementsreceivedamorescientificexplanation.Peoplerealizethatelectronsoutsidethecorearedistributedaccordingtoacertainshell,andtheinnermostelectronshellcanonlyhold2electrons,andthendistributedaccordingtoacertainlaw.Themoreelectronlayers,thefarthertheoutermostelectronsarefromthecore,andtheattractiontoitThesmallertheforce,theeasieritistoloseelectrons;thefewertheouterelectrons,theeasieritistoloseelectrons;themoretheoutermostelectrons,theeasieritistocaptureelectrons.Whenitreaches8electrons,itissaturated;thenumberofouterelectronsisthesameThechemicalpropertiesoftheelementsaresimilar,theouterelectronsincrease,andthemetallicityoftheelementsdecreases.

Mankindproposedtheconceptofatomicvalencetounderstandthehistoricalprocessofchemicalbonds

Theconceptofatomicvalencehasbeenestablishedinthe19thcentury,buttheconceptofatomicvalenceatthattimeisstillamoreintuitivedescription.Howdoesitworkwithacertainvalence,anditisnotreallyunderstoodhowtheyarecombinedwitheachother.

(1)Afterthediscoveryofelectrons,peoplerealizedthatthepositivevalenceofanatomisthenumberofelectronsthatanatomloseswhenitiscombined;whilethenegativevalenceisthenumberofelectronsanatomgets.Itispeople'sfurtherunderstandingoftheconceptofatomicvalence.

(2)In1916,theGermanchemistKossel(1888-1956)developedtheatomicvalencetheoryundertheinfluenceofBohr'satomicstructuremodel.Hebelievesthatatomsloseelectronsorgainelectronstoachieveanelectronicstructuresimilartoinertelements,formingstableions.Someofthesestableionsloseelectronsandbecomepositive;theotherpartloseelectrons.Theyarenegativelycharged,andtheseionswithpositiveandnegativechargesarecombinedwitheachotherduetoCoulomb'sgravitationalforce.KosselcalledthisvalencebondbetweenpositiveandnegativeionsformedbyCoulomb'sgravitationalforceasanelectricvalencebond.

(3) Vuonna 1916 amerikkalainen kemisti Lewis (1875-1946 jKr) esitti kovalenttisten sidosten teorian.

(4) Upouusi kemiallinen sidoskonsepti "elektroniikkapilvi".

(5) Valenssisidoteoria, jota kutsutaan molekyyli- tai bitaaliteoriaksi.

(6)Paralleltothevalencebondtheory,themolecularorbitalmethodisusedtostudythemolecularbondforce.

Afterenteringthe20thcentury,thenaturallawsofmicro-objectshavebeencontinuouslyrevealed,andexperimentalmethodshavechangedwitheachpassingday.Asaresult,theentirechemistryhaschangedthefaceofthefactoryandformedalargefamilywithmanybranches.Tounderstandthecompositionandstructureofsubstances,chemicalanalysisisnecessary.

Withthedevelopmentofvarioussciencesandtechnologiesinthe20thcentury,especiallythedevelopmentofopticsandelectricity,chemicalanalysismethodshavechangedrapidly,providingaprerequisiteformorequantitativeandprecisechemicalresearch.Thewideapplicationofopticalanalysismethods(includingspectroscopicanalysisandphotometricanalysis),chromatography(includingchromatography,tomography),andelectrochemicalanalysishavemadechemicalanalysisdevelopedfromthemacroscopictothemicroscopic,andfromtheoveralltoThemicroscopicareaextendsfromthewholetothesurfaceandthethinlayer,andstretchesfromthestaticstatetothedynamicstate.Thecontentoftheanalysishasfarexceededthecompositionofasimplesubstance,andinvolvedtheinternalstructureofthesubstance.

Theestablishmentofsyntheticorganicchemistryandpolymerchemistry

Duetothedevelopmentofthechemicalindustry,humanshavenotonlyextractedorganicsubstancesfromnaturalproducts,agriculturalproducts,coal,andcoaltar,butalsoin20Inthecentury,variousorganiccompoundscouldbeproducedfromcalciumcarbide,petroleum,etc.asrawmaterials.Inaddition,simpleorganicmoleculescanbeusedtoartificiallyproduceavarietyofsyntheticdyes,syntheticfibers,syntheticdrugs,syntheticrubber,syntheticplastics,syntheticproteinsandotherpolymercompounds,formingahigh-levelstudyoftherelationshipbetweenthestructureandperformanceofmacromolecules.Molecularscience.

Foralongtime,peoplehavebelievedthatcellulose,starch,protein,etc.areformedbytheassociationofmanysmallmoleculeswithringstructures.Until1920,theGermanchemistStaudinger(1881-1965)Thecycliccompoundisdistinguishedfromthelong-chainpolymercompound,whichprovesthatnaturalrubber,cellulose,etc.arenotthephysicalassociationofmultiplecyclicsmallmolecules,butlargemoleculeswithachainstructureandahighmolecularweight.However,theconceptofmacromoleculeswasnotimmediatelywidelyacceptedatthattime,andmanychemistsstillsupportedtheideaof​​cyclicstructure.By1930,becauseStaudinger,SwedishchemistSvidberg(1884AD)andothersdeterminedthemolecularweightofpolymers,AmericanchemistCarozes(1896-1937AD)passeddibasicacidandglycolThesynthesisofpolymerfiberfilamentswithamolecularweightofabout20,000,confirmedthetheoryofpolymerlong-chainstructure.Inthe1930s,chemistsestablishedastructuralmodelofpolymercrystals,putforwardthestatisticaltheoryofpolymerlongchainsandthetheoryofmolecularmotion,andsynthesizedvitaminsA,B2,C,D,E,Kandsyntheticresins.Wait.Theapplicationofnuclearmagneticresonanceandtheinventionofelectronmicroscopyhaveenabledtheresearchofmodernpolymerchemistrytoachievemoreresults,andtherehavebeenalargenumberofhigh-efficiencycatalysts,high-strengthpolymermaterialswithspecialfunctions.Theinterpenetrationbetweenpolymerchemistryandbiologyhasmadegreatprogressinbiochemistry.

In-depthbiologicalresearchfromthecellularleveltothemolecularlevel

1.Thetheoryofspeciesevolution,thelawofinheritance,andthetheoryofgenesareimportantdiscoveriesinbiologyinthe19thcentury.Sincethebeginningofthe20thcentury,farming.Thedirectionalbreedingofhigh-qualityspecies,theapplicationofbiologicalhormones,thediagnosis,preventionandcontrolofgeneticdiseasesandtumors,andtheresearchontheresistanceofpathogensallrequirein-depthexplanationsintheoryandeffectivemeasuresinpractice.Learningfromthemacro-qualitativeinvestigationintoitsmicro-quantitativeexplorationfield,soastofindouttheinternalmechanismofbiologicalevolution,heredityandmutation.

(1)In1909,AmericanbiologistMorgan(1866-1945AD)proposedthegenetheoryonthebasisofMendeliangenetics,whichregardedgenesassphericalparticleslocatedonchromosomes.Genesarefunctionallythesmallestunitthatdeterminesthetrinityofdifferences,mutationsandrecombinationofgenetictraits.

(2)1800-luvun lopussa ja 1900-luvun alussa biokemian, biofysiikan, bakteriologian, virologian jne. tunkeutuessa syntyi uusi tiede-molekyylibiologia.

(3)Sincethediscoveryofthecellinthe19thcenturyandtakingitasthebasicunitoflife,peoplehavebeguntostudythestructureandfunctionofthecell.2.Researchonlifephenomenaatthemolecularlevel

Theresearchonlifephenomenaatthemolecularlevelandthebirthofmolecularbiologyaremainlythefollowingdiscoveries:

First,Usingexperimentalmethodstorevealtherelationshipbetweengenesandenzymes.

Theyirradiatedtheredbreadmoldwithraysandultravioletraystocausemutationsinsomeoftheirgenes,andthenexploredtheeffectofgeneticchangesonthenutritionalrequirementsofthemold.Theredbreadmoldcangrowinamediumcomposedofsugar,saltandanauxin,butsomemutantredbreadmoldsobtainedbyirradiationlosetheirgrowthability.Thisisbecausethemutanthasdestroyedthegeneoftheenzymethatmakesarginine,andwithoutthiskindofmold,themoldcannotproducethearginineitneedsandcannotgrow.Afteralotofresearch,theyhaveobtainedanewconceptintherelationshipbetweengenesandtraitdevelopment:nomatterwhattraitsageneaffects,itfirstdeterminesenzymes,enzymesdeterminemetabolism,andmetabolismdeterminesvarioustraits.Basedonthis,Biddleproposedthe"onegene,oneenzyme"theory.Itshowsthattherelationshipbetweengenesandhereditarytraitsisnotdirectlycorrespondingasoriginallythought.Eachgeneworksthroughaspecialenzyme,orgenesworkthroughtheregulationofcertainchemicalprocesses.The"onegene,oneenzyme"theorydescribestherelationshipbetweenheredityandmetabolicprocesses,whichleadspeopletoimaginethatgenesareatemplatefortheformationofenzymes.

Second,aboutthediscoverythatDNAisacarrierofgeneticinformation.

In1944,threeAmericanbiochemistsAvery(1861-1955AD)andMcLeod(AD1909-)McCarty(AD1911-)collaboratedtofindapneumococcalstrainExtractingDNAandtransferringittoanothertypeofbacteriaprovesthatonetypeofbacteriahasacquiredthegeneticcharacteristicsoftheprevioustypeofbacteria,therebyindicatingthatDNAmaybethechemicalandphysicalbasisofgenetictraits.Thisdiscoveryhasfar-reachingsignificance,ithasarousedmorepeople'sinterest,butalsoarousedsomepeople'ssuspicion.DelbruckoftheUnitedStates(1906-AD),whocametotheUnitedStatesfromItaly,LuriaandHorch(1908-),alsoformedaphageresearchteaminthe1940s.TheyfoundthatasinglephageenteredE.coli.Replicateitself100timesinhalfanhour.In1952,Holschetal.usedisotopelabelingmethodstofindthatonlytheDNApartofthephageinvadedandreproducedparasiticbacteria,whiletheproteincoatremainedoutsideofE.coli.ThisexperimentmoreclearlyprovesthatDNAcarriesalltheinformationofphageself-replication,andDNAisthecarrierofgeneticinformation(geneticinformationreferstothesequenceofbasesinDNA).

Kolmanneksi DNA-molekyylien kaksoisketjurakenne.

ResearchonthemolecularstructureofDNAisbeingcarriedoutseparatelyintheUKatthesametime.TheyareWilkinsofKingsCollegeLondon(AD1916-),femalescientistFranklin(AD1920-)andCambridgeWatson(AD1928-)andCrick(AD1916-)oftheUniversity.AmemberofWatson’soriginalAmericanbacteriophageresearchteam,helaterwenttotheUKtolearntoanalyzethecrystalstructureofproteinsbyX-raydiffraction;Crickoriginallystudiedphysics,butlaterbecameinterestedinbiologyandworkedonthesamewithWatson.Research.WatsonandCrickcametoaveryimportantconclusiononthebasisofanalyzingandstudyingtheinformationobtainedbyX-raydiffraction:DNAmoleculeiscomposedofdoublehelix,twophosphatesugarchainsformtheskeleton,andthroughaseriesofsynthesisThepairofnucleotidebases(adenineA,thymineT,cytosineC,guanineG)arelinkedbyhydrogenbonds,whereATandGCarepairedwitheachother,andeachsinglehelixformsitsowncomplementaryhelix.Thegeneticinformationisexpressedbythesequenceofnucleotides.ThebasicfeatureofthenucleotidesequenceisthatAiscomplementarytoT,andGiscomplementarytoC.Duetothiscomplementaryfeature,DNAcanreplicateonitsown.Therelationshipbetweenthedoublehelixstructureisliketherelationshipbetweenalockandakey.Whenseparated,eachcanformitsowncomplement,thusrebuildingallthedouble-strandedDNAmolecules.Ithaslongbeenknownthattheprocessofcelldivisionistopassthegeneticgenesofthemothercelltothedaughtercells,butnowitisexpressedthroughthestructureofDNA.ThediscoveryofthedoublehelixstructureofDNAiscalledthegreatestdiscoveryofbiologyinthe20thcenturyandisasignofthebirthofmolecularbiology.

Neljänneksi DNA:n ja RNA:n toiminta

In1955,theSpanishAmericanOacho(1905-AD)andtheAmericanKongBo(1918-)firstusedenzymesThemethodartificiallysynthesizesDNAandRNA.Inthestudyofhowgenescontrolthesynthesisofaspecificproteinincells,FrenchbiochemistsJacob(1902-AD),Levov(1902-AD)andMono(1910-1976)discoveredthatAmessengerRNA(ormRNA)inthecellnucleusfurtherrevealsthefunctionsofDNAandRNA,andunderstandsthespecificprocessoftransmittinggeneticinformationtothenextgenerationthroughthereplicationofDNAmolecules.Inthisprocess,DNAonlyservesasatemplate,whichdeterminesthesequenceofnucleotidesinmRNA;whenmRNAissynthesized,theso-calledtranscriptioniscompleted,mRNAentersthecytoplasmfromthenucleus,andmRNAislikeamessengerthatbringssynthesisThecodeoftheprotein.Basedontheirresearchonbacteria(usuallyEscherichiacoli),Jacob,Monoandothershaveidentifiedthreegenesandestablishedamodelofhowtoquantitativelycontrolproteinsynthesisatthetranscriptionallevel.Atfirst,peoplethoughtthatafterDNAmoleculesreplicatedthemselves,theytranscribedgeneticinformationtomRNA,andmRNAtranslatedthegeneticinformationintoprotein.Thisdirectionwasirreversible,calledthecentrallaw.Later,peoplediscoveredthatthislawcannotbeabsolute.Insomecases,RNAcanalsobeacarrierofgeneticinformation,andgeneticinformationcanalsobetransmittedfromRNAtoDNA,whichiscalledtheanti-centrallaw.

Viidenneksi, geneettisen kooditaulukon etu

Thewayinwhichdifferentnucleotidesequencesdeterminethesequenceofdifferentaminoacidsiscalledthegeneticcode.AmericanbiochemistsHolly(1922-AD),Keana(1922-AD)andothersfirstmadeimportantcontributionstoelucidatingthegeneticcode;andtheAmericanscientistNilumbowasofgreatsignificancetothesubsequentdevelopment.Ge(1927-AD)andFrenchscientistMatthew,theydeterminedthegeneticcodeofvariousaminoacidsinthelaboratory.By1969,themeaningof64kindsofgeneticcodeshadbeentested,andthegeneticcodetablewaslisted.

3. Kattava evoluutioteoria

ThestudyoflifephenomenaatthemolecularlevelhasfurtherenrichedDarwin'stheoryofevolution,andmodernDarwinism,orthetheoryofcomprehensiveevolution,hasemerged.

After1900,MendeliansbegantoconductexperimentalresearchoncertainfactsofevolutionandcametoconclusionsthatweredifferentfromsomeprinciplesofDarwinism.Atthistime,notonlygeneticistsopposedDarwinism,butevenThosewithanevolutionaryviewalsobegantoattackDarwinism.Thiskindofcontroversyhasalreadyexisted.SoonafterDarwin's"OriginofSpecies"waspublishedin1859,in1864,GermanembryologistCrickellputforwardthetheoryofheterogeneousreproduction,opposingslowevolution,naturalselectionandstruggleforsurvival.Hebelievesthatevolutioniscarriedoutinaleapmodeundertheinfluenceoftheinternaldevelopmentoforganisms.Later,somepeopleformedamutationtheorybasedonexperimentsandobservationsoneveningprimrose.Theybelievedthathereditarycharacteristicsandtraitscouldsuddenlymutate,andnewspeciesweredevelopedbyleap.Itdoesnotdependontheinfluenceoftheexternalenvironment.ThesetheoriesareopposedtoDarwin'stheoryofslowevolutionthat"thereisnoleapinnature",andtheydenytheroleofnaturalselection.Theoppositionbetweengeneticsandevolutionisonlyatemporaryphenomenon.Withthedeepeningofresearch,theprocessofcombininggeneticsandevolutionhasbegun.

4.Evaluationofthecomprehensivetheoryofevolution:Thecomprehensivetheoryofevolutionnotonlyreaffirmsthegreatroleofnaturalselection,butalsousesnaturalselectiontoexplainmanyfactsthatclassicalDarwinismcannotexplain,andcompletelyoverturnsalloutdatedevolutionaryhypotheses.(Suchasacquiredinheritance,autogenesis,exogenousoccurrence,pre-selectionadaptation,etc.)andalltheoriesthatexplainevolutionwithacertainsinglefactor(mutation,geneticdrift,isolation,etc.).InthehistoricalprocessfromDarwin'stheoryofevolutiontothecomprehensivetheoryofevolution,onecanseethegeneralprocessofthedevelopmentofscientifictheories.People'sunderstandingoftheeffectsofmutationandnaturalselectionisalsodevelopinginaccordancewiththelawofaffirmation,negation,andnegationofnegation."Scienceisoriginallyadevelopingconcept,andscientifictheoriesarealsodeveloping.Thehistoryofscienceandtechnologyshowsthatinpeople'sunderstandingofnature,thereisnouniversaltruth(space)andalltimes(time).Theexistingscientifictheorieshaveroomforfurtherexploration.

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