intermolecular forces of attraction - cobequid educational :分子間的吸引力——cobequid教育_第1頁
intermolecular forces of attraction - cobequid educational :分子間的吸引力——cobequid教育_第2頁
intermolecular forces of attraction - cobequid educational :分子間的吸引力——cobequid教育_第3頁
intermolecular forces of attraction - cobequid educational :分子間的吸引力——cobequid教育_第4頁
intermolecular forces of attraction - cobequid educational :分子間的吸引力——cobequid教育_第5頁
已閱讀5頁,還剩5頁未讀, 繼續(xù)免費(fèi)閱讀

下載本文檔

版權(quán)說明:本文檔由用戶提供并上傳,收益歸屬內(nèi)容提供方,若內(nèi)容存在侵權(quán),請進(jìn)行舉報(bào)或認(rèn)領(lǐng)

文檔簡介

INTERMOLECULARFORCESOFATTRACTIONMETALLICBONDINGWHATISAMETALLICBONDMETALLICBONDINGINSODIUMMETALSTENDTOHAVEHIGHMELTINGPOINTSANDBOILINGPOINTSSUGGESTINGSTRONGBONDSBETWEENTHEATOMSEVENAMETALLIKESODIUMMELTINGPOINT978CMELTSATACONSIDERABLYHIGHERTEMPERATURETHANTHEELEMENTNEONWHICHPRECEDESITINTHEPERIODICTABLESODIUMHASTHEELECTRONICSTRUCTURE1S22S22P63S1WHENSODIUMATOMSCOMETOGETHER,THEELECTRONINTHE3SATOMICORBITALOFONESODIUMATOMSHARESSPACEWITHTHECORRESPONDINGELECTRONONANEIGHBOURINGATOMTOFORMAMOLECULARORBITALINMUCHTHESAMESORTOFWAYTHATACOVALENTBONDISFORMEDTHEDIFFERENCE,HOWEVER,ISTHATEACHSODIUMATOMISBEINGTOUCHEDBYEIGHTOTHERSODIUMATOMSANDTHESHARINGOCCURSBETWEENTHECENTRALATOMANDTHE3SORBITALSONALLOFTHEEIGHTOTHERATOMSANDEACHOFTHESEEIGHTISINTURNBEINGTOUCHEDBYEIGHTSODIUMATOMS,WHICHINTURNARETOUCHEDBYEIGHTATOMSANDSOONANDSOON,UNTILYOUHAVETAKENINALLTHEATOMSINTHATLUMPOFSODIUMALLOFTHE3SORBITALSONALLOFTHEATOMSOVERLAPTOGIVEAVASTNUMBEROFMOLECULARORBITALSWHICHEXTENDOVERTHEWHOLEPIECEOFMETALTHEREHAVETOBEHUGENUMBERSOFMOLECULARORBITALS,OFCOURSE,BECAUSEANYORBITALCANONLYHOLDTWOELECTRONSTHEELECTRONSCANMOVEFREELYWITHINTHESEMOLECULARORBITALS,ANDSOEACHELECTRONBECOMESDETACHEDFROMITSPARENTATOMTHEELECTRONSARESAIDTOBEDELOCALIZEDTHEMETALISHELDTOGETHERBYTHESTRONGFORCESOFATTRACTIONBETWEENTHEPOSITIVENUCLEIANDTHEDELOCALISEDELECTRONSTHISISSOMETIMESDESCRIBEDAS“ANARRAYOFPOSITIVEIONSINASEAOFELECTRONS“IFYOUAREGOINGTOUSETHISVIEW,BEWAREISAMETALMADEUPOFATOMSORIONSITISMADEOFATOMSEACHPOSITIVECENTREINTHEDIAGRAMREPRESENTSALLTHERESTOFTHEATOMAPARTFROMTHEOUTERELECTRON,BUTTHATELECTRONHASNTBEENLOSTITMAYNOLONGERHAVEANATTACHMENTTOAPARTICULARATOM,BUTITSSTILLTHEREINTHESTRUCTURESODIUMMETALISTHEREFOREWRITTENASNANOTNAMETALLICBONDINGINMAGNESIUMIFYOUWORKTHROUGHTHESAMEARGUMENTWITHMAGNESIUM,YOUENDUPWITHSTRONGERBONDSANDSOAHIGHERMELTINGPOINTMAGNESIUMHASTHEOUTERELECTRONICSTRUCTURE3S2BOTHOFTHESEELECTRONSBECOMEDELOCALIZED,SOTHE“SEA“HASTWICETHEELECTRONDENSITYASITDOESINSODIUMTHEREMAINING“IONS“ALSOHAVETWICETHECHARGEIFYOUAREGOINGTOUSETHISPARTICULARVIEWOFTHEMETALBONDANDSOTHEREWILLBEMOREATTRACTIONBETWEEN“IONS“AND“SEA“MOREREALISTICALLY,EACHMAGNESIUMATOMHASONEMOREPROTONINTHENUCLEUSTHANASODIUMATOMHAS,ANDSONOTONLYWILLTHEREBEAGREATERNUMBEROFDELOCALIZEDELECTRONS,BUTTHEREWILLALSOBEAGREATERATTRACTIONFORTHEMMAGNESIUMATOMSHAVEASLIGHTLYSMALLERRADIUSTHANSODIUMATOMS,ANDSOTHEDELOCALIZEDELECTRONSARECLOSERTOTHENUCLEIEACHMAGNESIUMATOMALSOHASTWELVENEARNEIGHBOURSRATHERTHANSODIUMSEIGHTBOTHOFTHESEFACTORSINCREASETHESTRENGTHOFTHEBONDSTILLFURTHERMETALLICBONDINGINTRANSITIONELEMENTSTRANSITIONMETALSTENDTOHAVEPARTICULARLYHIGHMELTINGPOINTSANDBOILINGPOINTSTHEREASONISTHATTHEYCANINVOLVETHE3DELECTRONSINTHEDELOCALIZATIONASWELLASTHE4STHEMOREELECTRONSYOUCANINVOLVE,THESTRONGERTHEATTRACTIONSTENDTOBETHEMETALLICBONDINMOLTENMETALSINAMOLTENMETAL,THEMETALLICBONDISSTILLPRESENT,ALTHOUGHTHEORDEREDSTRUCTUREHASBEENBROKENDOWNTHEMETALLICBONDISNTFULLYBROKENUNTILTHEMETALBOILSTHATMEANSTHATBOILINGPOINTISACTUALLYABETTERGUIDETOTHESTRENGTHOFTHEMETALLICBONDTHANMELTINGPOINTISONMELTING,THEBONDISLOOSENED,NOTBROKENINTERMOLECULARBONDINGVANDERWAALSFORCESWHATAREINTERMOLECULARATTRACTIONSINTERMOLECULARVERSUSINTRAMOLECULARBONDSINTERMOLECULARATTRACTIONSAREATTRACTIONSBETWEENONEMOLECULEANDANEIGHBOURINGMOLECULETHEFORCESOFATTRACTIONWHICHHOLDANINDIVIDUALMOLECULETOGETHERFOREXAMPLE,THECOVALENTBONDSAREKNOWNASINTRAMOLECULARATTRACTIONSTHESETWOWORDSARESOCONFUSINGLYSIMILARTHATITISSAFERTOABANDONONEOFTHEMANDNEVERUSEITTHETERM“INTRAMOLECULAR“WONTBEUSEDAGAINONTHISSITEALLMOLECULESEXPERIENCEINTERMOLECULARATTRACTIONS,ALTHOUGHINSOMECASESTHOSEATTRACTIONSAREVERYWEAKEVENINAGASLIKEHYDROGEN,H2,IFYOUSLOWTHEMOLECULESDOWNBYCOOLINGTHEGAS,THEATTRACTIONSARELARGEENOUGHFORTHEMOLECULESTOSTICKTOGETHEREVENTUALLYTOFORMALIQUIDANDTHENASOLIDINHYDROGENSCASETHEATTRACTIONSARESOWEAKTHATTHEMOLECULESHAVETOBECOOLEDTO21K252CBEFORETHEATTRACTIONSAREENOUGHTOCONDENSETHEHYDROGENASALIQUIDHELIUMSINTERMOLECULARATTRACTIONSAREEVENWEAKERTHEMOLECULESWONTSTICKTOGETHERTOFORMALIQUIDUNTILTHETEMPERATUREDROPSTO4K269CVANDERWAALSFORCESDISPERSIONFORCESDISPERSIONFORCESONEOFTHETWOTYPESOFVANDERWAALSFORCEWEAREDEALINGWITHONTHISPAGEAREALSOKNOWNAS“LONDONFORCES“NAMEDAFTERFRITZLONDONWHOFIRSTSUGGESTEDHOWTHEYMIGHTARISETHEORIGINOFVANDERWAALSDISPERSIONFORCESTEMPORARYFLUCTUATINGDIPOLESATTRACTIONSAREELECTRICALINNATUREINASYMMETRICALMOLECULELIKEHYDROGEN,HOWEVER,THEREDOESNTSEEMTOBEANYELECTRICALDISTORTIONTOPRODUCEPOSITIVEORNEGATIVEPARTSBUTTHATSONLYTRUEONAVERAGETHELOZENGESHAPEDDIAGRAMREPRESENTSASMALLSYMMETRICALMOLECULEH2,PERHAPS,ORBR2THEEVENSHADINGSHOWSTHATONAVERAGETHEREISNOELECTRICALDISTORTIONBUTTHEELECTRONSAREMOBILE,ANDATANYONEINSTANTTHEYMIGHTFINDTHEMSELVESTOWARDSONEENDOFTHEMOLECULE,MAKINGTHATENDTHEOTHERENDWILLBETEMPORARILYSHORTOFELECTRONSANDSOBECOMESANINSTANTLATERTHEELECTRONSMAYWELLHAVEMOVEDUPTOTHEOTHEREND,REVERSINGTHEPOLARITYOFTHEMOLECULETHISCONSTANT“SLOSHINGAROUND“OFTHEELECTRONSINTHEMOLECULECAUSESRAPIDLYFLUCTUATINGDIPOLESEVENINTHEMOSTSYMMETRICALMOLECULEITEVENHAPPENSINMONATOMICMOLECULESMOLECULESOFNOBLEGASES,LIKEHELIUM,WHICHCONSISTOFASINGLEATOMIFBOTHTHEHELIUMELECTRONSHAPPENTOBEONONESIDEOFTHEATOMATTHESAMETIME,THENUCLEUSISNOLONGERPROPERLYCOVEREDBYELECTRONSFORTHATINSTANTHOWTEMPORARYDIPOLESGIVERISETOINTERMOLECULARATTRACTIONSIMGOINGTOUSETHESAMELOZENGESHAPEDDIAGRAMNOWTOREPRESENTANYMOLECULEWHICHCOULD,INFACT,BEAMUCHMORECOMPLICATEDSHAPESHAPEDOESMATTERSEEBELOW,BUTKEEPINGTHESHAPESIMPLEMAKESITALOTEASIERTOBOTHDRAWTHEDIAGRAMSANDUNDERSTANDWHATISGOINGONIMAGINEAMOLECULEWHICHHASATEMPORARYPOLARITYBEINGAPPROACHEDBYONEWHICHHAPPENSTOBEENTIRELYNONPOLARJUSTATTHATMOMENTAPRETTYUNLIKELYEVENT,BUTITMAKESTHEDIAGRAMSMUCHEASIERTODRAWINREALITY,ONEOFTHEMOLECULESISLIKELYTOHAVEAGREATERPOLARITYTHANTHEOTHERATTHATTIMEANDSOWILLBETHEDOMINANTONEASTHERIGHTHANDMOLECULEAPPROACHES,ITSELECTRONSWILLTENDTOBEATTRACTEDBYTHESLIGHTLYPOSITIVEENDOFTHELEFTHANDONETHISSETSUPANINDUCEDDIPOLEINTHEAPPROACHINGMOLECULE,WHICHISORIENTATEDINSUCHAWAYTHATTHEENDOFONEISATTRACTEDTOTHEENDOFTHEOTHERANINSTANTLATERTHEELECTRONSINTHELEFTHANDMOLECULEMAYWELLHAVEMOVEDUPTHEOTHERENDINDOINGSO,THEYWILLREPELTHEELECTRONSINTHERIGHTHANDONETHEPOLARITYOFBOTHMOLECULESREVERSES,BUTYOUSTILLHAVEATTRACTINGASLONGASTHEMOLECULESSTAYCLOSETOEACHOTHERTHEPOLARITIESWILLCONTINUETOFLUCTUATEINSYNCHRONIZATIONSOTHATTHEATTRACTIONISALWAYSMAINTAINEDTHEREISNOREASONWHYTHISHASTOBERESTRICTEDTOTWOMOLECULESASLONGASTHEMOLECULESARECLOSETOGETHERTHISSYNCHRONIZEDMOVEMENTOFTHEELECTRONSCANOCCUROVERHUGENUMBERSOFMOLECULESTHISDIAGRAMSHOWSHOWAWHOLELATTICEOFMOLECULESCOULDBEHELDTOGETHERINASOLIDUSINGVANDERWAALSDISPERSIONFORCESANINSTANTLATER,OFCOURSE,YOUWOULDHAVETODRAWAQUITEDIFFERENTARRANGEMENTOFTHEDISTRIBUTIONOFTHEELECTRONSASTHEYSHIFTEDAROUNDBUTALWAYSINSYNCHRONIZATIONTHESTRENGTHOFDISPERSIONFORCESDISPERSIONFORCESBETWEENMOLECULESAREMUCHWEAKERTHANTHECOVALENTBONDSWITHINMOLECULESITISNTPOSSIBLETOGIVEANYEXACTVALUE,BECAUSETHESIZEOFTHEATTRACTIONVARIESCONSIDERABLYWITHTHESIZEOFTHEMOLECULEANDITSSHAPEHOWMOLECULARSIZEAFFECTSTHESTRENGTHOFTHEDISPERSIONFORCESTHEBOILINGPOINTSOFTHENOBLEGASESAREHELIUM269CNEON246CARGON186CKRYPTON152CXENON108CRADON62CALLOFTHESEELEMENTSHAVEMONATOMICMOLECULESTHEREASONTHATTHEBOILINGPOINTSINCREASEASYOUGODOWNTHEGROUPISTHATTHENUMBEROFELECTRONSINCREASES,ANDSOALSODOESTHERADIUSOFTHEATOMTHEMOREELECTRONSYOUHAVE,ANDTHEMOREDISTANCEOVERWHICHTHEYCANMOVE,THEBIGGERTHEPOSSIBLETEMPORARYDIPOLESANDTHEREFORETHEBIGGERTHEDISPERSIONFORCESBECAUSEOFTHEGREATERTEMPORARYDIPOLES,XENONMOLECULESARE“STICKIER“THANNEONMOLECULESNEONMOLECULESWILLBREAKAWAYFROMEACHOTHERATMUCHLOWERTEMPERATURESTHANXENONMOLECULESHENCENEONHASTHELOWERBOILINGPOINTTHISISTHEREASONTHATALLOTHERTHINGSBEINGEQUALBIGGERMOLECULESHAVEHIGHERBOILINGPOINTSTHANSMALLONESBIGGERMOLECULESHAVEMOREELECTRONSANDMOREDISTANCEOVERWHICHTEMPORARYDIPOLESCANDEVELOPANDSOTHEBIGGERMOLECULESARE“STICKIER“HOWMOLECULARSHAPEAFFECTSTHESTRENGTHOFTHEDISPERSIONFORCESTHESHAPESOFTHEMOLECULESALSOMATTERLONGTHINMOLECULESCANDEVELOPBIGGERTEMPORARYDIPOLESDUETOELECTRONMOVEMENTTHANSHORTFATONESCONTAININGTHESAMENUMBERSOFELECTRONSLONGTHINMOLECULESCANALSOLIECLOSERTOGETHERTHESEATTRACTIONSAREATTHEIRMOSTEFFECTIVEIFTHEMOLECULESAREREALLYCLOSEFOREXAMPLE,THEHYDROCARBONMOLECULESBUTANEAND2METHYLPROPANEBOTHHAVEAMOLECULARFORMULAC4H10,BUTTHEATOMSAREARRANGEDDIFFERENTLYINBUTANETHECARBONATOMSAREARRANGEDINASINGLECHAIN,BUT2METHYLPROPANEISASHORTERCHAINWITHABRANCHBUTANEHASAHIGHERBOILINGPOINTBECAUSETHEDISPERSIONFORCESAREGREATERTHEMOLECULESARELONGERANDSOSETUPBIGGERTEMPORARYDIPOLESANDCANLIECLOSERTOGETHERTHANTHESHORTER,FATTER2METHYLPROPANEMOLECULESVANDERWAALSFORCESDIPOLEDIPOLEINTERACTIONSAMOLECULELIKEHCLHASAPERMANENTDIPOLEBECAUSECHLORINEISMOREELECTRONEGATIVETHANHYDROGENTHESEPERMANENT,INBUILTDIPOLESWILLCAUSETHEMOLECULESTOATTRACTEACHOTHERRATHERMORETHANTHEYOTHERWISEWOULDIFTHEYHADTORELYONLYONDISPERSIONFORCESITSIMPORTANTTOREALIZETHATALLMOLECULESEXPERIENCEDISPERSIONFORCESDIPOLEDIPOLEINTERACTIONSARENOTANALTERNATIVETODISPERSIONFORCESTHEYOCCURINADDITIONTOTHEMMOLECULESWHICHHAVEPERMANENTDIPOLESWILLTHEREFOREHAVEBOILINGPOINTSRATHERHIGHERTHANMOLECULESWHICHONLYHAVETEMPORARYFLUCTUATINGDIPOLESSURPRISINGLYDIPOLEDIPOLEATTRACTIONSAREFAIRLYMINORCOMPAREDWITHDISPERSIONFORCES,ANDTHEIREFFECTCANONLYREALLYBESEENIFYOUCOMPARETWOMOLECULESWITHTHESAMENUMBEROFELECTRONSANDTHESAMESIZEFOREXAMPLE,THEBOILINGPOINTSOFETHANE,CH3CH3,ANDFLUOROMETHANE,CH3F,AREWHYCHOOSETHESETWOMOLECULESTOCOMPAREBOTHHAVEIDENTICALNUMBERSOFELECTRONS,ANDIFYOUMADEMODELSYOUWOULDFINDTHATTHESIZESWERESIMILARASYOUCANSEEINTHEDIAGRAMSTHATMEANSTHATTHEDISPERSIONFORCESINBOTHMOLECULESSHOULDBEMUCHTHESAMETHEHIGHERBOILINGPOINTOFFLUOROMETHANEISDUETOTHELARGEPERMANENTDIPOLEONTHEMOLECULEBECAUSEOFTHEHIGHELECTRONEGATIVITYOFFLUORINEHOWEVER,EVENGIVENTHELARGEPERMANENTPOLARITYOFTHEMOLECULE,THEBOILINGPOINTHASONLYBEENINCREASEDBYSOME10HEREISANOTHEREXAMPLESHOWINGTHEDOMINANCEOFTHEDISPERSIONFORCESTRICHLOROMETHANE,CHCL3,ISAHIGHLYPOLARMOLECULEBECAUSEOFTHEELECTRONEGATIVITYOFTHETHREECHLORINESTHEREWILLBEQUITESTRONGDIPOLEDIPOLEATTRACTIONSBETWEENONEMOLECULEANDITSNEIGHBOURSONTHEOTHERHAND,TETRACHLOROMETHANE,CCL4,ISNONPOLARTHEOUTSIDEOFTHEMOLECULEISUNIFORMLYINALLDIRECTIONSCCL4HASTORELYONLYONDISPERSIONFORCESSOWHICHHASTHEHIGHESTBOILINGPOINTCCL4DOES,BECAUSEITISABIGGERMOLECULEWITHMOREELECTRONSTHEINCREASEINTHEDISPERSIONFORCESMORETHANCOMPENSATESFORTHELOSSOFDIPOLEDIPOLEINTERACTIONSTHEBOILINGPOINTSARECHCL3612CCCL4768CINTERMOLECULARBONDINGHYDROGENBONDSTHEEVIDENCEFORHYDROGENBONDINGMANYELEMENTSFORMCOMPOUNDSWITHHYDROGENREFERREDTOAS“HYDRIDES“IFYOUPLOTTHEBOILINGPOINTSOFTHEHYDRIDESOFTHEGROUP4ELEMENTS,YOUFINDTHATTHEBOILINGPOINTSINCREASEASYOUGODOWNTHEGROUPTHEINCREASEINBOILINGPOINTHAPPENSBECAUSETHEMOLECULESAREGETTINGLARGERWITHMOREELECTRONS,ANDSOVANDERWAALSDISPERSIONFORCESBECOMEGREATERIFYOUREPEATTHISEXERCISEWITHTHEHYDRIDESOFELEMENTSINGROUPS5,6AND7,SOMETHINGODDHAPPENSALTHOUGHFORTHEMOSTPARTTHETRENDISEXACTLYTHESAMEASINGROUP4FOREXACTLYTHESAMEREASONS,THEBOILINGPOINTOFTHEHYDRIDEOFTHEFIRSTELEMENTINEACHGROUPISABNORMALLYHIGHINTHECASESOFNH3,H2OANDHFTHEREMUSTBESOMEADDITIONALINTERMOLECULARFORCESOFATTRACTION,REQUIRINGSIGNIFICANTLYMOREHEATENERGYTOBREAKTHESERELATIVELYPOWERFULINTERMOLECULARFORCESAREDESCRIBEDASHYDROGENBONDSTHEORIGINOFHYDROGENBONDINGTHEMOLECULESWHICHHAVETHISEXTRABONDINGARENOTETHESOLIDLINEREPRESENTSABONDINTHEPLANEOFTHESCREENORPAPERDOTTEDBONDSAREGOINGBACKINTOTHESCREENORPAPERAWAYFROMYOU,ANDWEDGESHAPEDONESARECOMINGOUTTOWARDSYOUNOTICETHATINEACHOFTHESEMOLECULESTHEHYDROGENISATTACHEDDIRECTLYTOONEOFTHEMOSTELECTRONEGATIVEELEMENTS,CAUSINGTHEHYDROGENTOACQUIREASIGNIFICANTAMOUNTOFPOSITIVECHARGEEACHOFTHEELEMENTSTOWHICHTHEHYDROGENISATTACHEDISNOTONLYSIGNIFICANTLYNEGATIVE,BUTALSOHASATLEASTONE“ACTIVE“LONEPAIRLONEPAIRSATTHE2LEVELHAVETHEELECTRONSCONTAINEDINARELATIVELYSMALLVOLUMEOFSPACEWHICHTHEREFOREHASAHIGHDENSITYOFNEGATIVECHARGELONEPAIRSATHIGHERLEVELSAREMOREDIFFUSEANDNOTSOATTRACTIVETOPOSITIVETHINGSCONSIDERTWOWATERMOLECULESCOMINGCLOSETOGETHERTHEHYDROGENISSOSTRONGLYATTRACTEDTOTHELONEPAIRTHATITISALMOSTASIFYOUWEREBEGINNINGTOFORMACOORDINATEDATIVECOVALENTBONDITDOESNTGOTHATFAR,BUTTHEATTRACTIONISSIGNIFICANTLYSTRONGERTHANANORDINARYDIPOLEDIPOLEINTERACTIONHYDROGENBONDSHAVEABOUTATENTHOFTHESTRENGTHOFANAVERAGECOVALENTBOND,ANDAREBEINGCONSTANTLYBROKENANDREFORMEDINLIQUIDWATERIFYOULIKENTHECOVALENTBONDBETWEENTHEOXYGENANDHYDROGENTOASTABLEMARRIAGE,THEHYDROGENBONDHAS“JUSTGOODFRIENDS“STATUSONTHESAMESCALE,VANDERWAALSATTRACTIONSREPRESENTMEREPASSINGACQUAINTANCESWATERASA“PERFECT“EXAMPLEOFHYDROGENBONDINGNOTICETHATEACHWATERMOLECULECANPOTENTIALLYFORMFOURHYDROGENBONDSWITHSURROUNDINGWATERMOLECULESTHEREAREEXACTLYTHERIGHTNUMBERSOFHYDROGENSANDLONEPAIRSSOTHATEVERYONEOFTHEMCANBEINVOLVEDINHYDROGENBONDINGTHISISWHYTHEBOILINGPOINTOFWATERISHIGHERTHANTHATOFAMMONIAORHYDROGENFLUORIDEINTHECASEOFAMMONIA,THEAMOUNTOFHYDROGENBONDINGISLIMITEDBYTHEFACTTHATEACHNITROGENONLYHASONELONEPAIRINAGROUPOFAMMONIAMOLECULES,THEREARENTENOUGHLONEPAIRSTOGOAROUNDTOSATISFYALLTHEHYDROGENSINHYDROGENFLUORIDE,THEPROBLEMISASHORTAGEOFHYDROGENSINWATER,THEREISEXACTLYTHERIGHTNUMBEROFEACHWATERCOULDBECONSIDEREDASTHE“PERFECT“HYDROGENBONDEDSYSTEMMORECOMPLEXEXAMPLESOFHYDROGENBONDINGTHEHYDRATIONOFNEGATIVEIONSWHENANIONICSUBSTANCEDISSOLVESINWATER,WATERMOLECULESCLUSTERAROUNDTHESEPARATEDIONSTHISPROCESSISCALLEDHYDRATIONWATERFREQUENTLYATTACHESTOPOSITIVEIONSBYCOORDINATEDATIVECOVALENTBONDSITBONDSTONEGATIVEIONSUSINGHYDROGENBONDSTHEDIAGRAMSHOWSTHEPOTENTIALHYDROGENBONDSFORMEDTOACHLORIDEION,CLALTHOUGHTHELONEPAIRSINTHECHLORIDEIONAREATTHE3LEVELANDWOULDNTNORMALLYBEACTIVEENOUGHTOFORMHYDROGENBONDS,INTHISCASETHEYAREMADEMOREATTRACTIVEBYTHEFULLNEGATIVECHARGEONTHECHLORINEHOWEVERCOMPLICATEDTHENEGATIVEION,THEREWILLALWAYSBELONEPAIRSTHATTHEHYDROGENATOMSFROMTHEWATERMOLECULESCANHYDROGENBONDTOHYDROGENBONDINGINALCOHOLSANALCOHOLISANORGANICMOLECULECONTAININGANOHGROUPANYMOLECULEWHICHHASAHYDROGENATOMATTACHEDDIRECTLYTOANOXYGENORANITROGENISCAPABLEOFHYDROGENBONDINGSUCHMOLECULESWILLALWAYSHAVEHIGHERBOILINGPOINTSTHANSIMILARLYSIZEDMOLECULESWHICHDONTHAVEANOHORANNHGROUPTHEHYDROGENBONDINGMAKESTHEMOLECULES“STICKIER“,ANDMOREHEATISNECESSARYTOSEPARATETHEMETHANOL,CH3CH2OH,ANDMETHOXYMETHANE,CH3OCH3,BOTHHAVETHESAMEMOLECULARFORMULA,C2H6OTHEYHAVETHESAMENUMBEROFELECTRONS,ANDASIMILARLENGTHTOTHEMOLECULETHEVANDERWAALSATTRACTIONSBOTHDISPERSIONFORCESANDDIPOLEDIPOLEATTRACTIONSINEACHWILLBEMUCHTHESAMEHOWEVER,ETHANOLHASAHYDROGENATOMATTACHEDDIRECTLYTOANOXYGENANDTHATOXYGENSTILLHASEXACTLYTHESAMETWOLONEPAIRSASINAWATERMOLECULEHYDROGENBONDINGCANOCCURBETWEENETHANOLMOLECULES,ALTHOUGHNOTASEFFECTIVELYASINW

溫馨提示

  • 1. 本站所有資源如無特殊說明,都需要本地電腦安裝OFFICE2007和PDF閱讀器。圖紙軟件為CAD,CAXA,PROE,UG,SolidWorks等.壓縮文件請下載最新的WinRAR軟件解壓。
  • 2. 本站的文檔不包含任何第三方提供的附件圖紙等,如果需要附件,請聯(lián)系上傳者。文件的所有權(quán)益歸上傳用戶所有。
  • 3. 本站RAR壓縮包中若帶圖紙,網(wǎng)頁內(nèi)容里面會有圖紙預(yù)覽,若沒有圖紙預(yù)覽就沒有圖紙。
  • 4. 未經(jīng)權(quán)益所有人同意不得將文件中的內(nèi)容挪作商業(yè)或盈利用途。
  • 5. 人人文庫網(wǎng)僅提供信息存儲空間,僅對用戶上傳內(nèi)容的表現(xiàn)方式做保護(hù)處理,對用戶上傳分享的文檔內(nèi)容本身不做任何修改或編輯,并不能對任何下載內(nèi)容負(fù)責(zé)。
  • 6. 下載文件中如有侵權(quán)或不適當(dāng)內(nèi)容,請與我們聯(lián)系,我們立即糾正。
  • 7. 本站不保證下載資源的準(zhǔn)確性、安全性和完整性, 同時(shí)也不承擔(dān)用戶因使用這些下載資源對自己和他人造成任何形式的傷害或損失。

評論

0/150

提交評論