化学英文化学报告Word格式文档下载.docx
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化学英文化学报告Word格式文档下载.docx
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CalculatethePercentYieldofFerrate
TheSpectraVisspectrometerwascalibratedusingDIwaterinfullspectrummode.TheDIwaterwasremovedthoroughlyusingaplasticpipetteandthesodiumferratewasputinitsplace.Theabsorbanceofthesodiumferrateat510nmwasrecorded;
however,sincethevaluerecordeddidnotmeettherequirements,thesolutionwasdiluteduntilthevalueoftheabsorbancerecordedat510nmwasbeneath1.5.Whenthatlevelwasreached,anothersampleofthesolutionwastestedat510nmandanothervaluefortheabsorbancewasrecorded.
Theremainderofthesolutionwasplacedinanotherbeakerinpreparationforthenextphaseoftheexperiment.
TheconcentrationofferrateintheoriginalsolutionwascalculatedusingBeer’sLaw.
Thetwovaluesforconcentrationwereusedbytakingtheaverageofthetwotogettheexperimentalyieldoftheferrate.
Thisvalueoftheexperimentalyieldwascomparedtothetheoreticalyieldthatwascalculatedatthebeginningoftheexperiment.
Part3:
PerformingtheReactionbetweenFerrateandDIatrizoic
Inthispartoftheexperiment,thegoalwastoperformthereactionofferrateandDTZAtoseehowfastthereactiontakes.Thereactionwastobedonetwoseparatetimesandexpectedtobesimilaronetotheother.
Inafirsttime,theSpectraVisspectrometerwascalibratedusingDIwater.AfterthecalibrationtheDIwaterwasdiscardedinawastebeaker.
Then3mLofthesodiumferratesolutionwaspouredintoacuvetteandameasureoftheabsorbanceat510nmwasdone.Similarlytothesecondpart,iftheabsorbancevaluewasabove1.5,thesolutionwasdilutedtogetanappropriateabsorbancevalue.
Thecuvettewasthoroughlycleaned.Afterwards,2.0mLofDTZAat0.040Mwasacquiredand1.5mLofthatsamesolutionwasdrawnwithapipetteandpouredintothecuvette.
Thenextstepshadtobedonequicklyinordertoassureaccurateresults.
1.5mLoftheFeO42-wasaddedtothecuvetteandatthattimeastopwatchwasstarted.Theabsorbancewasmeasuredassoonasbothsolutionsmixedinthecuvette.Thecuvettewasshakedfor5secondsandplacedinthespectrometertomeasureabsorbance.Everyonceinawhileduring5minutesworthofrecordingoftheabsorbancethecuvettewastakenoutandshaken.Themeasurementsweredoneevery30secondsduringthe5minutetimeframe.
Afterthe5minuteswereup,theferrate-DTZAsolutionwasdiscardedinthewastebeakerandthecuvetterinsedout.TheabovewasrepeatedforanothertrialwithanothercombinationofferrateandDTZAidenticaltothepreviousone.
Theworkareawasthencleanedandahypothesisformulatedfortheresearchpartoftheexperiment.
Materials:
·
20mLofCommercialBleach
StirringBar
StirPlate
10gofNaOHpellets
0.50mLof0.30FeCl3solution
SuctionFiltrationapparatus
Graduatedcylinder
GlassVial
SpectraVisspectrometer
Pipettes
Cuvette
Wastebeaker
Testtube
0.040MDTZA
Plasticbucket
Ice
Thermometer
Results(SaraFurgeson)
Thetheoreticalyieldofthereactiontocreatesodiumferrateusingbleach,NaOH,andFeCl3wascalculatedusingtheFeCl3asthelimitingreagent.Asshownintheequationforthereaction,foreverymoleofFeCl3used,onemoleofsodiumferrate(Na2FeO4)wouldbeproduced.
2FeCl3+3NaClO+10NaOH→2Na2FeO4+9NaCl+5H2O
Thereactionused0.50mLof0.30MFeCl3,andthefinalamountofferratesolutionwas19mL.Thetheroreticalyieldwascalculatedtobe0.00769M.
0.50mL*0.30mol/LFeCl3*1L/1000mL=0.00015mol
0.00015mol/19mL*1000mL/L=0.00789mol/L=0.00789M
Staringwith2.6mLofsolution,10mLofwaterwasaddedtodiluteit.It’sabsorbanceat510nmwas1.455,givingitaconcentrationof0.001265M.Anothersamplehadanabsorbanceof1.192at510nmandaconcentrationof0.001037M.UsingtheformulaV1C1=V2C2theoriginalconcentrationsofthesolutionswerecalculatedtobe0.00613Mand0.00502M.Theaveragebetweenthemwas0.00558M.Thiswasdividedbythetheoreticalyieldof0.00789Mgivinga70.7percentyield.
Calculatingconcentrationsofsamples
V1C1=V2C2
2.6mL*C1=12.6mL*0.001265M
C1=0.00613M
2.6mL*C1=12.6mL*0.001037M
C1=0.00502M
Averageoftwoconcentrations
(0.00613M+0.00502M)/2=0.00558M
Calculatingthepercentyield
(0.00558M/0.00789M)*100%=70.7%
Thereactionbetweenthosesolutionsof00558MferratewastimedasitreactedwithDTZA.Theabsorbancewasmeasuredasthetimedpassedtocalculatehowfastthereactionwastakingplaceandhowfasttheconcentrationwaschanging.Thenthisexperimentwasrepeatedatdifferenttemperaturestoseeifloweringthetemperaturewouldslowdownthereaction.Thetemperaturestestedwere1,4.8,12,and16degreesCelsius.AlltheratesofreactionweretakenfromFigures3through7andcompiledintoTable8andFigure8forcomparison.
Trial1:
Time(s)
ABS@510nm
FerrateConc.(M)
0.631
0.000548696
30
0.656
0.000570435
60
0.674
0.000586087
90
0.622
0.000540870
120
0.605
0.000526087
150
0.583
0.000506957
180
0.560
0.000486957
210
0.552
0.000480000
240
0.542
0.000471304
270
300
Table1:
Thistableshowsthedifferencesinabsorbanceat510nmandconcentrationasthetimechangesforthefirsttrialofthereactionbetweenferrateandDTZA.
Figure1:
ThisshowsthefirsttrialoftimedreactionbetweenferrateandDTZAandtherelatedequation.
Trial2:
0.589
0.000512174
0.578
0.000502609
0.579
0.000503478
0.582
0.000506087
0.569
0.000494783
0.562
0.000488696
0.558
0.000485217
0.556
0.000483478
Table2:
Thistableshowsthedifferencesinabsorbanceat510nmandconcentrationasthetimechangesforthesecondtrialofthereactionbetweenferrateandDTZA.
Figure2:
ThisshowsthesecondtrialoftimedreactionbetweenferrateandDTZAandtherelatedequation.
Reactionsat1DegreeCelsius
0.828
0.000720000
0.830
0.000721739
0.837
0.000727826
0.729
0.000633913
0.719
0.000625217
0.655
0.000569565
0.633
0.000550435
0.658
0.000572174
0.667
0.000580000
0.630
0.000547826
0.643
0.000559130
Table3:
ThisshowsthesamereactionwhentheferrateandDZTAstartedat1degreeCelsius.Asthereactiontakesplace,absorbanceandconcentrationchangewithtime.
Figure3:
Thisshowstherelationshipbetweenthetimeandtheconcentrationwhenthereactionstartedat1degreeCelsius.
Reactionsat4DegreesCelsius
0.867
0.000753913
0.868
0.000754783
0.861
0.000748696
0.845
0.000734783
0.835
0.000726087
0.834
0.000725217
0.844
0.000733913
0.832
0.000723478
0.827
0.00071913
Table4:
ThisshowsthesamereactionwhentheferrateandDZTAstartedat4degreesCelsius.Asthereactiontakesplace,absorbanceandconcentrationchangewithtime.
Figure4:
Thisshowstherelationshipbetweenthetimeandtheconcentrationwhenthereactionstartedat4degreesCelsius.
Reactionsat8DegreesCelsius
0.939
0.000816522
0.81
0.000704348
0.805
0.0007
0.809
0.000703478
0.816
0.000709565
0.793
0.000689565
0.822
0.000714783
0.812
0.000706087
0.806
0.00070087
Table5:
ThisshowsthesamereactionwhentheferrateandDZTAstartedat8degreesCelsius.Asthereactiontakesplace,absorbanceandconcentrationchangewithtime.
Figure5:
Thisshowstherelationshipbetweenthetimeandtheconcentrationwhenthereactionstartedat8degreesCelsius.
Reactionsat12DegreesCelsius
0.647
0.000562609
0.635
0.000552174
0.91
0.000791304
0.847
0.000736522
0.817
0.000710435
0.839
0.000729565
0.802
0.000697391
0.807
0.000701739
0.776
0.000674783
0.78
0.000678261
0.803
0.000698261
Table6:
ThisshowsthesamereactionwhentheferrateandDZTAstartedat12degreesCelsius.Asthereactiontakesplace,absorbanceandconcentrationchangewithtime.
Figure6:
Thisshowstherelationshipbetweenthetimeandtheconcentrationwhenthereactionstartedat12degreesCelsius.Theconcentrationat0and30secondswaslowerthanallofthefollowingreadings.Therewasprobablysomeerror,sothesetwotimeswereignored.
Reactionsat16DegreesCelsius
0.745
0.000647826
0.725
0.000630435
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