Can I Believe My Eyes?blogs.4j.lane.edu/macwilliam/files/2019/09/PS1-Barbs-Version-2019-20.pdfOpCcal...
Transcript of Can I Believe My Eyes?blogs.4j.lane.edu/macwilliam/files/2019/09/PS1-Barbs-Version-2019-20.pdfOpCcal...
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CanIBelieveMyEyes?
PhysicalScience1
Lightwaves,theirrollinsightandinteracAonswithmaBer
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Vocabulary DefiniAons/Images
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ScienAficPrinciples
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Lesson2–WhatcanopAcalillusionsteachus?Lesson2.1–Whatisgoingonwiththesepictures?
Whatwasthepointofthelastunit?
Whatwillwedo?Wewillobservetwostrangeimages.Bytheendoftheunit,wewillbeabletoex-plainhowtheseimageswork.
ProcedureLookatthefirstimageyourteacherprojects.Whatdoyousee?RecordyourobservaConsinthedatatable.Yourteacherwillprojectasecondimage.Whichsquareappearsdarkertoyou,squareAorsquareB?Recordwhatyouseeinthedatatable.Yourteacherwillmakesomechangestothesecondimage.Whichsquareappearsdarkernow,squareAorsquareB?RecordyourobservaCons.
Data
Conclusion
1. WhatdidyounoCceaboutthecirclesinthefirstimage?
2. Doyouthinkwhathappenedwasreal?Howdoyouknow?
Image Observations
First Image
Second Image
Second Image after masks
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3. WhydoyouthinkthatsquareAandsquareBlookeddifferentthefirstCmeyoulookedatthemthantheydidthesecondCmeyoulookedatthem?
4. AskingandexploringtheanswerstoquesConsisimportanttoscience.DoesthisacCvitymakeyouthinkofanyquesConsaboutlightoraboutthingsyousee?ListyourquesConsinthefollowingspace.
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Reading2.2–LookatThis
Ge`ngReadyThepictureshowstwobentrectangles.Whichbentrectangleislonger?Nowusearulertomeasurethesizeofthetwobentrectangles.Wereyoucorrect?Tomostpeople,BlookslongerthanA.Whenyoumeasured,youmighthavelearnedthatyourguesswaswrong.Inthisreading,youwilllearnhowyourbraincangetconfusedbywhatyoureyessee.Youwillbeabletocomparethefiguresinthisreadingtowhatyousawinclass.Tocomparemeanstothinkaboutwhatisalikeandwhatisdifferent.Asyouread,thinkaboutwhatissimilaranddifferentaboutthelightboxandthepicturesinthisreading.WhatAreOpAcalIllusions?Lookatthesepictures.Stareatthesmalldotinthecenterofthecircles.Nowmovethepictureclosertoyouwhileyoukeeplookingatthedot.Whathappens?TrickslikethesearecalledopCcalillusions.OpCcalisawordrelatedtoyoursenseofsight.Manyotherwordsstartwiththeprefixopt-.Anoptometristisaneyedoctor.Ifyouneedglasses,anopCcianmayhavehelpedyouchooseyourglasses.Youmayhaveseenmagicianswhoperformillusions.Magiciansdonotreallymakethingsdisappear.Buttheydoknowhowtofoolyourbrainsoyouthinkthingsdisappear.OpCcalillusionscanbefunbecausetheyfoolyou.OpCcalillusionsareakindoftrick.Youreyesplayanimportantroleinseeing.Butyoureyesandyourbrainworktogether.Yourbrainistheorganthatmakessenseofwhatyousee.InthepictureintheGeengReadingsecCon,youreyesseetwoidenCcalbentrectangles.Youreyesseetherightthing,butyourbraininterpretsitwrong.Whenyourbraingetsitwrong,thisiscalledanillusion.OpCcalillusionsandmagician’stricksarenotreal.Yourbrainisjustfooled.AnotherOpAcalIllusionLookatthesesmalldarksquares.Ifyoulookcloselyforafewseconds,youwillseelightgraycirclesinbetweenthesquares.Arethegraycirclesreallythere,ordotheyjustseemtobethere?Thisisanotherexampleofanillusion.Yourbrainisbeingfooledagain.CanYouFigureThisOut?HereisonemoreinteresCngimage.LookatthelinesseparaCngtherowsofblackandwhitesquares.Doyouthinkwhatyouareseeingisanillusion?Arethelines
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actuallyparallelandyourbrainisbeingfooled,orarethelinesreallyatangles?WeretheImagesinClassOpAcalIllusions?Inclass,yousawstrangeimages.Thefirstlookedlikeabunchofspinningcircles.ThesecondimagelookedlikeacheckerboardwithasquaremarkedAbeingclearlydarkerthananothersquaremarkedB.Finally,yourteacheraddedblackrectanglestothesecondimageanditbecameapparentthatsquaresAandBhadactuallyidenCcaldarkness.Theseimagessucceededinfoolingyourbrain.Theywereillusions.Youobservedarealphenomenon.Whatyousawdependedonchangesinthelight.Aphenomenonisaneventthathappensintherealworldandthatoccursoverandoveragain.SomeCmesyoucanobservethingsthatappearverystrangebutareactuallyreal.Forexample,haveyoueverseenthemoondisappearinthemiddleofthenighteventhoughitisabovethehorizonandtherearenocloudsinthesky?HoldtheCpsofyourthumbandindexfingernexttoeachothersothattheyarejustabouttouching.Holdthemupsothattheyarenexttoyoureyeandlookbetweenthematabrightwhitebackground.Youshouldjustbarelyfeelyourthumbtouchingyourfinger.Youshouldseeoneormoresmallblacklinesbetweenyourfingers.Fromwheredidtheselinescome?Thisisarealthingyouareseeing,notanillusion.Yourbrainisnotgeenganythingwrong.Thisgoalinthisunitistofigureoutwhathappenstomakepeopleseethings,whethertheyarerealorillusions.InvesCgaCngphenomenawillhelpyoulearnhowlightaffectswhatyousee.Inscienceclass,youwillobservedifferentphenomenaalmosteveryday.Bytheendoftheunit,youmaybeabletoexplainhowyoucouldseethetwoimagesfromclass.ObservingtheTwoIllusionsinClassAnimportantpartofscienceismakingobservaCons.AnobservaConistheactofpayingcarefulaPenContoeventsthathappenintheworld.Thisiswhatyoudidinclass.YoupaidcloseaPenContowhatyoucouldseewhenyoulookedatthetwoimages.MakinggoodobservaCons,pluslearningthesciencethatgoeswiththem,willhelpyoutoexplainthingsthathappenaroundyou.WhatQuesAonsDoYouHave?ListquesConsyouhaveaboutlight,seeing,oraboutthetwoimagesfromclassnowthatyouhavefinishedreading.
WhyIsLightImportant?Youalreadyknowthatlighthelpsyousee.Butdidyouknowthatifyouunderstandthebehavioroflight,youcanalsounderstandhowcellphonesandmicrowaveovenswork?ThescienCficideasthatexplainthebehavioroflightalsoexplainhowcomputers,televisions,satellites,GPS,andmanyothersystemswork.Infact,manyscienCficdiscoveriesfromthelast100yearsarebasedonthesameprinciplesthatexplainthebehavioroflight.Youwillnotstudyalloftheseinclass,butyouwilllearnaboutmanyofthem.YoumightalsodecidetoinvesCgateotherusesoflightonyourown.Youmaybesurprisedtolearnthatlightplaysanimportantroleinjustabouteverythingaroundyou.
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Lesson3–WhatDoWeNeedtoSeeanObject?Lesson3.1–Probingideas:Seeingobjectsaroundtheroom.
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillexploresomeofthethingshumansneedinordertosee.Wewilltrytoex-plainwhywecanseesomeobjectsbutnotothers.
ProcedureLookattheimageyourteacherprojects.Whycanthegirlseethetree?
Lookattheimageyourteacherprojects.Whydoesn’tthegirlseethecar?
Asyourteachernamesobjectsintheroom,recordtheminthedatatable.Thenputacheckmark(✓)intheappropriatecolumn.Youwillnotbeabletoseeeverythingyourteachernames.ItisimportantthatyoukeepyourbodyandyoureyesinthesameposiConasyoucollectdata.
Objects around the Classroom I Can See I Cannot See
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Conclusion
1. Whatfactorsaffectwhetheryoucanseeanobjectornot?
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Lesson3.2–DeterminingthecondiAonsforsight-thelightbox.
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillgatherevidenceaboutwhatneedstohappeninorderforpeopletoseeanobject.
ProcedureFollowyourteacher’sdirecCons.RecordyourobservaConsfromeachstepbeforeyoumoveontothenextstep.
Lookintothelightbox.Besurethelidandtheflapremainclosed.Inthedatatable,drawwhatyousee.Keepthelightboxlidclosed.Openthesideflap.Lookintothelightbox.Inthetable,drawwhatyousee.
Data
Conclusion
1. CompareyourobservaCons.
2. WhywereyourobservaConsdifferent?
Observations
Lid and Flap Closed Lid Closed and Flap Open
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Yourteacherwilladdadividertoyourlightbox.Keeptheboxlidclosedandthesideflapopen.Drawwhatyouseeinthefollowingspace.Includeasmuchdetailasyoucan.
Conclusion1. Compareyourdrawingwithotherstudents’drawings.Howcanyouexplainthedifferences?
2. ListthecondiConsthatneedtobemetinorderforpeopletoseeanobject.Thislistshouldbe
agreeduponbythewholeclass.
3. Imaginethatyoulookoutthedoorofyourscienceclassjustasafriendwalksbyandwavestoyou.Explainhowyoucanseeyourfriendinthehall.BesuretouseallofthecondiConsyoupreviouslylistedinyourexplanaCon.
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Reading3.3–PictureThis!
Ge`ngReadyLookcloselyatthepicture.Holdthepaperclosetoyourface.Now,setyourbookdownandlookatthepicturefromacrosstheroom.Whydothesmallpicturesyoucanseeupcloselooklikeonebigpicturefromacrosstheroom?
Inthisreading,youwilllearnhowasimilarideamakesthepicturesthatyouseeonTV.HowDoPeopleSeeObjectsaroundThem?Inclass,youlearnedaboutthingsthataffectwhatpeoplesee.Youlearnedthatthegirlintheimageyourteacherprojectedcanseethetreebecauselighttravelsfromthesun,bouncesoffthetree,andentershereye.
Inthesecondimageyourteacherprojected,somethingdifferenthappens.Lightfromthesunbouncesoffthecar,butthisCmethegirlcannotseethecar.Someofthelighttravelstowardher,butitcannotenterhereye,becausethewallblocksitspath.Ifthelightbouncingoffthecardoesnotenterhereye,thegirlcannotseethecar.DoyouthinkthegirlinImage1canseethesun?Why?(Besuretowriteaboutthepaththelightmighttake.)
DoyouthinkthegirlinImage2canseethesun?Explainyourideas.(Besuretowriteaboutthepaththelightmighttake.)
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InLesson2,youlookedforobjectsaroundtheroom.Youlearnedthatyoucouldonlyseesomeoftheobjectsfromyourseat.Youcouldnotseeotherobjects,eventhoughsomeofyourclassmatescouldseethem.YoualsolookedintotheendofalightboxandlearnedthatsomeCmesyoucouldseewhatwasinside,andsomeCmesyoucouldnot.YourclassusedtheseacCviCestodevelopalistofcondiConsthatneedtobemetinorderforhumanstoseeanobject.Asyouread,thinkaboutthesecondiConsandhowtheyaffectwhatyouseeonatelevision.ADifferentExperiencewithSeeing:HowDoISeeObjectsonTelevision?Ifyouhaveatelevisioninyourhome,turniton.Whatdoyouseeonthescreen?Youprobablyseeaperson,someobjects,orasceneindoorsoroutdoors.However,thereisadifferencebetweenseeingtheactualobjectandseeingtheobjectontelevision.Toseetheobject—likeachair—inreallife,youneedasourcetoprovidelight,andyouneedthelighttobounceoffthechairtoyoureye.Toseeachairontelevision,youdonotneedanaddiConalsourceoflighttobounceoffofthechair.Thetelevisionisthelightsource.Thetelevisionproduceslightthatgoesdirectlytoyoureyes.AnimageontelevisionisbothanobjectandalightsourceatthesameCme.Thatiswhyyoucanseeobjectsontelevisioneveninaroomwithnolights.LookatyouracCvitysheetfromAcCvity2.2toreviewyourlistofcondiConspeopleneedtosee.Explainwhatisdifferentaboutseeinganobjectinaroomandseeinganimageontelevision.UsethelistofcondiConsinyourexplanaCon.
Thedifferencebetweenseeinganobjectandanimageontelevisionisthatanobjectmusthavealightsourcethatisbouncinglightoffofitforustoseeit.Whenweseeanimageonthetelevision,theimageisboththeobjectandthelightsource.Pointouttostudentsthatthistrueforanylightsource;thistrueforanylightsource.Ifyoulookatalightbulb,itisboththeobjectandthelightsource.HowIsanImageonTelevisionSimilartothePictureattheBeginningofThisReading?Whenyouseeobjectsontelevision,youarereallyseeingmanyCnydots.Together,thedotscreateanimagethatlookslikesomethingreal.Thesedotsarecalledpixels.Onsometelevisions,especiallyoldones,youmaybeabletoseethepixelsifyoulookatthescreenclosely.Evenifyoucanseethepixelsupclose,theyaretoosmalltobeseenasindividualdotswhenyoustandfaraway.Instead,yourbrainwillputthemtogethertomakeanimage.ThisisthesamewaythatthepictureintheGeengReadysecConworks.Ifyoustandfarenoughaway,theCnypictureslooklikepixels,andyourbrainputsthemtogethertomakealargerimage.AnExampleofPixelsWhenyouseeanimageonyourtelevisionoronamoviescreen,youareactuallyseeingmillionsofCnydotsthatalltogetherlookliketheobjectorperson.Yourbrainputsthedotstogethersothatyouseeasingleimage.YourtelevisionscreenisacollecConofCnydotsthatjointogethertomakethebigpictureyousee.EachliPledotactslikealightsourceandanobject.Thelightmovesalongastraightpathtoyoureyes.YourbraindoesnotseeabunchofliPleobjects,becauseitputsthemtogethertoseetheimageonthetelevision.
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TwoMoreExamples:NewspapersandArtworkDotpaPernsarenotonlyusedfortelevisionimages.DotsarealsousedincomputerandnewspaperimagesandinpainCngs.Ifyouhaveanewspaperathome,lookatitveryclosely.Ifyouhaveamagnifyingglass,useittolookatthenewspaperupclose.CanyouseetheCnydotsthatmakeupthepicturesandthewords?WhatdoyounoCceinthephotoofaflowerandinthecloseupofthephotonexttoit?
Manythingsintheworldtodayusepixelstomakeimages.Longago,arCstsinFrancepaintedinastylecalledpoinCllism.ImagesusingpoinCllismarecreatedbypainCngmanyCnydotsorpoints.Thecolorsofthepaintarenotmixedtogetherusingabrush.Instead,thedifferentcoloreddotsareplacedveryclosetogether.WhenyoulookatthepainCngfromfaraway,thelightfromtheroombouncesoffthedotsonthepainCngandthenentersyoureye.Yourbrainblendsthedotstogethertoformalargerimage.ComparethedotsusedinpoinCllismwiththedotscreatedonatelevisionscreen.Besurethatyourcomparisondescribeswhatisalikeandwhatisdifferent.
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Lesson4–ConstrucAngModelsofHowPeopleSeeLesson4.1–PreparingtoDevelopModels
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillconstructphysicalmodelsofhowpeoplesee.OurmodelswillrepresentthekeycomponentsandrelaConshipsthatwehavelearnedsofar.
PartA:EvaluaAngaModel
Amodelcanbegoodornot-so-good,dependingonwhatitisbeingusedfor.Whenyouuseamodeltoexplainanideatosomeone,thebestmodelisusuallyasimpleone.AgoodmodelforexplainingsomethingincludesallthekeycomponentsandtherelaConshipsbetweenthem.Itisimportantthatamodelonlyincludesthosethingsandnotextrapartsthatdonothelpexplainsomething.Itisalsoimportantthatyourmodelisaccurate.YoushouldlookcarefullyatyourmodeltobesureyouhaverepresentedthecomponentsandtherelaConshipscorrectly.Yourteachershowedyouamodeloflightusingaclaylightbulbandsometoycars.1. Howcanyouusethismodeltoexplainhowpeoplesee?
2. Howcouldyouimprovethismodeloflight?ThinkaboutthecomponentsandtherelaConshipsbetweenthem.Foreachpartofthemodel,askyourselfifyoucouldexplainhowpeopleseewithoutconsideringthatcomponent.Alsoaskyourselfifthereissomepartofseeingthatyourmodeldoesnotrepresent.
PartB:PlanYourModel
3. Amodelneedstobeconsistentwithalltheevidence.InLesson2,yougatheredevidencethatamodelofseeingneedstoincludefourkeycomponents:alightsource,anobject,aneye,andpathsbetweenthelight,theobject,andtheeye.Lookatthesuppliesyourteacherhasprovided.Whatwillyouusetorepresenteachoftheseparts?
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PartC:BuildandEvaluateYourModel4. Nomodelisperfect.Everymodelhasstrengthsandweaknesses.Whatarethestrengthsand
weaknessesofyourmodel?
5. Whatdidyoulearnasyoumadeyourmodelofhowpeopleseeanobject?
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Reading4.2–Modeling
WhyDoScienAstsUseModels?Whenyouhearthewordmodel,youmightthinkoffashionmodelsormodelairplanesormodelcars.ScienCstsusethewordmodelinaspecialway.Inscience,amodelisawaytorepresentanidea,process,orsysteminordertodescribe,explain,orpredictsomething.Modelshelptoexplainthingsthataredifficulttounderstandordifficulttoobserve.Forinstance,youcannotseeyourheart,butyoucanuseamodelofahearttoexplainhowitpumpsbloodthroughyourbody.Modelscanalsorepresentthingsthataretoobigortoosmalltoobserve.PeoplecannotobservethewholeEarthatonce,buttheycanusemapsandglobesasmodelstohelpthemexplainphenomena.Peopleontelevisionusemapstohelpthemexplainweatherorearthquakes.GlobescanhelpexplainwhyitisdayandnightatdifferentCmesindifferentpartsoftheworld.Inclass,youhavebeendevelopingamodelofhowlightmakesitpossibleforpeopletoseeobjects.Yourmodelhelpsyouunderstand,anditcanalsohelpyouexplainittootherpeople.ScienCstsusemodelstocommunicate.Asyoulearnmoreaboutlight,youmightdecidethatyouneedadifferentmodelthantheoneyoumadetoday.ScienCstsrevisetheirmodelsastheylearnnewthings.ItisOKifyourmodelofhowpeopleseegetsrevised,too.ModelshelpscienCststhinkaboutpossibleanswerstotheirquesConsaboutphenomena.YouwilluseyourmodelofseeingtoexplainhowyoucouldseethestrangeimagesinLesson1.IsItOKthatMyFriend’sModelIsDifferentfromMine?Youandyourclassmatesmayhaveconstructeddifferentmodelsofhowpeoplesee.DifferentmodelscanbehelpfulbecausetheymayshowdifferentinformaConaboutthesamephenomenon.Allmodelshaveadvantagesanddisadvantages.EvengoodmodelscanolenbemadebePer.Youwillbelearninghowtoevaluatemodelstodecidewhatisgoodandwhatneedstobechanged.ScienCstsevaluatetheirownmodelsandrevisethemwhennecessary.Forexample,newdatamakescienCststhinkaboutaphenomenoninanewway.Dataisawordyouwilluseoverandoveragaininscience.WhenscienCstsmakeobservaCons,theytakecarefulnoteswhiletheyareobservingsomethingwiththeirsensesormeasuringitwithinstruments.Thenotestheywriteorrecordarecalleddata.Whentheyusedatatosupportanidea,theyareusingthedataasevidence.Youwilldothesamethinginscienceclass.YourdatamaycomefromyourownobservaConsandmeasurements,oritmaycomefromatableorgraphthatsomeoneelsemade.Whenyouusedatatoexplainanidea,youareusingthedataasevidence.WhenscienCsts—oryou—developamodel,themodelneedstobeconsistentwithalltherelevantevidence.AnExampleofScienAstsRevisingTheirModelsScienCstsreviseamodelwhenitdoesnotworkverywellforexplainingsomething.Forexample,youprobablyknowthatsailorsonceexploredtheworldbysailingacrossoceans.Theydrewmapsoftheoceansandlandtoshowwhattheworldlookedlike.Thesedrawingsweresimilartotheflatmapsweusetoday.Mapsareonekindofmodelthatisdrawn.AflatmodelhelpedearlyscienCstsunderstandmostthingsabouttheworldaroundthem.However,aspeoplemadeobservaConsandtriedtoanswernewquesCons,theyfoundthataflatmodelofEarthdidnotworkforeverything.Forexample,sailorscouldseethetopsofmastsasshipsapproachedthemoverthehorizon.IfEarthwasflat,thatwouldnotmakesense.Theywouldnotseethetopsofmastsfirstandthengraduallyseetherestoftheship.TheyalsowonderedwhythesunchangesitsposiConintheskythroughouttheyear.AflatmodelofEarthwasnotconsistentwiththedatatheyobserved.
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ScienCstsbegantoconsideranewmodel.TheybegantousearoundmodelofEarth—likeaball.AroundEarthmodelcanexplainwhythetopsofships’mastsarevisiblefirst.AglobemodelcanexplaintheposiConsofthesuninthesky,anditcanexplainseasons.Later,photographstakenfromspaceshowedtheshapeofEarth.BeforescienCstsknewforsure,theyhadtokeeptesCngtheirmodeltoseewhetheritworkedtoexplaintheirobservaCons.Today,aglobeservesasagoodmodelformanythingsscienCstswanttoexplain.Aflatmapisgoodforshowinghowtogetfromoneplacetoanother.However,itisnotgoodforexplaininghowthesunrisesandsetsorhowashipcansailaroundtheworld.Everymodelhasadvantagesanddisadvantages.Amodelthatexplainswhatyouknowtodayabouthowlighthelpspeopleseemightnotbeagoodmodelforwhatyouwilltrytoexplainlaterintheunit.Youmightreviseyourmodelasyougathermoredata.ScienCstsrevisetheirmodels,andyoucanreviseyours,too.CheckYourUnderstandingGobacktothestatementsintheGeengReadysecCon.Nowthatyouhavefinishedreading,usethecolumnontherighttocheckwhetheryouagreeordisagreewitheachstatement.
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Lesson4.3–BuildingtheConsensusModel
Whatwasthepointofthelastlesson?Wewillcombinethepartsofourmodelsthatweagreeaboutintoonemodelcalledaconsensusmodel.Theconsensusmodelwillbeadiagraminsteadofaphysicalmodel.
Whatwillwedo?Wewillcombinethepartsofourmodelsthatweagreeaboutintoonemodelcalledaconsensusmodel.Theconsensusmodelwillbeadiagraminsteadofaphysicalmodel.
QuesAons:
1. Modelshaveadvantagesandtheyhavedisadvantages.Whatdidyouthinkwerethebestpartsofotherstudents’models?Why?
2. Howdoesyourdrawnmodelcomparewiththeconsensusmodelyourclasscreated?Describewhatissimilarandwhatisdifferentaboutthem.
3. Useyourclassconsensusmodeltoexplainwhyyoucannotseeyourgrandmaintheotherroom.
4. WhatdoyousCllneedtoknowabouthowlighthelpsyousee?WhatdoyousCllwanttoknowabouthowlighthelpsyousee?
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Reading4.4–FasterthanaSpeedingBullet
Ge`ngReadyInthisreading,youwilllearnabouthowfastlightmoves.Beforeyouread,thinkofsomeofthefastestthingsyouhaveheardabout.Fillinthechartwithyourideas.
Whenpeoplesaythatturningonalightswitchlightsuptheroom,whatdotheymean?Inclass,youconstructedamodelthatshowswhatisneededforpeopletoseeobjectsinaroom.Thekeycomponentsinyourmodelwereanobject,aneye,alightsource,andthekeyrelaConshipbetweenthesewasthestraightpathsbetweenthem.Whenyouturnonalightbulb,lighttravelsfromthebulboutwardinalldirecConsandhitsobjectsintheroom.Youseetheobjectsbecauselighttravelsfromthelightbulb,bouncesofftheobjects,andthenentersyoureye.Iflighthastotravelbackandforthacrosstheroombeforeyoucanseeanobject,whydoyouseethingsinaroomassoonasyouturnonalightswitch?Theanswerhastodowiththespeedoflight.Lightisveryfast.YouwillreadabouthowscienCstsfiguredouthowfastlightis.HowDoScienAstsMeasureHowFastLightMoves?Youdonothavetowaittoseethingsaleryouturnonalight,becauselightmovessofast.YoudonotevennoCcelightmoving.Itprobablyseemslikelightgetsfromabulbtoanobjectandbacktoyoureyeinstantly.Iflightmovessofast,howcanscienCstsmeasureit?AfamousscienCst,Galileo,triedtomeasurehowfastlightmoves.Galileowantedtomeasurethespeedoflightintheearly1600s.Todothis,hesentanassistanttothetopofahillwithalamp.HewantedtomeasurehowmuchCmeittookforlighttotravelfromonehilltoptoanother.TheassistantrecordedwhatCmeitwasonhiswatchasheturnedonhislight.Galileo,standingonanotherhill,turnedonhislightimmediatelyalerhesawhisassistant’slight.TheassistantthenrecordedtheCmeattheinstanthesawGalileo’slight.Galileo’sideawasthattheassistantwouldhavemeasuredtheCmeittooklighttotravelfromonehilltotheotherandthenbackagain.However,thisdidnotwork.TheCmeittookGalileototurnonhislightwasactuallymuchlongerthantheCmeittookthelighttotravelfromonehilltothenext.WhenGalileofirsttriedtomeasurethespeedoflight,heandhisassistantstoodonhilltopswithlamps.Whywasitnecessaryforthemtobestandingonthetopofhillstoconducttheirexperiment?(ThinkaboutthefourcondiConsneededtoseeanobject.)
Moving Object How Fast does it go?
Fastest human runner
Fastest bicycle rider
Fastest animal
Fastest Car
Fastest man-made object
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Usingtheconsensusmodelyouandyourclassmatesconstructedinclass,explainhowGalileocouldseehisassistant’slight.ThiscanbedonebyshowinghowthekeycomponentsinthemodelrepresentwhatwasinvolvedinGalileoseeinghisassistant’slight.
WhatDoWeKnowabouttheSpeedofLightToday?Inhisexperiment,Galileoandhisassistantwereseveralmilesapart.Today,humanscansendobjectsmuchfartheraway.In1969,theUnitedStatessentastronautstothemoon.Themoonisabout240,000miles(365,000km)awayfromEarth.ThisisliketravelingaroundthewholeEarth10Cmes.Thinkabouthowlongitwouldtakeyoutodrivearoundtheearthinacar.Duringthemissiontothemoon,scienCstsnoCcedthatittookaboutonesecondforlightfromEarthtoreachtheastronautsonthemoon.LightcantravelaroundEarth10Cmesinjustonesecond.Nothingelsecantravelthatfast.Thesunismuchfartherawaythanthemoon.Travelingtothesunwouldbeliketaking37,000tripsaroundEarth.EventhoughEarthisahugedistancefromthesun,itonlytakeslightfromthesunabouteightminutestogettoEarth.Thismeansthatwhenyouseethesun,youareseeinghowitlookedeightminutesago.HowDoestheSpeedofLightComparetoOtherFastThings?Inthebeginningofthisreading,youthoughtaboutsomefastthings.Theworld’sfastestpeoplecanrunatabout25milesperhour.Acheetahcanrun70milesperhour.Thefastestanimalistheperegrinefalcon.Itcanflyover200milesperhour.Humanshavemademachinesthatcanmoveextremelyfast.Thefastestapersonhasevermadeabicyclegois167milesperhour.AThrustSSC,theworld’sfastestcar,cango760milesperhour.Thefastesthuman-madeobjectstravelinspace.AspacecralcalledtheHeliostraveledat150,000milesperhour(or241,400kmperhour).Atthisspeed,itwouldtakeaboutamonthtotravelfromEarthtothesun.Itonlytakeslighteightminutestotravelfromthesuntotheearthbecauselightmovesmuchfasterthananythinghumanshaveevermade.Lightmovesthroughspaceat670,000,000milesperhour.Thismeansthatitwouldtakeajetairplane25daystotravelthesamedistancethatlightcantravelinonesecond.Whenyoufliponalightswitch,itseemsthatlighthitsyoureyeinstantlybecauselightmovessofast.ItmovesbackandforthacrosstheroomsofastthatyoudonotevennoCceitmoving.HowCantheSpeedofLightHelpPeopleMoveFaster?OnewaythatthespeedoflightmaPerstoscienCstsiswhentheythinkaboutspacetravel.Rightnow,ifpeoplecouldtraveltoMarswiththespaceshuPle,itwouldtakeninemonthstogettoMars.ItwouldtakeanotherninemonthstogetbacktoEarth.ScienCstsatNASAarestudyinghowtousenewspaceshipscalledsolarsails.Thisisaphotoofasolarsail.TheseshipscouldtravelthousandsofCmesfasterthanthespaceshuPle.ThespaceshuPleispushedbyburningrocketfuel,butsolarsailsarepushedbylight.Thatmeanstheywouldbemuchfaster.ExperimenCngwithsolarsailsisoneofthewaysthatscienCstsusetheirunderstandingoflighttocreatesomethingnew.Asyouhavelearned,lightmovesextremelyfast,anditwillbeabletohelppeopledothingsevenfaster.InLesson4,youwilllearnaboutwhathappenstothelightthatentersyoureye.
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Lesson5–TheEyeasaLightSensorLesson5.1–HowtheEyeWorks
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewilllearnabouthowoureyesactlikealightsensor.
ProcedureYourteacherwillprojectarepresentaConoftheeye.Usethefollowingspacetodraworwritenotesaboutwhatyourteacherreviewsinclass.
Youaregoingtogoonahuntusingalightsensor.Thesensoronlydetectslightthatcomesfromobjectsdirectlyinfrontofit.Thelighthastobounceofftheobjectorcomefromalightsourceandtravelstraightintothesensor.Inthedrawings,whereisthelightthatthelightsensordetectscomingfrom?Explain.DrawlinesandarrowsinthedrawingstoshowthepaththelighttravelsunClitentersthelightsensor.
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Usethelightsensortomeasurelightindifferentplacesintheroom.RecordthelocaCon,themeasurement,andtheunitsinthefollowingtable.
Wherearethebrightestpartsoftheroom?Whatrangeofvaluesisshownonthedatalogger?
Wherearetheleastbrightpartsoftheroom?Whatrangeofvaluesisshownonthedatalogger?
Conclusion
1. Likethelightsensor,theeyeactsasasensoroflight.Lighthastocomeintothelightsensorandintoyoureyefromoutside.Howdoestheconsensusmodeloflighthelptoexplainwhichpartsoftheroomarethebrightest(ortheleastbright)totheeyes?
2. Ifnolightiscomingfromanyobjectintoyoureye,thenwhatwillyousee?WhatevidencefromaclassroomacCvitysupportsyouranswer?
Location Light Measurement
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3. Doesalightsensordetectanobject,ordoesitdetectthelightcomingfromanobject?Howdoesthiscomparewithhowtheeyeworks?
4. WhydoesitmakeadifferenceinwhichdirecConyoupointthelightsensor?
5. WhydoesitmakeadifferencehowfarawaythelightsensorisfromtheobjectatwhichitispoinCng?
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Lesson5.2–ExploringShadows
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillexploreshadowsinourworld.
ProcedureIfitisasunnyday,gooutsideandlookforashadow.Inthefollowingspace,drawwherethelightsourceiscomparedtotheshadowandtheobjectthatmadetheshadow.Ifpossible,observetheshadowagainanhourlater.Comparethesize,shape,andposiConofthetwoshadows.YoucouldalsodothisacCvityusingashadowinside.
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Reading5.3–EyesintheAnimalKingdom
Ge`ngReadyTrythisathome.Gointoasmallroomwithamirror,likeabathroom.Lookcloselyinthemirroratyoureyes;thenturnoffthelightandmaketheroomasdarkaspossible.Ifyoucannotmaketheroomdark,shutyoureyesandcoverthemwithyourhands.Waitforseveralseconds,andthenturnthelightsonasyouconCnuetolookatyoureyesinthemirror.WhatchangesdoyounoCceinyoureyesimmediatelyaleryouturnthelighton?Whydoyouthinkthischangehappens?
Doyouthinkthesamechangehappenstoanimals’eyes?Inthisreading,youwilllearnwhyyoureyeslookdifferentdependingonwhetherthelightsareonoroff.Youwillalsolearnwhetheranimals’eyesdosomethingsimilarordifferent.HowDoMyEyesSenseLight?Inclass,youlearnedhowthehumaneyeworksasalightsensor.Whenyouseeanobjectinaroom,thelightisbouncingoffofthatobjectandgoingstraightintoyoureye.Howdoesyoureyehelpyousee?Theeyehasseveralimportantparts.Theopeninginthecenteriscalledthepupil.Inthepicture,thepupilislabeled.Itlooksblack,butitisreallyjustlikeaclearwindowthatletslightintotheeye.ThecorneaisaprotecCvecoveringoverthewholeeye.Itkeepstheeyefromgeengscratched.Thelensintheeyeislikethelensineyeglassesorinacamera.Thelensfocusesthelightcomingintotheeye.ThelensfocuseslightontothebackoftheeyeballonanareacalledthereCna.SensorsinthereCnadetectthelightthatreachesthem.ThosesensorssendasignaltothebrainthroughtheopCcnerve.HowDothePartsoftheEyeWorkTogether?Whenyouseealightbulb,severalthingshappen.First,someofthelightcomingfromthebulbentersyoureyeandreachesyourreCna.Second,yourreCnasendsasignaltoyourbrain.Third,yourbrainrecognizesthatthesignalisalightfromalightbulb.Lookatthediagram.Ifacoffeemugwereintheroomsothatyoucouldseeit,thensomeofthelightfromthelightbulbwouldbebouncingoffofthemug.SomeofthelightbouncingoffofthemugwouldenteryoureyeandreachthereCna.Asignalwouldgotoyourbrain,andrecognizeitastheimageofamug.Alothastohappenforyoutoseesomething;butithappensveryquickly.
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UsingEquipmentasaLightSensorYoureyeisasensor.Specialequipmentalsocanactasasensor.Thelightsensorsthatyouusedinthislessonareoneexample.Whenyoupointedthesensoratanobject,itdetectedthelightcomingfromthatobject.Justlikewithyoureyesorwithcameras,lighthadtoenterthesensorinordertobedetected.Insteadofsendingasignalthatyourbrainrecognizesasanimage,thelightsensorsendsasignaltoasmallcomputer.Thiscomputerreceivesthesignalanddisplaysanumberthattellshowmuchlightisenteringthesensor.Whenyousawanobjectintheroomthatlookedbrighttoyoureyes,thelightsensorshowedaveryhighnumberonitsdisplay.YoumayhavegoPenahighnumberwhenyoupointedthesensoratthelightsoratawindow.Whenyousawanobjectthatlookeddimtoyoureyes,thesensorshowedalownumberonitsdisplay.YoumayhavegoPenlownumberswhenyoupointedthesensorundertablesordesks.Whenlightentersasensor,acomputergivesinformaCon.Whenlightentersyoureye,yourbraingivesyouinformaCon.DoAnimalEyesWorklikeHumanEyes?Justlikehumaneyes,animals’eyesworkbydetecCnglight.However,therearesomedifferencesbetweenhumaneyesandsomeanimals’eyes.Inthisreading,youwilllearnaboutthreeanimalsthathaveeyeswithspecialcharacterisCcs.PolarBears
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Haveyoueverplayedoutsideinthesnowonasunnydayorplayedonawhitesandbeachonasunnyday?Ifyouhave,youknowhowbrightitiswhenthesun’slightbouncesoffofthewhitesnoworthewhitesand.YoualsomayhavenoCcedthatitisdifficulttoseeinbrightlightwithoutsquinCng.Whydopeoplesquint?Peoplesquintsothattheireyelidssqueezetogetherandcoverpartoftheiris.WhentheirisisparCallycovered,thepathofsomeofthelightgoingintotheeyesgetsblocked.Polarbearsliveoutsideinthesnow.Becausepolarbearshavetohuntforfoodinintensesunlight,theireyeshavetoallowthemtoseeinverybrightlight.PolarbeareyeshaveaprotecCve,clearcoverovertheireyeballs.Thebearscanseethroughthiscoveringtohunt.Thecoveringprotectstheireyesfrombrightsunlightandthelightthatbouncesoffthesnow.Itiskindoflikehavingbuilt-insunglasses.ThisprotecCvecoveralsohelpsprotectabear’seyeswhenitswimsunderwater.CatsCatsalsohaveeyesadaptedtotheirenvironment.Asnaturalhunters,catsneedtohavekeensensesinordertostalktheirprey.CatscanseealmostaswellashumansduringthedayCme,buttheirnighemevisionismuchbePer.Althoughcatscannotseeincompletedarkness,theycanseemuchbePerthanhumansinenvironmentsthatappeardarktous.Infact,catscanseesixCmesbePerthanhumansinplaceswithlowlight.Thereareseveralreasonsforthis.CatreCnasaremoresensiCvethanhumanreCnas.Duringtheday,acat’spupillookslikeaslit.Thisslitdecreasestheamountoflightenteringtheeyesandpreventsthecatfromhavingtosquint.Aroundpupil,likeinahumaneye,wouldletintoomuchlight.Atnight,orwhencatsareindarkplaces,theirpupilscanopenthreeCmeswiderthanthoseofhumans.Thewideropeningletsinmuchmorelight.Likepolarbears,theyhaveatransparentprotecCvecoverovertheireyesthatallowthemtoseewellinbrightdaylight.Youmayhaveseenacat’seyesappeartoglowinthedarkwhenlightisshinedonthem,asinthephoto.Thetransparentcovercausescats’eyestoappeartoglowatnight.YoumayhavealsonoCcedthisondogs.GiantSeaSquidThisisaphotoofasquid.Giantseasquidsareknowntohavethelargesteyesofanyanimalintheanimalkingdom.Eventhoughmanyanimalsarelargerthantheseasquid,nonehavesuchbigeyes.Somegiantseasquidshaveeyesaboutthesizeofyourhead.Theirhugeeyeshaveverylargepupilsthatletinasmuchlightaspossible.Sodeepinthesea,whereitisverydark,theireyescanletintheliPlebitoflightthatreachesthem.Evensquidsandcats,whichcanseeinverydarkplaces,needsomelighttosee.Evenwithlargepupils,ifnolightenterstheeye,thentheanimalwillnotbeabletosee.
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SummarizingAnimportantskillinanysubjectissummarizing.Whenyousummarizesomethingyouhaveread,youtellthemainideas.Thatmeansthinkingaboutwhatseemstobethemostimportantideasinwhatyouread.Inthefollowingspace,summarizewhatyouhavelearnedaboutanimaleyesintoday’sreading.(Thinkaboutwheretheyliveandwhattheireyeseyesneedtobeabletodofortheanimaltosurviveinitsenvironment.)ThebeginningofasummaryiswriPenforyoutogetyoustarted.Differentanimals’eyesworkindifferentways.Howtheireyesworkdependsonthefollowingfactors:
Showyourunderstandingbyfillingintheblanksinthefollowingsentences.Inbrightlights,thepupilsofahuman’seyes_____________________.Indarkness,thepupilsofahuman’seyes________________________.
Explainwhythefollowingsentenceisnotcorrect:Becausecatshavesuchgoodeyes,theycanseewhenitiscompletelydark.
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Lesson6–HowAreShadowsCreated?Lesson6.1–IntroducingShadows
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillexploreshadowsanduseourlightmodeltoexplainourobservaCons.
ProcedureTheteacherwilldimthelightsintheclassroom.Putapieceofwhitepaperonyourdesk.Useyourhand(oranobject)andaflashlighttocreateashadowonthepaper.ExplorewhathappenstotheshadowinthreecondiCons:
movingthehandorobjectmovingtheflashlightmovingthepaper
RecordyourobservaConsinthedatatable.DiscussthefollowingquesConswithyourgroup:Howdoestheshapeoftheshadowcomparetotheshapeoftheobject?Howcanyouchangethesizeoftheshadow?HowcanyouchangethelocaConoftheshadow?
Data
Conclusion
1. Whatpartsofthelightmodeldoyouneedtoexplainhowyouseeashadow?
Conditions Observation
Moving the Object
Moving the Flashlight
Moving the Paper
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2. Howdoesthelightmodelhelpyouexplainthattheshapeoftheshadowisliketheshapeoftheobject?
3. HowdoesthelightmodelhelpyouexplainhowyoucanchangethelocaConoftheshadow?
4. Howdoesseeinganobjectcomparewithseeingashadow?
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Reading6.2–AMidnightCrime
Ge`ngReadyReadastoryaboutacrimethattookplaceonadarknight.WewillusewhatwehavelearnedaboutlightandshadowstoanswerquesConsandsolvethecrime.AMidnightCrimeHalloweenwasperfect,withaclearanddarksky.ManypeoplecametotheSmiths’Halloweenparty.EveryonehadagreatCme,andsomepeoplestayedunCldawn.Alereveryonelel,theSmithsdiscoveredthatsomeexpensivejewelrywasmissing.Theycalledthepolice.ThepoliceaskedeveryonewhohadbeenatthepartytoanswerafewquesCons.Apoliceofficerlistenedcarefullytoeachperson’sstory.Mr.Jonessaid,“IleltheSmiths’partyaroundmidnight,andIwalkedtomycar.Itwascold,buttheskywasclearwithnoclouds.Itwastotallydarkoutside.WhenIgotinmycartoleave,Isawsomeonewalkingoutofthehouseholdingadecoratedwoodenbox.Iturnedonthecarlights,andthepersonimmediatelyturnedaroundandwalkedawayfromme.Heorshewalkeddirectlytowardthewallnexttothehouse.IcouldseetheshadowonthewallgeenglargerandlargerunClthepersondisappearedaroundthecorner.AtthatCme,Ididnotsuspectanything,soIjustdroveaway.”Thepoliceofficerthoughtforaminuteandsaid,“YouareunderarrestonsuspicionofstealingtheSmiths’jewelry.Yourstatementincludestoomanyimpossibledetails.IsuspectyouknowsomethingaboutthedisappearanceofthejewelrycollecCon.”FollowUpQuesAons1. WhataretheimpossibledetailsinMr.Jones’sstatementtothepolice?Explainwhythesedetails
areimpossible.
2. ConstructadrawnmodelthathelpsexplainhowMr.Joneswouldhavereallyseenaperson’sshadow.
Detail in the Statement Why is That Impossible?
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3. IfMr.Joneshadnotturnedonhiscarlights,wouldhehavebeenabletoseetheperson?Wouldhehavebeenabletoseetheperson’sshadow?Explain.
4. Explainwhylightisnecessarytoseeanobject.
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Lesson6.3–ConnecAngShadowstotheLightModel
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillusethelightmodeltoexplainhowshadowsarecreatedandhowweseeshadows.
ProcedureLookatthediagram.Thediagramshowstheconsensusmodelwithanewcomponentadded.Behindtheobject(thetriangle)isasurface.Thesurfacecouldbeapieceofpaper,awall,orthetopofyourdesk.Thetrianglerepresentsanyobjectthatcouldmakeashadowonthesurface.Constructadrawnmodelofhowshadowsarecreatedandhowyouseeshadows.
Drawtheshadowoftheobjectonthescreen.Addlinesandarrowstoyourdrawingtoshowhowtheshadowiscreatedandhowtheeyeseestheshadow.MakesureyourdrawingincludesallthecomponentsofthelightmodelthatrepresentthecondiConsnecessarytoseeanobject.
Conclusion
1. DescribeyourmodelinafewsentencessothatyoucouldpresentyourexplanaContotheclass.
2. UseyourmodeltoanswerthefollowingquesCons.
a. Whatissimilarbetweenseeinganobjectandseeingashadow?
b. Whatisdifferentbetweenseeinganobjectandseeingashadow?
c. Modelscanbeusefulnotonlytounderstandandexplainbutalsotopredictsomethingbeforeexperiencingit.Usingyourmodel,predictwhatalightdetectorwoulddetectwhenpoinCngtowardtheshadowedareaonthescreen.Explain.
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Reading6.4–AllShadowsAreNottheSame
Ge`ngReadyHaveyoueverbeenoutsideonasunnydayandwatchedyourshadow?Maybeyoudancedinfrontofawalltowatchhowyourshadowmoves.Maybeyouwatchedyourshadowchangeasyougotclosertoabuilding.Inthisreading,youaregoingtodoafewsimpleacCviCestolearnmoreaboutshadows.Allyouwillneedislightandyourownhand.AsyoudotheacCviCes,trytothinkaboutwhatishappeningandwhy.Youmightbeabletofigureoutsomethingsevenbeforeyoureadaboutthem.TryThisatHomeGointoaroomwithalotoflightsandwindows.Turnonallthelights,andholdyourhandaboutsixinchesaboveatableorthefloor.Trythisduringthedayifyoucan.Lookattheedgesofyourhand’sshadow.Aretheyblurryoraretheyclearandstraight?Now,gointoaroomwithnowindowswhereyoucanturnallthelightsoffbutonelightontheceiling.Thisshouldbeasmalllight,notalongfluorescentlight.Iftheroomonlyhasadeskortablelamp,youcanuseoneofthoseinstead.Holdyourhandsixinchesabovethetableorflooragain.
Howdoesthisshadowcomparetotheshadowyoumadebeforewithlotsoflights?Makesuretodescribehowbothshadowsarethesameanddifferent,payingspecialaPenContotheedgesoftheshadows.
Whathappenstotheblurrinessoftheshadowifyoumoveyourhandcloserandfartherfromthelight?Whathappenstotheshadow’ssize?
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YouprobablynoCcedthatyourshadowwasfuzzywhenthereweremanylightson.Yourshadowwaslessblurrywhentherewasonlyonelighton.Inthisreading,youwilllearnhowthelightmodelcanhelpyouexplainwhytheedgesoftheshadowofyoursamehandlooksclearsomeCmesandblurrysomeCmes.
HowDoIMakeaClearShadow?Beforeyoulearnwhatmakesafuzzyshadow,youshouldunderstandwhysomeshadowshaveclearedges.IntheGeengReadyacCvity,yousawthatyourhandhadaclearshadowwhentherewasonlyonelighton.Inclass,youusedalightmodeltoexplainhowashadowisformedwhenasinglelightsourceshinesonanobject.Youmayhavedrawnsomethingsimilartothefollowingexample.Lightleavingalightsourcetravelsinstraightlines.Ifahandblocksthepathbetweenthelightsourceandthetable,thenashadowwillbeformedbehindthehand.Why?Lightthathitsthehandwillnotgettothetable.Lightthatmissesthehandwillgettothetable.Wheneveryplaceonthetableeitherreceiveslightordoesnotreceivelight,theshadowhasclearedges.Thereisaclearborderbetweenthelitandunlitareas(theshadow)onthetable.Lookatthepreviousdiagram.NoCcehowthediagramrepresentsthelightsource,yourhand,andtheshadowonthetable.
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HowCanIMakeaFuzzyShadow?IntheGeengReadyacCvity,younoCcedthatturningonmorethanonelightsourcecausedtheshadowofyourhandtobefuzzy.Itmighthavecausedtheshadowstolookliketheyoverlap.Youcanunderstandwhythishappensbydrawingthelightmodelwithtwolightsources.Thefollowingdrawingshowsthelightmodelwithtwolights.ItlookslikeonlyLightSource#1isshiningonthehandinthediagram.NolightiscomingfromLightSource#2inthefollowingdiagram.
IfonlyLightSource#1isturnedon,therewillbeaclearshadowonthetableorfloor.However,somethingdifferenthappenswhenyouturnonLightSource#2atthesameCme.Lookcloselyatthefollowingtoseehowtheshadowchanges.ThefollowingdiagramshowslightfromLightSource#1asdoPedlinesandlightfromLightSource#2assolidlines.
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Thisdrawingwillmakemoresenseifyouthinkabouteachpartofthedrawingandaboutwhatyoudid.ThetableisrepresentedbythelineacrosstheboPomofthedrawing,butthelightsarehiengyourhandfromdifferentdirecCons.Canyouseethatthedarkpartoftheshadowwouldbethepartinthemiddleofyourhand?Nolightfromeitherlightsourcegetsthroughyourhandtoreachthisarea.Theshadowthereisdark,butnexttoitareareasthatarelitbylightfromonlyoneofthelightsources,becauseyourhandblocksthelightfromtheotherlightsource.Theseareasarelessdark,buttheyarenotbright.Theseareasarethepartsoftheshadowthataregrayorblurry.AnotherExampleThephotoshowstheshadowformedwhentwolightsourcesshineonaballonasCck.NoCcethatthereisaverydarkpartoftheshadowwherenolightfromeitherlightsourcereachesthewall.NoCcethattherearetwolessdark(orgray)areaswherelightfromonlyonesourcereachesthewall.Whentherearetwolightsources,ashadowhasdarkerandlighterareas.Thedarkareaiswherenolightfromeithersourcereachesthewall.Theareasthatarenotasdarkareformedwherelightfromonlyonesourcereachesthewall.ComparingShadows:OneLightSourceComparedtoTwoLightSourcesShadowsareformedwhenanobjectblockslightfromreachingsomething.Youusedyourhandtoblockthepathbetweenthelightandthewallortable.ThepictureshowsaballonasCckblockingthepathbetweenthelightsandthewall.Whenthereisonlyonelightsource,thereisaclearborderbetweenthedarkareaandthelightareaonthewall.Whentherearetwolightsources,thedarkareaoftheshadowissurroundedbyareasthatarenotasdark.Theselessdarkareasmaketheedgesofshadowslookfuzzybecausetheypreventaclearborderbetweentheverydarkandvery
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lightpartsofthewall.Themorelightsourcesthereare,thefuzziertheedgesoftheshadowwilllook.WhydoyouthinkthesCckthatisholdingtheballismakingtwoshadows?Whydoyouthinkthattheyarebothgrayinsteadofdark?
Whenyouturnedonmanylightsintheroomandlookedatyourhand’sshadow,whywasthemiddlepartoftheshadowdarkandtheareasclosertotheedgelessdark?
CanaShadowBeFuzzywithOnlyOneLight?YoumayhavenoCcedthatyoucouldmaketheshadowofyourhandlookfuzzywithonlyonelightturnedon.Thiscanhappenifyourhandisclosetothelightorifthelightsourceislargeandclosetotheobject.Thelightmodelcanhelpyouunderstandwhythishappens,too.Thenextdrawingshowshowashadowisformedusingalargerlightsource.LightcomingfromthelelsideofthesourceisshownwithdoPedlines,andlightfromtherightsideofthesourceisshownwithsolidlines.Insteadofallthelightcomingfromoneplaceinthelightsource,lightcomesfromeverywhereinthelightsource.Thisisjustlikehavingseveralseparatelightsources,someatthetopandsomeattheboPom.LighterareasareformedwhenlightfromonlythetoportheboPomofthesourcecanreachthewall.Adarkareaoftheshadowappearswherenolightfromanywhereinthesourcereachesthewall.Becausethelightfromlargersourcesleavesfromdifferentplaces,theyusuallyformfuzzyshadows.
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WhenCanYouSeeShadowslikeThisinOtherPlaces?Haveyoueverseenafluorescent(floor-eh-sent)lightbulb?Theyareshapedlikelongtubes.Youmayhavethemintheceilingofyourclassroomsatschool.Shadowsformedbyfluorescentlightbulbswillalmostalwaysbefuzzybecausetheyarealargelightsource.CheckthenextCmeyouareinschoolbyholdingyourhandaboveyourdesk.YouhaveprobablynoCcedthisfuzzinessaroundshadowsbefore.Themodelthatyouhavedevelopedthroughthefirstfivelessonsallowsyoutoexplainwhythishappens.ModelsareverypowerfultoolsthatscienCstsusetohelpthemexplaintheworldaroundthem.Nowyouareusingthem,too.
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Reading6.5–StarsandtheSolarSystem
Ge`ngReadyLookatthisphotograph.Whatdoyouthinkisthepicture?Youmightbesurprisedtolearnthatthisisaphotographofgalaxies.Eachgalaxyismadeupofbillionsofstars.Infact,theuniversehasmorethan100billiongalaxies,andeachgalaxyhasabout100billionstars.Sotherearealotofstars.PeoplecanseeonlyaverysmallnumberofthemfromEarth.StarryNightOursunisahugeballoffirethatradiateslight.Starsarealsohugeballsoffirethatradiatelight,buttheyaremuch,muchfartheraway,whichiswhytheyseemsmaller.Likeoursun,starsshinelightinalldirecCons.SomeofthelighttravelsinthedirecConofEarth.Eventhoughlighttravelsveryfast,moststarsaresofarawaythatittakesmillionsofyearsfortheirlighttoreachEarth.So,whenyouseeastar,youcanseelightthatwasproducedmillionsofyearsago.Thismeansthatwhenyoulookatthestarrynightsky,youactuallylookintothepast.BytheCmelightreachesyou,thestarsthatproduceditmayhaveexplodedorcooleddownanddied.Itmakessensetoassumethatsomeofthestarsyouseedonotexistanymore.Planets,ontheotherhand,donotgeneratelight.YouseeplanetsbecausetheyarerelaCvelyclosetothesun,andtheyarelitbythesun.Lighttravelsfromthesuntotheplanetsandthenbouncesoffofthem.SomeofthislighttravelstoyoureyeshereonEarth.Usewhatyouhavelearnedaboutlightandsighttodrawoneormoremodelsthatexplain1. howyouseestars.
2. howyouseeplanets.
3. whyyoucannotseethestarsorplanetsonacloudynight.
TheSolarSystemTheuniversecontainsbillionsofgalaxies,butmostofthestarsyouseeintheskybelongtotheMilkyWaygalaxy.TheMilkyWaygalaxyconsistsofhundredsofbillionsofstars,oneofwhichisEarth’ssun.Peoplecallit“thesun,”asthoughthereisonlyone.Buttheuniversecontainsmanyothersuns,too.
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TheEarth’ssunisnotatthecenteroftheMilkyWay,likeitsomeCmesseemstobeinpictures.Thesunisactuallyofftooneside.Eightplanets,theirmoons,andotherobjectssuchasasteroidsandcomets,movearoundtheEarth’ssun.Alltheseobjectstogetherarecalledthesolarsystem.ThesunisthebiggestobjectinEarth’ssolarsystem.Itmakesupmorethan99%ofthesolarsystem’stotalmass.Alltheotherobjectsinthesolarsystemarearrangedaroundthesun.Theobjectsareconstantlymovinginorbitsaroundthesun.Lookatthemodelofthesolarsystem.ItshowstheposiConoftheplanetsinrelaContothesunandcomparedtoeachother.Italsoshowstheshapeofthepatheachplanetmakesaroundthesun.Thesepathsarecalledorbits.Likeallmodels,thismodelhaslimitaCons.TherelaCvesizesoftheobjectsinthemodelarenotaccurate.Forexample,inthismodel,thesunseemsabout50Cmesbiggerthantheearth,butitisactuallymorethan300,000CmeslargerthanEarth.Torepresentthesunandtheplanets’sizesaccurately,amodelofthesolarsystemwouldhavetobebiggerthanyourschool.Whatelseisnotrepresentedaccuratelyinthemodel?
DoAllScienCstsAgreeonThisModeloftheSolarSystem?ScienCstsusedtothinktherewerenineplanetsinthe
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solarsystem—theeightthatareinthediagramandPluto.Afewyearsago,scienCstsdecidedthatPlutowasnotaplanet.Why?ScienCstsbelievethatalltheplanetsinthesolarsystemoriginatedfromahugecloudofgasanddustthatusedtosurroundthesun.Forthisreason,alltheplanetshavemanythingsincommon.Theshapeoftheirorbitsisonethingtheyhaveincommon.However,Pluto’sorbitisverydifferentfromtheotherplanets’orbits.Infact,itsorbitcrossesNeptune’s,soatCmesitisfartherawayfromthesunthanNeptune,andatotherCmesitiscloser.AsscienCstscollectnewevidence,theysomeCmesrealizethatwhattheythoughtbeforewaswrong.Theychangetheirideasandtheychangetheirmodels.Thisisanexampleofhowscienceworks.Ifyoulookaroundatmodelsofthesolarsystem,youmightseesomewithnineplanetsandsomewitheightplanets.SomedayscienCstsmaygathernewevidencethatwillconvincethemthattheyneedtochangetheirmodelofthesolarsystemagain.HowDoesLightAffectWhatISeeintheSky?Whenyoulookattheskyduringtheday,youcanseethesunandsomeCmesthemoon,butyouneverseetheplanetsorthestars.Thisisbecausethesun’slightissobrightthatyoureyescannotdetectmuchweakerlighteventhoughtheweakerlightalsoreachesyoureyes.Itislikegoingsomeplacewherethemusicisloudoracrowdischeeringreallyloudly,andyoucannothearwhatyourfriendnexttoyouissaying.Normallyyoucouldhearyourfriend,buttheloudnoisemakeseveryothersoundseemquiet.Thebrightlightofthesunmakesthelightfromtheplanetsandthestarstooweakforyoutodetect.
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Lesson7–ScaBeringandReflecAonofLightLesson7.1–ReflecAon
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillinvesCgatewhathappenswhenlightstrikesamirrorandbouncesoffofit.
PredicAon:
WhatdoyouthinkwillhappentothelightwhenyoushineitonamirrorfromdifferentdirecCons?
ProcedurePlacetheAnglessheetsothatthethickhorizontallineisalongawallorthesideofabox.Tapethepaperdown,soitcannotmove.APachaflashlighttoarulerorametersCck,sothattheflashlightlensisabout30cmfromtheAnglessheet.Iftheflashlightcanbefocused,thenfocusthebeam,soitisasnarrowaspossible.Besuretheflashlightpointsstraightdowntheruler,andtheflashlightsitsflatonthetable.APachalightsensortoadifferentrulerormetersCck,sothatthedetectorendofthesensorisabout30cmfromtheAnglessheets.Besurethesensorpointsstraightdowntherulerandsitsflat.Theflashlightbeamshouldhitthewall(orbox)directlyabovethedoPedcenterlineontheAnglessheet.UsetapetoaPachaflatmirrortotheverCcalsurface.Besurethemirroriscompletelyflatagainstthewall.PlacetherulerandflashlightsothelightshinesdirectlyatthemirrorjustabovethedarkhorizontallineonthebaseoftheAnglessheet.PosiContheruleralongLine1totherightofthedoPedcenterlineontheAnglessheet.OnthelelsideofthedoPedcenterline,movetherulerwiththelightsensoraroundthepointonthepaperwhereallthelinesmeet.MovethesensorinthiswayunClyoufindtheposiConthatgivesthehighestlightreading.Inthedatatable,intherowforPosiCon1,drawtheplacementofthelightsensorthatgaveyouthelargestreading.Recordthenumberofthelinethatthelightsensorison.WriteanyobservaConsyoumayhavemadeasyoufoundthebiggestvalue.RepeatSteps1–3fourCmes,eachCmeplacingtheflashlightonadifferentlinetotherightofthedoPedlineandkeepingitinthatplacebutmovingthelightsensoronLines1through5tothelelofthedoPedcenterline.
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Conclusion
1. WhatpaPernsdoyounoCceinthedrawingsyoumadeinyourtable?
2. Thefollowingmodelshowslightraysastheyleaveasource.Someofthelightrayswillhitthemirror.BasedonwhatyoulearnedinthisacCvityabouthowlightbouncesoffofamirror,usearulertodrawthepatheachlightraywilltakealeritbouncesoffthemirror.
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Lesson7.2–InvesAgaAngScaBeringandReflecAon
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillusealightsensortoinvesCgatewherelightgoesaleritbouncesoffoftwodifferentsurfaces.ThisinvesCgaConwillhelpexplainwhyamirrorlooksdifferentfromasheetofpaper,eventhoughlightbouncesoffofboth.
PredicAon:
TodothisacCvity,usethesamesetupthatyouusedinAcCvity6.1.1. InAcCvity6.1youinvesCgatedhowlightbehavedwhenitbouncedoffamirror.Howdidthelight
sensor’sreadingschangeasyoushinedthelightonthemirrorandthenmovedthesensorfromPosiCon1through5?
2. Basedonthelightmodel,whatdoyouthinkthelightsensorreadingswillshowasyoumovethesensorfromPosiCon1throughPosiCon5whenyoushinetheflashlightonasheetofpaper?
ProcedurePreparethesetupwiththeflashlight,lightsensor,mirror,andtworulersormetersCcksjustlikeinAcCvity6.1.UsetheAnglesheetagain,asinStep1ofthatacCvity.PlacethemetersCckwiththeflashlightalongPosiCon3totherightofthedoPedcenterlineontheAnglessheet.TapethismetersCcktothetablesothatitdoesnotmoveduringthisacCvity.PosiConthemetersCckwiththesensoratPosiCon1onthelelsideofthedoPedcenterline.Recordthemeasurementfromthelightsensorinthedatatable.MovethelightsensorthrougheachposiCon(1–5)ontheAnglessheet,andrecordeachmeasurementinthedatatable.Aleryoucompletethedatatable,removethemirrorandreplaceitwithapieceofwhitepaper.Createanewdatatablejustliketheoneyouusedforlightbouncingoffthemirror.TitlethenewdatatableLightBouncingOffofPaper.RepeatSteps1–3withthelightshiningonthesheetofpaper.RecordeachmeasurementfromPosiCons1–5inyournewdatatable.
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Data
Recordthedatayoucollectabouthowlightbouncesoffofamirror.
Conclusion
1. Comparethedatayoucollectedforthemirrorwiththedatayoucollectedforthesheetofpaper.
2. HowdoyourdatacomparewithyourpredicCons?Iftheyarenotthesame,describehowyourpredicConwasdifferentfromwhatyouactuallymeasured.
3. Whatisdifferentaboutthemirrorandthepaperthatcouldexplainwhytheresultsweredifferentforeachobject?
Sensor Position Mirror Sensor Reading
White Paper Sensor Reading
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Lesson7.3–ScaBeringandReflecAngPart1
Whatwasthepointofthelastlesson?
Imaginethatyoushineaflashlightontoamirror,asshowninthefollowingimage.Drawtwodifferentplaceswhereapersoncouldstandsothatlightbouncingoffofthemirrorwillreachthem.Addraystothemodel
Conclusion
1. Explainwhythepersoncouldstandineitheroftheseplaces.
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2. Imaginethatyoushineaflashlightontoabrickwall,asshowninthefollowingimage.Drawtwodifferentplaceswhereapersoncouldstandsothatlightbouncingoffofthewallwillreachthem.
3. Explainwhythepersoncouldstandinbothoftheseplaces.Addraystothemodel.
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Lesson7.4–ExplainingScaBering,ReflecAngandImages
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewilluseourlightmodeltoexplainwhywecanseeanimageofourselvesinamirrorbutwecannotseeourselvesinasheetofpaperorwood.
ProcedureThefollowingdiagramshowswhatyouseewhenyourteachercoverspartofanimagewithasheetofpaper.Thediagramshowsseverallightraysthathavebeengivenoffbyaflashlight.Baseduponthelightraysyoucansee,drawwhereyouthinktheflashlightislocated.Thefollowingdiagramshowswhatyouseewhenyourteachercoverspartofanimagewithasheetofpaper.Thediagramshowsseverallightraysthathavebeengivenoffbyaflashlight.Baseduponthelightraysyoucansee,drawwhereyouthinktheflashlightislocated.
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Conclusion
1. ExplainwhyyoucanseeyourreflecConinamirrorbutnotinasheetofpaper.
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Lesson7.5–ScaBeringandReflecAng-Part2
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillexplainwhatyouhavelearnedaboutscaPeringandreflecCon.ThenapplywhatyouhavelearnedbyexplainingsomethingthatyouseealltheCmebutmightnotstoptothinkabout.
ProcedureThefollowingtwopicturesshowacaronadryroadandawetroad.
Conclusion
1. WhatdetermineswhetheranobjectwillscaPerlightorreflectlight?
2. Whyisitpossibletoseeyourselfinanobjectthatreflectslight,butnotinonethatscaPerslight?
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3. UsingwhatyouknowaboutscaPeringandreflecCon,explainwithwordsordrawingswhyitispossibletoseeanimageofthecaronthewetroadbutnotonthedryroad.
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Reading7.6–PolishingObjects
Ge`ngReadyLookatthisphotograph.ItisaphotoofsomethingmagnifiedmanyCmes.Whensomethingismagnified,itappearsmuchlargerthanyoureyeseesitbyjustlookingatit.PeoplesomeCmesrefertousingyoureyeswithnomagnifyingglassormicroscopeas“seeingwiththenakedeye.”Beforeyoureadthehints,takeaguess:Whatdoyouthinkthisphotois?
Herearefourhints:1. Youcankeepclothesinsomethingmadeofit.2.Youmaybesiengonitrightnow.2. Baseballplayersuseit.3. Itgrowsoutdoors.
Didyoufigureoutthatthisisapictureofwood?WhenwoodismagnifiedmanyCmes,itlookslikeCnytubes.SomeCmesthesurfaceofwoodiscoatedsothatitlooksshiny.Abaseballbatmighthaveashinysurface.Maybeyouhaveatableathomeorinschoolwithasurfacethatshines,butyoucannotseeyourreflecConinwoodaswellasyoucaninamirror.WhydoesyourreflecConinamirrorlookdifferentfromyourreflecConinwood?
WhyCanISeeMyReflecAoninSomeObjectsbutNotinOthers?Inclass,youdidaninvesCgaConusingalightsensortotracklightfromaflashlight.Youcomparedwhatthelightdidasitbouncedoffamirrorandoffasheetofpaper.Whenlightreachesasurface,itcanbereflectedoritcanbescaPered.Youlearnedthatalerthelightbouncedoffofamirror,allofthelightwentinaboutthesamedirecCon.Alerthelightbouncedoffofasheetofpaper,itwentinmanydirecCons.ReflecConiswhathappenswhenlightbouncesoffofasurfacethatisverysmooth.Amirrorhasaverysmoothsurface.Lookatthefollowingtwomodels.Theyshowtwodifferentwaysthatlightinteractswithasurface.
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ThemodelonthetopshowslightreflecCngoffofasmoothsurface,likeamirror.SeehowallofthearrowspointinaboutthesamedirecCon?Now,lookatthemodelontheboPom.ThearrowsinthismodelpointinmanydirecCons.Thisiswhathappenswhenlightbouncesoffofpaper.Paperseemssmooth,butifyoumagnifythesurface,likethephotoofwoodatthebeginningofthisreading,youcanseethatthesurfaceisbumpy.LightbouncingoffofabumpysurfaceisscaPered.ScaPeringiswhatoccurswhenlightbouncesoffofsurfacesthatarenotsmooth.ManyobjectsthatscaPerlightfeelsmoothwhenyoutouchthem.Asheetofpaperandawoodenbaseballbatfeelsmooth.However,ifyoucouldlookatthemwithapowerfulmicroscope,youwouldseethattheirsurfacesarebumpy.IfyoucouldtakeanobjectthatscaPerslight,likeapieceofwood,andsmoothoutallthebumpsandridges,thentheobjectwouldreflectmorelightandscaPerlesslight.Theprocessofsmoothingthemicroscopicbumpsandridgesonasurfaceiscalledpolishing.HowDoesaMirrorReallyWork?Inclass,yousawamodellikethisone.Yourteachercoveredthetopofitandaskedyoutoguesswhatwasunderneaththepaper.YoumayhavebeensurprisedtoseeaflashlightpoinCngdownwardinsteadofaflashlightpoinCngupward.InthisacCvity,youlearnedhowyoucanseeanimageofsomethinginamirror.Allofthelightraysarereflectedfromamirrorsotheybouncebacktoyoureyes,andtheylookliketheyarecomingfromanobjectontheothersideofthemirror.Ifthesurfaceofthemirrorisscratched,itwillscaPermoreofthelightthathitsit.Ifthemirroristooscratchedoruneven,somuchlightwillbescaPeredthatyoucannolongerseeaclearimageinthemirror.UsingMirrorstoSeetheStarsAstronomersareonetypeofscienCstswhousemirrors.Astronomersusetelescopestoproduceimagesofstarsandplanetsthatareveryfaraway.Telescopesusespeciallycurvedmirrorstoreflectlightfromstarstowardasensor.Thesensorusesthislighttoproduceapictureofthestars.Manyobjectsintheskydonotappearverybrightbecausetheyaresofaraway.ThismeansthatveryliPleofthelightthatcomesfromthemactuallyreachesEarth.Inordertogetthebestpictures,astronomersmustuseabigmirrorthatreflectsalotoflight,soithelpstoseeevenveryfaintobjects.Asmoothmirrorproducesaclearimagebecauseitreflectsalmostallthelighttothesensor,scaPeringveryliPle.PolishingaGiantTelescopeTheHaletelescopeattheMountPalomarObservatoryinCaliforniawasthelargesttelescopeintheworldformorethan50years.ThemainmirrorintheHaletelescopeis200inchesacross.Anaverage12-year-oldislessthan60inchestall.Themirrorisaboutasbigasthreeadultsstandingontopofeachother.Themirrorisverysmooth.IfyoucouldmagnifyitsothatitwasaswideastheAtlanCcOcean,thebiggestbumpyoucouldseeonitssurfacewouldbesmallerthan5cenCmetershigh.Itisverydifficulttomakeamirrorsosmooth.Ittookabout11yearsforpeopletopolishthismirrorbyhand.
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OtherThingsPeoplePolishtoReflectMoreLightPolishedmirrorsareimportanttoastronomers.Youprobablyusepolishedmirrors,too.Peoplepolishotherobjects—likerocks—tomakethemlookmoreshinyandprePy,asyoucanseeinthesephotos.Adevicecalledarocktumblerwasusedtopolishtherocksinthephotographs.Arocktumblerhasasmallbarrelfilledwithrocks,water,andcoarsesand.Thebarrelrotatesslowlysothatthecoarsesandrubsoverthesurfaceofthebumpyrocks.Coarsesandsmoothesthelargebumpsontherocks.Thosearethebumpsthatyoudonotneedamicroscopetosee.Inthephoto,itiseasytoseethebumpsonthestonesonthelel.Alerawhile,thecoarsesandisreplacedwithfinersand.Sandthathasafinegraincansmoothoutsmallerbumpsthatyoucannotseeorfeel.AlerenoughCmeinarocktumbler,rocksandmineralsappearmuchshinierthantheywereatfirst.Why?Thepolishedrocksaresmoother,sotheyreflectmuchmoreofthelightthathitsthem.WhatMakesWoodLookShiny?Woodispolishedinadifferentway.Topolishwood,thesurfaceiscoveredwithaclearsubstance,likewax.ThewaxfillsalltheCnyholesinthewood.Alertheholesarefilled,thewoodhasasmoothsurfacethatreflectslightmuchbePer.Thefollowingpicturesshowthedifferencebetweenawoodfloorwithwaxandonewithoutwax.WhyDoPeoplePolishThings?Peoplepolishsurfacesfordifferentreasons.Theypolishwood,rocks,andmineralsbecausetheylikethewaythefinishedobjectslookandfeel.Materialslikegoldanddiamondsarenotveryshinybeforetheyarepolished.Thediamondandgoldjewelrypeoplewearhasbeenpolished.Inscience,polishingisanimportantpartofmakinginstrumentsliketelescopesworkproperly.Instrumentslikethesecanhelppeoplelearnmoreabouttheuniverseinwhichtheylive.
1. Topolishleathershoes,peopleuseshoepolish.Whatdoesthistellyouaboutthesurfaceofleather?
2. MostobjectsthatcanbepolishedsCllscaPersomelight;noobjectcanhavepurereflecConwithoutanyscaPering.Why?
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Reading7.7–MoonPhases
Ge`ngReadyCanyouimaginetravelinginaspacecralandthensteppingoutontothesurfaceofthemoon?OnJuly21,1969,theAmericanastronautNeilArmstrongbecamethefirstpersontowalkonthemoon.Asheputhisfootdown,Armstrongdeclared,“Thatisonesmallstepforman,onegiantleapformankind.”ArmstrongisoneofthefewpeoplewhohavebeenluckyenoughtoseehowEarthlooksfromthemoon.MostpeopleonlyseehowthemoonlooksfromEarth.Inthisreading,youwilllearnhowpeopleseethemoonfromEarth.Youwillalsolearnwhythemoon’sappearancechangeseveryday.Tounderstandthis,youneedtolearnwhytherearedaysandnightsonEarth.WhatMakesDayandNightHappen?Everydayyoucanseethesunasitseemstorisefromtheeasternhorizon,moveacrossthesky,andsetinthewest.WhatpeoplesomeCmesdonotunderstandisthatthesunisnotreallymovingatall.ItonlyseemstomovebecausetheEarthspinsaround,carryingpeopleinandoutofviewofthesun.Youseethesunduringthedaybecauseyouareonthepartoftheearthfacingthesun.Youdonotseeitatnightbecausetheearthhasspunsothatyouareonthesideturnedawayfromthesun.Imaginethatyouaresiengonachairthatcanspin,andafriendisstandingbesideyouholdingacandle.Asyouspinslowlyinthechair,youfirstseethecandleoutofthecornerofoneeye,movingfromthesideunClitisrightinfrontofyou.ThenitseemstomovetotheothersideunClitdisappearsbecauseitisbehindyou.Ifyoudidnotknowyouwerespinning,youmightthinkthatthecandlewasmovingaroundyouinacircle.Thesamethinghappenswiththeearthandthesun.Insteadofthechair,theearthistheobjectthatisspinning.PeopleareseatedonthesurfaceoftheearthasitpointstheminthedirecConofthesunandthenawayfromit.Thissamethinghappenseverysingleday.YouexperiencesunriseandsunsetbecauseEarthspinsonitsaxis.Soactuallythetermssunriseandsunsetaremisleading,sincethesundoesnotactuallymovearoundEarth;itjustappearstodoso.Earth’saxisisanimaginarylinethatrunsfromtheNorthPoletotheSouthPoleandthroughthemiddleoftheearth.Earthcompletesafullturnarounditsaxisonceeveryday.Thatmeansittakes24hoursforEarthtodoacompleteturn.Earth’sspinningisthereasonwhypeopleexperiencedayandnight.OnehalfofEarthfacesthesunandislitup,soitisdayCmethere.AtthesameCme,theotherhalfofEarthfacesawayfromthesun.Thesun’sraysareblocked,soitisdark(ornigheme)onthatsideoftheearth.AsEarthspinsonitsaxis,differentpartsturntofacethesunortofaceawayfromit.ThisiswhatcausespeopleonEarthtoexperiencedayandnight.
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RoundandRoundTheyGoAtthesameCmethatEarthspinsonitsaxis,italsomovesaroundthesunonapathcalledanorbit.Earth’sorbitaroundthesuntakesabout365days(oneyear)tocomplete.AtthesameCmethatEarthrevolvesaroundthesun,themoonisalsoorbiCngaroundEarth.AfullorbitofthemoonaroundEarthtakesabout28days(onemonth)tocomplete.TheseprocessesexplainwhypeopleonEarthexperiencedaysandnights,andthemoonlooksdifferentatdifferentCmesofeachmonth.Allofthesearerelatedinsomewaytolight.Thisreadingwillfocusonhowpeopleseethemoonandwhythemoon’sshapechangeseveryday.HowDoPeopleSeetheMoon?Foryoutoseeanobject,iteitherneedstobealightsourceoritneedstobelitbyalightsource.Thesunisalightsource,whichiswhyyoucanseeit.Themoon,ontheotherhand,isnotalightsource.Yet,youcansCllseeit.Theonlythingthatcouldbehappeningisthatthemoonisbeinglitbysomeotherlightsource.CanyoutellfromthemodelwhatislighCngthemoonsothatyoucanseeit?Thelightsourcethatshinesonthemoonisthesun.Halfofthemoonisalwayslitbythesun,justlikehalfoftheearthisalwayslitbythesun.Youcanneverseethedarksideofthemoon,becausenolightreachesit.Ifnolightreachesit,nolightcanbescaPeredfromittoyoureyes.ThinkaboutthefourcondiConsneededforyoutoseeanobject.HowarethesecondiConsmetinthecaseofseeingthemoonfromEarth?Lookatthediagramtohelpyouexplain.
Foryoutoseethesideofthemoonthatislitbythesun,someofthesun’slightthatisscaPeredbythemoonneedstoreachyoureyeshereonEarth.MoonriseandMoonsetWhenyouarestandingonEarth,themoonappearstomoveacrossthenightskyjustasthesunappearstomoveduringtheday.Infact,Earthspinningarounditsaxiscausesthemoontoriseintheeastandsetinthewest,justlikethesun.ManyCmes,themoonrisesduringthedayinsteadofduringthenight.Ifwelookcloselywecanseeit,butweusuallydonotnoCceit.Why?
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WhatMakesaFullMoonoraHalfMoon?Dependingonwhenyoulookatthemoon,youmightseeafullmoon,ahalfmoon,aCnysliverofamoon,ornomoonatall.Infact,themoonisalwaysthere,andhalfofitisalwayslitbythesun.WhetheryouseeitornotandwhatshapeyouseedependsontheposiConofthemooninrelaContothesunandEarth.FromEarth,youcanonlyseethepartofthemoonthatisfacingEarth.Thisisnotnecessarilythepartofthemoonlitbythesun.Thisiswhy,mostoftheCme,wedonotseeafully-illuminatedcircle,butonlypartofit.Thechangingshapethatyouseeiscalledaphaseofthemoon.ThephaseisthepartofthemoonthatisbothlitbythesunandseenfromEarth.ThephasesofthemoonchangeinacyclestarCngwiththenewmoon(alsocalledthedarkmoon).Becauseittakes28daysforthemoontogoaroundEarth,thechangingshapethatyouseerepeatsevery28days.Lookatthemodeltoseethecycleofphasesandthenamesofeachphase.Waningmeansshrinking,waxingmeansgrowing,andgibbousmeansswollen.YoumaychoosetosearchontheInternetforvideoillustraCngandexplainingthemoon’sphases.TobePerunderstandhowyouseephasesofthemoon,itmighthelptolookattwophasesmoreclosely.NewMoon(orDarkMoon)AnewmoonexistswhenthemoonisbetweenthesunandEarth.Atthatpoint,thelitsideofthemoonisfacingdirectlyawayfromEarth,soyoucannotseeit.ThesideofthemoonfacingEarthisnotlit,soitisdark.Whenyoulookinthenightsky,youmaythinkthatthereisnomoonatall.ThesunisreflecCngoffofthesurfaceofthemoon,butifyoudrewthearrowsinthepreviousdiagram,youwouldseethatnoneofthelightisreachingtheeyesofpeopleonEarth.FullMoonAfullmoonexistswhenEarthisbetweenthesunandthemoon.ItisimportantforyoutonoCcethelinesoftheorbitsforthistomakesense.RememberthatthemoonisorbiCngEarth;itisnotorbiCngthesun.WhenthelitsideofthemoonisfacingEarth,youseeabigcircleofmoonthatiscalledafullmoon.Thedarksideofthemoon(thesidethatisnotilluminatedbythesun)isfacingawayfromEarth.Becausethecycleofthemoon’sphasesrepeatsevery
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28days,itispossibletousethepreviousmodelstopredictthemoon’sphaseonanygivendate.IfyouhaveaccesstotheInternet,youcanlookupcalendarsofphasesofthemoon.Drawamodelexplainingwhythemoonwilllookthewayitwillonyournextbirthday.Ifyouarenotsure,takealookatthemodelsontheotherpagesinthisreading.Insteadofusingthecomputer,youcouldalsochooseoneofthemoon’sotherphases(notafullornewmoon)anddrawamodeltoexplainwhyitwouldlookthatwayonEarth.
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Lesson8–TransmissionofLightLesson8.1–Whydoesthemoonchange?
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillinvesCgatewhatcausesthephasesofthemoon.
ProcedurePart1
Pretendthataping-pongballisthemoon.Theskewerthroughtheballletsyouholditmoreeasily,butitdoesnotrepresentanything.SincetheposiConofthesunbarelychangesasthemoonrevolvesaroundEarth,itisimportantthatyoukeepthewhitehalfoftheping-pongball(thesideofthemoon)facingthesunduringthisacCvity.Holdtheendoftheskewerwiththeballturnedsothatthewhitehalfistoyourlelandtheblackhalfistoyourright.Yourarmshouldbestraightoutinfrontofyou.ImaginethatthesunisonyourlelthroughoutthisacCvity.Nowlookattheball(themoon)anddrawwhatyousee.
Nowmoveyourarm,sClloutstretched,45°tothelel,withouttwisCngtheskewer,sothatthewhitehalfoftheballsCllpointsinthesamedirecConasbefore—tothelel.Whilethemoonhasmoved45°tothelel,neithertheearth(you)northesunhave;thesunissClltothelel.ThatiswhythewhitesideofthemoonsCllhastofacelel,eventhoughthemoonhasmoved.Onceagain,lookattheball(themoon)anddrawwhatyousee.
Moveyourarm45°farther,sothatthemoonisallthewaytoyourlel.ThewhitesideshouldsCllbefacinglel,awayfromyou.Drawwhatyousee.
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PutyourarminthesameposiConyoustartedin—straightoutinfrontofyou.Now,moveit45°totheright,keepingthewhitesidefacingthelel,towardthesun.Drawwhatyousee.
Nowmoveyourarm45°totherightagain.Yourarmshouldbeouttoyourrightside.Thewhitesideoftheball—thelitsideofthemoon—shouldsCllbefacingthesun.Drawwhatyousee.
LookatReading6.4.Usethediagramtocompareyourdrawingsoftheballtothephasesofthemoon.Addthepropernamestothephasesofthemoonrepresentedinyourdrawings.
Part2ThreestudentswillparCcipateinthenextpartoftheacCvity.Onewillsitonaswivelchair.ThispersonwillbeEarth,andEarthshouldrevolveslowlytosimulateEarthspinningonitsaxis.Anotherpersonwillstandtotheside,poinCngalitflashlightatEarth.Thatpersonwillrepresentthesun.Theteacherwilldarkentheroom.WhyistheflashlightapoorsimulaConofthesun?
WhichsideofEarthisindayCmeandwhichsideisinnighemeduringthisacCvity?
Whatcausesittobedarkduringthenighteventhoughthesunisalwaysshining?
Athirdpersonwillrepresentthemoon.ThispersonwillrevolveslowlyaroundEarth.Thisvolunteershouldwalkveryslowly—muchslowerthanEarthspins.HowmanyrevoluConsonitsaxisdoesEarthcompleteintheCmeittakesthemoontogooncearoundEarth?
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Isthemoonmoreoleninthenightsky(onthenightsideofEarth)orinthedaysky(onthedaysideofEarth)?Whydowealwaysthinkofthemoonasbeingintheskyduringthenightandnotduringtheday?
Atagivenmoment,whereonEarthcanyouseethesunrising?
Conclusion
1. InthefirstpartofthisacCvity,halfofthemoonwasblackbecauseitwaspaintedblack.Inreality,whyishalfofthemoonalwaysblack?
2. Whydoesthemoonappeartohavedifferentshapesduringdifferentpartsofthemonth?
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Lesson8.2–EvaluaAngtheLightModel
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillevaluateourcurrentmodeloflighttoseeifithelpsusexplainwhywecanseethroughsomeobjectsbutnotothers.
Procedure-Part1Inthefollowingspace,drawthelightmodeltoexplainwhyyoucannotseeanobjectwhenthereisacardboarddividerbetweenyoureyeandtheobject.
PredicAon:
1. Accordingtothelightmodel,whathappenstolightwhenitreachesanobject?
2. Inthatcase,whatdoesthelightmodelpredictyouwillseeifyoureplacethecard-boarddividerinthelightboxwithaclearplasCcdivider?
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Procedure-Part2Putthecardboarddividerinthelightbox.Lookattheobjectinthebox.Talkwithyourgroupaboutwhatthelightisdoingsothatyoucanorcannotseetheobject.NowreplacethecardboarddividerwithaclearplasCcdivider.Lookattheobjectagain.Talkwithyourgroupaboutwhatthelightisdoingsothatyoucanorcannotseetheobject.Whydoestheconsensusmodelnothelpyouexplainhowyouwereabletoseetheobjectthroughthetransparency?
ThelightmodelneedstoberevisedtoexplainthatyoucanseeanobjectinthelightboxthroughaclearplasCcdivider.
Drawthelightmodelsothatitexplainsthefollowing:Howcanyouseeanobjectontheoppositesideofacleardivider?Whyisitpossibletoseethecleardivideritself?
Howdoesyourdrawingshowthatitispossibletoseetheobjectthroughthedivider?
Howdoesyourdrawingshowthatitispossibletoseethedivideritself?
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Lesson8.3–MeasuringLightTransmission
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillcompareournaked-eyeobservaConsoftransmissionwithmeasurementstakenbyinstruments.
PredicAon:
ProcedureUsethefollowingtabletoordertheobjectsyouhavecollectedaccordingtohowmuchlighttheytransmit.Theobjectthattransmitsthemostlightshouldbea“1”.Theobjectwiththelowesttransmissionshouldbea“5”.UsealightsensortomeasuretheamountoflighttransmiPedthrougheachobject.Recordthedatainthedatatable.Ranktheobjectsbasedonthelightsensordata.
Data
Object Prediction (1-6)
Light measurement Transmission Rank (1-6)
No object between the light source and the sensor.
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Conclusion
1. Lookatthelistsanothergroupmadefortheobjectsyoucollected.WhichlistmatchesbePer?TheonemadebyesCmaCngtheamountoftransmiPedlightwithyoureyes,ortheonemadebymeasuringlightusingthelightsensors?
2. WhataresomereasonswhymeasurementdeviceswereusefulinthisinvesCgaCon?
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Lesson8.4–RevisingtheLightModel
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillusethelightmodeltopredictwhyitispossibletoseethroughsomeobjectsbutnotthroughothers.
ProcedureThefollowingdiagramshowslightleavingasourceandhiengapieceofglass.Drawwhatyouthinkwillhappentothelightraysastheyhittheglass.(Hint:Canyouseethroughglass?CanyouseeareflecConofyourselfinglass?)
Thefollowingdiagramshowslightleavingasourceandhiengapieceofunpolishedwood.Drawwhatyouthinkwillhappentothelightraysastheyhitthewood.(Hints:Canyouseethroughwood?CanyouseeyourreflecCononawoodsurface?)
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Conclusion
1. InLesson6,youlookedataphotoofpapertakenwithamicroscope.Yousawthatpaperismadeoffibers,andyoulearnedthatlightscaPersoffthesurfaceofpaper.Imaginethatapersonislookingthroughasheetofpaper,asshowninthethefollowingincompletemodel.Imaginethatthepersoncanbarelyseethelightsourcethroughthepaper.Completethemodelbydrawingarrowstoshowthis.
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Lesson8.5–TransmissionofLight
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillexaminemoreexamplesoftransmissionandreflecConoflight.WhenweinvesCgate,think,talk,andwriteaboutscience,weunderstanditbePer.Lightfromaflashlightisshownhiengtwodifferentobjectsbelow.1. Completeeachdiagram,sothatitshowshowmuchlightyouthinkeachobjectwilltransmit.2. MakesuretoshowwhetherlightthatbouncesofftheobjectwillbescaPeredorreflected.
ReflecAveSunglassesSomesunglasseshaveareflecCvecoaCng.ThecoaCngmakesthemlooklikeamirror,butitsCllallowsthepersontosee.
RicePaperRicepaperisusedinplaceslikeJapantomakedoorsthatletlightthrough.Thepictureshowsadoormadewithricepaper.
Conclusion
1. AlerEvacleanedtheslidingglassdooratherhouse,herfriendcameoverandwalkedrightintoit.Whyisiteasiertoseetheglasswhenitisdirtythanwhenitisclean?
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Reading8.6–UsinglightinopAcalfibers
Ge`ngReadyHaveyoueverseenalamplikethisone?ThelamphashundredsofthinplasCcfiberscomingoutofit.TheendsofthefibersglowwithaCnylight.TheseCnystrandsarecalledopCcalfibers.OpCcalfibersareusedtomakefunlamps,buttheyarealsousedinotherwaystomakeyourlifeeasier.EveryCmeyougoontheInternet,yousendandreceiveinformaConusingopCcalfibers.OpCcalfibersalsomakeitpossibleforatelevisiontogethundredsofchannels.Inthisreading,youwilllearnaboutopCcalfibersandhowtheywork.TheyareoneofthewaysthatscienCstscreatenewthings,becausetheyunderstandlight.
HowDoOpAcalFibersWork?LookaroundyourhouseforapieceofclearplasCc.YoumightfindaCDcase,asodapopboPle,orplasCcwrapfromthekitchen.NoCcethatyoucanseethroughtheclearplasCc.ExplainhowitispossibletoseesomethingontheothersideoftheplasCc,eventhoughtheplasCcisblockingthepathbetweentheobjectandyoureye.
LookcarefullyattheplasCcsurface.ExplainhowitispossibleforittotransmitlightandforyoutoalsoseeyourreflecCon.
WhatDoesPlasAcHavetoDowithOpAcalFibers?OpCcalfibersworkbecauselightisreflectedandtransmiPedbymaterialsinthefiber.MostopCcalfibersaremadeofglasssurroundedbyothermaterials.Lighttravelsintothecorebecauseclearglasstransmitslighteasily.WhatmakesopCcalfibersspecialiswhathappenswhenthetransmiPedlighthitsthesideoftheclearglasscore—itisreflectedlikeitwouldfromamirror.Becausethelightisreflected,itcanfollowalongthefiber,evenwhenthefiberisbent.ThisiswhyopCcalfibersaresomeCmescalled“lightpipes.”PeoplecandirectlightdownanopCcalfibermuchliketheycandirectwaterthroughawaterpipe.NotethepictureofabeelookingintoathickpieceofopCcalfiber.WhileitlookslikethereisanotherbeecomingoutoftheopCcalfiber,youarereallyjustseeinglightthathasbeenscaPeredfromthebee,transmiPed,anddirectedalongthebentfiber.HowDoesOurLightModelApplytoWhatHappensinOpAcalFibers?Inclass,youcreatedaconsensusmodeltodescribehowlighthelpsyousee.Inthismodel,youdrewlightasstraightlinesthatgooutinalldirecConsfromalightsource.Iflightbouncesoffanobject,itchangesdirecConsandthentravelsinastraightlineagain.Youdrewlightasstraightlinesbecausewhenlighttravelsthroughtheair,itmovesinastraightline.LightalsomovesinastraightlineinanopCcalfiber.Lightdoesnotbend;itjustseemstobendasitchangesdirecConwhenitisreflectedatthesides.Ifyoushineaflashlightintheair,thelightwillfollowastraightpathunClithitsanobject.IfyoushineaflashlightintooneendofanopCcalfiber,thelightwillfollowthepathofthecableandcome
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outtheotherend.Gobackandlookatthepictureofthelampatthebeginningofthisreading.Theendsofthefibersarebright,becauselightfromthelamphasfollowedthefibersandisleavingthemattheotherend.HowAreOpAcalFibersUseful?Youmayalreadyknowthatcomputerscommunicatewitheachotherusingelectricalwires.ComputerscanalsocommunicatebyshininglightdownopCcalfibers.Whywouldpeopleprefertosendsignalsdownafiberusinglightinsteadofdownawireusingelectricity?OnereasonisthatopCcalfiberscanbemuchthinnerthanelectricalwires.Boththewirebundleandasinglefibercandothesamejob.Asinglefibercandotheworkofmanyelectricalwires.HaveyouevertriedtoloadawebpageandhadtowaitalongCme?Thishappensbecausemanycomputersaretryingtosendsignalsdownthesamewires.Tryingtosendmanysignalsdownthesamewireisliketryingtodrivealotofcarsonthesameroad.Iftherearetoomanycarsontheroad,therewillbeatrafficjam.BecauseopCcalfibersaresmallerbutcancarrymoresignalsatonce,theycanhelptopreventtrafficjamsthathappenontheInternet.ThisiswhysomepeoplecalltheInternettheinformaConsuperhighway.NewwaysofcommunicaCngareeverywhere.Televisionhaschangedalotsinceyourparentsorgrandparentswereyoung.Askaparent,grandparent,oranotherolderpersonthefollowingquesConsabouttelevision:
• HowmanychannelscouldtheygetonTVwhentheywereyourage?• HowdidtheTVrecepConcomparetotoday?
WhydoyouthinkthesituaContodayisdifferentthanwhattheydescribed?Describewhatyoulearned.
UsingOpAcalFibers:SurgeryWhendoctorsdosurgery,theymustbeabletoseeinsideapaCent’sbody.Usually,theyhavetocutintoskin.ByusingopCcalfibers,doctorscanmakeveryCnycutsandleavescarsthatarealmostinvisible.AlermakingaCnycut,doctorsinsertasmallopCcalfiber.TheycanlightuptheinsideofthepaCent’sbodybysendinglightthroughthefiber.Whenthelighthitssomethinginsidethebody,itbouncesoffandentersasecondopCcalfiber.Thesecondcablecarriesthelighttoacamera.Thecameraproducesapicturethatthedoctorcanseeonatelevisionscreen.OpCcalfibershavemadesurgerymuchsaferforpaCents.UsingOpAcalFibers:LighAngHaveyoueverbeeninaroomwithnowindows?Manypeoplewhoworkinofficebuildingsdothiseveryday.SomescienCstsareworkingwithopCcalfiberstochangethat.BypuengoneendofanopCcalfiberoutside,itispossibletosendsunlighttoaroomthathasnowindows.OpCcalfibersmaysomedayprovidesunlightforpeoplewithnowindows,eveniftheyareunderground.OpCcalfiberscanprovidepeoplewithnaturalsunlightforfree,butwhataresomedisadvantagestousingopCcalfiberstolightaroomwithsunlight?
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WhyAreOpAcalFibersImportant?OpCcalfibersallowpeopletouselightforalotofnewpurposes.Peoplecansendsignalsbetweencomputers,andtheycandomuchsafersurgeries.Tosendlightdownacable,opCcalfibersrelyonreflecCngandtransmienglight.Thesearetwodifferentwaysthatlightcaninteractwithobjectsandmaterials.Inthenextlesson,youwilllearnaboutathirdwaythatlightcaninteractwithobjectsandmaterials,andyouwillbegintoimaginenewpossibiliCesforthefuture.
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Lesson9–AbsorpAonofLightLesson9.1–Lightmakesthingshappen
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillinvesCgateanotherwaylightcaninteractwithobjects.Lightcanalsobeabsorbed.
ProcedureYourteacherwillshowyouaradiometer,whichspinswhenlightshinesonit.
Inthefollowingtable,listotherobjectsyouhaveseenthatwhenlighthitsthem,somethinghappens.Describewhathappenswhenlightisshinedoneachobject.
Data
Conclusion
1. Theobjectsonyourlistallabsorblightandthensomethinghappens.WhichobjectsonyourlistalsoscaPer,reflect,ortransmitlight?
Object What happens when light shines on the object? v
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Lesson9.2–InvesAgaAngheaAngbylight
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillinvesCgatehowlightinteractswithwater.AlercollecCngdata,wewillreviseourmodelsoitcanexplainwhysunlightfeelswarm.
ProcedureAbrightlightwillbeshinedontwobeakersofwater.Onebeakercontainsclearwater,andtheothercontainswatercoloredwithfoodcoloring.Predictwhichbeakerofwaterwillgetwarmer:thecoloredwaterortheclearwater.Explainwhyyouthinkso.
AlightsensorandathermometerwillbeusedtotakeseveralmeasurementsduringthisinvesCgaCon:
amountofreflectedlightamountoftransmiPedlightstarCngwatertemperatureendingwatertemperature
Createadatatabletorecordthemeasurementsfortheclearwaterandthecoloredwater.
Data
Conclusion
1. Howdoestheamountoflightreachingthecoloredwatercomparewiththeamountreachingtheclearwater?Howdoyouknowthis?
Variable Clear Water Dark Water
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2. Thefollowingwillhelpyouuseyourdatatounderstandwhyonebeakerofwatergotwarmerthantheother.
3. AddtheamountofreflectedlighttotheamountoftransmiPedlightfortheclearwater.
4. AddtheamountofreflectedlighttotheamountoftransmiPedlightforthecoloredwater.
5. Howisthetotalamountoflightthatyoumeasured(lightthatwasreflectedandtransmiPed)relatedtotheamountofheaCng?
6. Whatdoyouthinkhappenedtothelightthatcausedthewatertoheatup?Ifithelpsyou,draw(construct)twomodelsofwhathappenstothelightinthecaseofcoloredwaterandclearwater.
Light Reflected
Light Transmitted
Total Light Measured
Light Reflected
Light Transmitted
Total Light Measured
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Reading9.3–SolarPowerPlants
Ge`ngReadyInclass,youareinvesCgaCnghowlightcanbeusedtoheatwater.Whataresomereasonspeoplewouldwanthotwaterorsteam?
Didyouknowthatsteamcanalsobeusedtogenerateelectricity?Inthisreading,youwilllearnmoreabouthowlightmakesthingshappen.Forexample,lightcanbeusedtogeneratesteam,whichcangenerateelectricity.UsingSteamtoDoThingsAlmostalloftheelectricitythatpeopleusetolightlamps,tokeepfoodcoldinrefrigerators,ortowatchtelevisionisgeneratedbyamachinecalledasteamturbine.Youdonothaveasteamturbineinyourhome.Somewhere,atsomepowerplant,asteamturbinegenerateselectricityandsendsitthroughwires.Asteamturbineisamachinewithgiantfanbladesinside.Whenthefanbladesturn,themachineusestheturningmoContogenerateelectricity.Thetrickistofigureoutawaytomakethefanbladesturn.Youcanthinkofthebladesinsideasteamturbinelikeagiantpinwheel.Whenyoublowonapinwheel,theairyoubreatheouthitsthebladesofthepinwheelandmovethem.Now,imaginethatyoucouldholdthepinwheelaboveapotofboilingwater.Thesteamwouldalsomakethepinwheelturn,justlikewithyoublowingonit.Makingapinwheelturnbyholdingitaboveboilingwateristhesameideaasusingsteamtoturnthefanbladesinsideasteamturbine.Longago,someoneneededtofigureouthowtoheatwaterenoughsothatitturnstosteam.Thenthesteamcouldoperatetheturbineandgenerateelectricityforpeople’shomes.MostoftheelectricitygeneratedintheUnitedStatesisproducedbycoalpowerplants,whichburncoaltoheatwaterunClitbecomessteam.SolarPowerInclass,youareinvesCgaCnghowlightfromalightbulbcanbeusedtoheatwaterinabeaker.Somepowerplants,calledsolarpowertowers,uselightfromthesuntoheatwaterunClitbecomessteam.Asolarpowertowerusesthousandsofmirrorstoreflectlightfromthesuntoatowerthatholdswater.Lookatthephototoseehowthislooks.Whenlightreflectedbythemirrorshitsthetower,thewaterinsideisheated.Ifthewaterisheatedenough,itbecomessteam.Thesteamistransportedthroughpipestoasteamturbine,whichproduceselectricity.Onedrawbackofasolarpowertoweristhatitcanonlyheatwaterduringtheday.Oncethesteamcoolsdownandbecomeswateragain,itcannotturnthesteamturbines.PeoplesCllneedelectricityatnightorwhenthesunisblockedbyclouds.ToproduceelectricityattheseCmes,somesolarpowertowersheatadifferentliquidinsteadofheaCngwater.Oncethefluidisheated,itcanbetransportedthroughpipestocomeincontactwithacontainerofwater.There,itheatsthewatertomakesteam.IttakesthespecialfluidalongCmetocooldown,soitcanremainveryhotthroughout
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thenight.Becausethefluidstayshot,itcanheatwatertocreatesteamevenwhenthesunisnotshining.SolarChimneysAnotherwaytouselightfromthesuntogenerateelectricitydoesnotinvolveheaCngwateratall.Inasolarchimney,lightfromthesunheatstheairunderneathalargeglassroof.Thehotairrisesandisforcedthroughagiantchimney.Astheheatedairrises,itturnsfanbladestogenerateelectricity.Thesuncanonlyheatairduringtheday,sosolarchimneyshavepipesfilledwithliquidthatremainshotatnight.Thatmeansthesolarchimneyworksevenwhenthesunisnotshining.Lightfromthesuncanheatanobjectwhenithitsit.Thisiswhyyourskinfeelswarminthesunlight.IntheinvesCgaConyouaredoinginclass,youwilldeterminehowlightheatsthingsandwhysomematerialsgethotfasterthanothers.Thelightyourteacherusestoheatbeakersofwateriscalledafloodlamp.NoCcethatafloodlamphassilversidesdesignedtoreflectlight.Inwhatwaydoesthefloodlampworktoheatwaterfasterthanaregularlightbulb?
YouhavelearnedthatlightcanbescaPered(orreflectediftheobjectissmooth)ortransmiPedwhenitreachesanobject.Inclass,youusedlighttoheattwobeakersofwater.IfallthelightthatreachedthebeakerswasscaPeredorreflected,howhotwouldthewaterbe?
HowhotwouldthewaterbeifallthelightreachingthetwobeakershadbeentransmiPed?
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Lesson9.4–KeepingTrackofLight
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillreviseourlightmodeltoaccountforallthreewaysthatlightcaninteractwithobjectsandmaterials.ObjectscanreflectorscaPer,transmit,andabsorblight.
ObservaAons
DuringthelastacCvity,youinvesCgatedwhathappenedasabeakerofclearwaterandabeakerofcoloredwaterwereheatedusinglightfromafloodlamp.Basedonwhatyousawinthatexperiment,answerthefollowingquesCons.1. WhichbeakertransmiPedmorelight?
2.Whichbeakerreflectedmorelight?
3.Whichbeakerabsorbedmorelight?
4.Whatevidenceshowedwhichbeakerabsorbedmorelight?
Conclusion
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1. Thesediagramsshowtwoincompletemodelsinwhichlightisleavingafloodlampandtravelingtowardabeakerofwater.CompletethefollowingmodelsbydrawingaddiConallightraysthatcanbeusedtoexplainyourobservaCons.Makesureofthefollowing:
• Yourmodelsshowthesameamountoflightreachingbothbeakers.• Onemodelshowsdifferentamountsoflightbeingreflected,transmiPed,andabsorbedthanthe
other.
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Lesson9.5–RevisiAngphenomenacausedbylight
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillexaminehowdevicesusereflecConorscaPering,transmission,andabsorpContomakethingshappen.
ProcedureLookattheobjectyourteachershowsyou.Doestheobjectreflect/scaPeralotoflight?Howdoyouknow?
Doestheobjecttransmitalotoflight?Howdoyouknow?
Doestheobjectabsorbalotoflight?Howdoyouknow?
Conclusion
1. InseveralacCviCesyousawthatlightwasscaPered,transmiPed,absorbed,orsomecombinaConofthese.IntheacCvitywiththeclearandcoloredwater,yousawthatthemorelightthatwasabsorbed,thelessthatwasscaPeredandtransmiPed.IsthisrelaConshiptruefortheobjectyourteacherjustshowedyou?MakeageneralruleaboutthewaytheamountsoflightreflectedorscaPered,transmiPed,andabsorbedbyanyobjectarerelatedtoeachother.
2. Ifyoudesignedadevicethatuseslighttomakesomethinghappen,likeheaCngsomething,makingsomethingmove,orgeneraCngelectricity,wouldyouwantmostofthelightthatreachesthedevicetobereflected,transmiPed,orabsorbed?Why?
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Lesson9.6–AbsorpAonofLight
Whatwasthepointofthelastlesson?
ProcedureApplywhatwehavelearnedaboutlighttosituaConsthathappenoutsideofscienceclass.Twopotatoesarelelinthesunshineforanhour.Onepotatoiscoveredwithaluminumfoil.Theotherpotatohasnothingcoveringit.Alertheendofthehour,whichpotatowillbewarmer?Explain.Asolarcelluseslightfromthesuntorunelectronicdeviceslikecalculators.SolarcellshaveacoaCngthatreflectsasliPlelightaspossible.Whywouldthisbeimportant?Lightfromthesameflashlightisshinedonseveralobjects.Alightdetectormeasuresthelightalerithitseachobject.Usethefollowingdatatodeterminewhichobjectabsorbedthemostlight.Whichobjectabsorbedthemostlight?Explain.
Conclusion
1. Whichobjectabsorbedthemostlight?Explain.
2. WhichobjecttransmiBedthemostlight?Explain.
Object Light Scattered Light Transmitted
T-Shirt 131 Lux 14 Lux
Cardboard 180 Lux 2 Lux
Ice Cube 450 Lux 100 Lux
Brick 157 Lux 0 Lux
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Reading9.7–SolarEnergy
Ge`ngReadyHaveyouevergoneintoaroomwherethesunwasshiningbrightlythroughthewindows?Ifso,howdidthetemperatureinthisroomcomparetothetemperatureofotherrooms?Inclass,youlearnedthatlightcaninteractwithobjectsinthreeways.Lightcanbereflected(orscaPered),transmiPed,andabsorbed.Whenlighthitsanobject,one,ortwo,orallofthesecanhappenatthesameCme.Whenlightfromthesunreachesaclearwindow,someofthelightisreflectedoffofthesmoothglass.Someofthelightisabsorbedbytheglass,butmostofthelightistransmiPed.MostofthelightconCnuestotravelunClitreachesanobjectintheroom,likethefloor,walls,orfurniture.TheseobjectsthenscaPer,transmit,andabsorbthelightthatreachesthem.Thelightabsorbedbytheobjectscausesthemtoheatup.Theseheatedobjectscanthenheatotherstuffintheroom,suchastheair,theceiling,andevenyou.Today,youwillreadaboutmanywaysthatpeopleusesunlight,becausetheyunderstandthatlightcanmakethingshappen.HowDoPeopleUseReflecAon?Haveyoueverseenabuildingthatlooksasifitweremadeoutofmirrors?ThesebuildingsaremadeusingreflecCveglass.HowwouldreplacingclearwindowswithreflecCveglassaffectthetemperatureinsidethebuilding?Explainyourideas.
Inclass,yousawthatlightcancausemanytypesofchangesinobjectsbesidesheaCngthem.Lightmakesplantsgrow,radiometersspin,andlight-sensiCvepaperchangecolor.Youlearnedthatinorderforthesechangestooccur,lightreachingtheobjectmustbeabsorbed.Lightcarriesenergyasittravels,sowhenlightisabsorbedbyanobject,energyistransferredfromthelighttotheobjectthatithits.Itisthetransferofenergythatenablesobjectstoheatup,spin,grow,orchangecolor.Theenergycarriedbythelightfromthesuniscalledlightenergyorsolarenergy.Solarenergycanbeusedinmanyways.
SolarWaterHeatersSolarenergyiswidelyavailableinCaliforniabecauseitisverysunny.PeoplewholiveinCaliforniahavebeenusingsolarenergyfromthesunforalongCme.Somepeopleusesolarenergycarriedbylightfromthesuntoheattheirwater.Solarwaterheatersareolenplacedonroofstoabsorbsunlightdirectly.PeopleinsouthernCaliforniahavebeenusingsolarwaterheatersforoverahundredyears.Byusingsolarenergy,peopledonotneedtopayforthegasorelectricitythatpowermostwaterheaters.Mostsolarwaterheatershavethreeparts:ahotwaterstoragetank,asolarcollectorthatabsorbslightfromthesun,andabackupgasorelectricheaterthatcanheatthewaterincaseofacloudyday.Lookatthepictureofthesolarwaterheater.ItisdesignedtoabsorbasmuchlightaspossibleandreflectasliPlelightaspossible.
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ThinkoftheacCvityyoudidinclasswhenyouusedalightbulbtoheatabeakerofclearwaterandabeakerofcoloredwater.UsewhatyoulearnedfromthatacCvitytohelpyouexplainwhyitisbestforsolarcollectorstobeblack.
Doyouthinkusingsolarwaterheaterswouldbeagoodideawhereyoulive?Why?
HowDoesSolarEnergyMakeElectronicsWork?HeaCngwaterisnottheonlywaytousesolarenergy.Haveyoueverseenasignthatlooksliketheoneinthephotograph?Togetpeople’saPenCon,lightsflashaboveandbelowthesign.Theselightsneedelectricitytooperate,buttheydonotneedtobepluggedin.Thedarkpanelontopofthesigniscalledasolarcell.Itissimilartothesolarcollectorsyoujustreadabout.Asolarcellproduceselectricitybyusinglightenergyfromthesun.Solarcellsareusefulforthingsthatneedelectricitybutarenotnearanelectricaloutlet.StateslikeNewMexicoandArizonausealotofsolarcellsbecausetheyhavealotofsunlight,andmanydesertareasarefarfromelectricity.Solarcellsarealsousefultomovethings.Forexample,scienCstscanbuildcarsthatneverneedgasoline.Thesecarshavesolarcells,sotheymoveusinglightenergyfromthesun.SolarPanelPowersCalculatorSomecalculatorsaredesignedtooperateusingasmallsolarcell.Likethesolarcollectorsonsolarwaterheaters,solarcellsaredesignedtoabsorbalotoflightandtoreflectveryliPle.Explainwhyagoodsolarcellabsorbsalotoflightandreflectsasmallamountoflight.Someminiaturecarscanrunusingsmallsolarcells,butthesolarcellsneededtorunarealcarmustbeverylarge.Usingwhatyouknowaboutsolarenergy,explainwhyarealcarneedsabiggersolarcellthanaminiaturecar.Solarenergycanbeusedtoheatwater,generateelectricity,movethings,orevenmakelivingthingsgrow.SinceitisplenCful,anditdoesnotcreatepolluCon,solarenergyisanexcellentenergyresource.YoumaywanttolearnmoreaboutsolarenergyontheInternet.
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Lesson10–Whatistheoppositeofwhitelight?Lesson10.1–Mixingoflightwithprojectors
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillexplorelightandcoloranddifferentcolorsoflightinordertoanswertheDrivingQuesCon.
ProcedureToday,youwillexplorelightandcolorusingprojectorsorflashlights.ItisimportanttomakecarefulobservaConsduringeachstepoftheinvesCgaCon.Explainwhythescreenlooksbrighterwhenaprojector(orflashlight)isshiningonitthanwhenitisturnedoff.Itisnotenoughtosaythatmorelightisshiningonit.Usethelightmodeltoexplaintheamountoflightreachingthescreenandyoureyes.(Youmayalsodrawthemodelifthatwouldbehelpful.)
Whatdoyouseeonthescreenwhenaredfilterisplacedontheflashlightortheprojectorprojectsredlight?
Predictwhatcoloroflightyouwillseeonthescreenwhenyourteacheraimsthreeprojectorsorthreeflashlights(red,green,andblue)sothattheirsquaresorcirclesareoverlapping.
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Conclusion
1. Explainwhyyousawthecoloryoudidwhenallthreecolorsoflightwereoverlapping.
2. Whenyoumixdifferentcolorsoflight,thenewcoloryouseeisbrighterthantheoriginalcolorsyoumixed.Explainwhythishappens.
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Lesson10.2–Mixingcolorsoflightonacomputer
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillusetechnologytoinvesCgatehowmuchred,green,andbluelightshouldbemixedtocreatewhite,black,andshadesofgray.
ProcedureGotothefollowingwebsite:hPp://www.exploratorium.edu/exhibits/mix_n_match/(ordoawebsearchfor“Exploratoriummixnmatch”.NoteyouwillneedtobeabletorunShockwaveonyourcomputer,anditwillnotrunonaniPad).ClickonMix-n-Match.ReadtheinstrucConsonthewebsiteabouthowtoinvesCgatemakingdifferentcolorsbycombiningred,green,andbluelight.Makesureeachstudentinyourgrouphasatleastoneopportunitytooperatethecomputer’smouse.StudentswhoarenotoperaCngthemouseshouldmakesuggesConsabouthowtogetthedesiredcolor.InvesCgatewhitelight.Howmuchred,green,andbluelightdoyouthinkneedtobemixedtocreatewhitelight?RecordyourpredicConsbeforeyoutryit.
ManipulatethecomputerunClyousucceedinmakingwhitelight.Recordyourresults.
WhydoyouthinkthisparCcularcombinaConmakeswhitelight?
InvesCgateblacklight.a.Howmuchred,green,andbluelightdoyouthinkneedtobemixedtocreateblacklight?RecordyourpredicConbeforeyoutryit.
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ManipulatethecomputerunClyousucceedinmakingblacklight.Recordyourresults.
WhydoyouthinkthisparCcularcombinaConmakesblack?.
InvesCgaCnggraylight.Howmuchred,green,andbluelightdoyouthinkneedtobemixedtoobtaingraylight?RecordyourpredicConbeforeyoutryit.
ManipulatethecomputerunClyousucceedinmakinglightgraylightanddarkgraylight.Howmuchred,green,andbluelightdoyouthinkneedtobemixedtoobtainlightgraylight?Howmuchisneededtoobtaindarkgraylight?
WhydoyouthinktheseparCcularcombinaConsmadetheseshadesofgray?
Conclusion
1. Computerscanonlyemitred,green,andbluelight.Yet,yourcomputerscreenshowsapicturewithgreengrass,abluesky,ayellowsun,andabrownhouse.Howdoyouthinkthescreenmakesthesedifferentcolors?
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Lesson10.3–Howdocolorsensorswork?
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewilllearnhowtheeyeanddigitalcamerasdetectdifferentcolorsoflight.Wewillalsolearnwhymixturesofcolorsoflightappeartooureyestobenewcolors.
ProcedureLookattheimagesthatdescribethestructureoftwothings:thehumaneyeandadigitalcamera.Usethespaceprovidedtotakenotes.
Adigitalcameraisliketheeye—atitsbackisadevicecalledaCCDthathasthreedifferenttypesofcellsthatdetectred,green,andbluelight.
WhatarethetwotypesofcellsinthereCnaofaneye?
Eachtypeofconecelldetectsadifferentcoloroflight.WhatarethethreecolorsoflighttheconecellsinthereCnaaresensiCveto?
Whenyouareinadark,butnotcompletelydarkroom,itisimpossibletodetectthecolorsofobjectsintheroom.Everythingseemstobedifferentshadesofgray.Explainwhyyoucanonlyseeshadesofgray.
HowisthedesignoftheCCDofadigitalcamerasimilartothereCnaofthehumaneye?
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Youhavelearnedthattheeyeisalightsensor.AnswerthesequesConsabouttheeye:
Howdolightraysentertheeyewhileseeing?
Whydoesthepupilopenwideinthedarkandnarrowdowninbrightlight?
Whydoesthepupillookblack?
Conclusion
1. Whenamixtureofredandgreenlightentersyoureyes,youperceivethemixtureasyellowlight.Explainwhyyoureyeperceivesthismixtureofredandgreenlightasyellow.
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Reading10.4–Makingcolorphotographs
Ge`ngReadyHaveyoueverseenablackandwhitemovie?Didyoueverwonderwhyoldmovieswerealwaysinblackandwhiteinsteadofincolor?Alerall,everythinginthemoviewasactuallycolored.Today,youwillreadabouthowcamerasmakepicturesincolor.Whatyoulearnedinclassaboutcolormixingcanhelpyouthinkaboutmoviesandaboutphotographs.WhatHappensWhenIMixColorsofLight?Inclass,youlearnedhowtheeyedetectscolors.Youalsolearnedthattwothingshappenwhenyoumixedcolorsoflight.First,whenyoumixedcolors,youendedupwithanewcolor.Usingtwosources,youmixedredlightwithgreenlightandgotyellow.Whenyouaddedbluelightfromathirdsource,yougotwhite.Second,whenyoumixedcolorsfromtwosources,thenewcolorwasbrighter.Thecolorinthearealitbyallthreesourceswasthebrightestofallthecolors.YoumightalsohaveusedacomputersimulaConontheInternettoseethatwhenevertwocolorsoflightaremixed,thenewcolorisbrighterthantheoldones.Thishappensbecauseasyouincreasedtheamountoflight,morelightwasavailabletoreachyoureyes.OntheInternet,ifyouseeasimulaConabout“mixinglight”or“mixingcolorsoflight,”youwillseethatwhenyoumixmaximumamountsofred,green,andbluelight,youseewhite.Ontheotherhand,whenyoumixnored,green,orbluelight,youseeblack.TheseacCviCeshelpyoulearnthatwhitelightisthebrightestofallcolors,anditisamixtureofmanycolors.Whenyouseeblack,itmeansthatthereisnolightpresent.Whydoyouthinkashadowisblack?
HowDoPeopleSeeDifferentColors?InthepreviousacCvity,youlearnedhowpeopleseedifferentcolors.ThereCna,inthebackoftheeye,containscellsthataresensiCvetolight.TwokindsofcellsareinthereCna:cone-shapedcellsandrod-shapedcells.Therod-shapedcellstellyouhowbrightorhowdarksomethingis.Thethreedifferentkindsofcone-shapedcellsareeachsensiCvetoadifferentcoloroflight.SomearesensiCvetoredlight,sometogreenlight,andsometobluelight.Allthesecellssendsignalstoyourbrain.Yourbrainprocessesthesesignalsasimages.InLesson9,youlearnedaboutdigitalcamerasandfoundoutthattheyworkmuchlikeyoureyes—theydetectthelightcomingintothem.Somecamerasusefilminstead.Cameraswithfilmalsodetectthelightcomingintothecameraandtothefilmtorecordit.Youmayhavetakenpicturesonacamerathatusesfilm.Onceyouhaveusedupyourfilm,youhavetotakeittoastoretobe
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developed.Onlythencanyouseethepicturesthatyoutook.HowDoesFilminaCameraRecordDifferentColorsofLight?Justlikeyoureyes,acamerahasaholethatletslightinside.Inyoureye,thisholeisyourpupil.Inacamera,thisholeistheshuPer.WhenyoupressthebuPontotakeapicture,youopentheshuPer.Inasplitsecond,lightentersthecameraandtravelsthroughit.ThelightreachesthebackofthecamerawheretheCCDislocated.Inacamerathatusesfilm,thisiswherethefilmislocated.Thefilmabsorbslightwhichcausesittochangecolor.Redlightcausesthefilmtochangeinadifferentwaythanbluelight.Inblackandwhitefilm,allcolorsoflightwillcausethefilmtochangeinthesameway.Insteadofproducingareaswithdifferentcolors,blackandwhitefilmonlyproducesareasthatarelighterordarker.Colorfilmismadeofthreelayers.TheselayersoffilmareliketheconecellsinthereCnaofaneye.Somelayerssenseredlight,othersgreenlight,andothersbluelight.ThedifferenceisthatinthereCna,thedifferentconecellsarelocatedsidebyside,andinfilmthedifferentlayersareoneundertheother.Ifcolorfilmishitbyredlight,thelayerthatissensiCvetoredlightdoesnotbecomered—itbecomeslightblue.GreenlightmakesthelayersensiCvetogreenlightbecomelightpurple.BluelightmakesthelayersensiCvetobluelightbecomeyellow.Soifyoulookatfilmalerithasbeenexposedtolight,whatyouwillseewilllookverydifferentfromtheobjectthatyoutookapictureof.Itwillhavethesameshape,butallthecolorswillbewrong.Thisphotoshowswhatfilmwouldlooklikeifyoutookaphotoofacastle.ItisinteresCngtolookatthenegaCvesfromfilmthathasbeendevelopedtoseethedifferencebetweenthenegaCvesandthephotos!Alerphotoshavebeentaken,filmneedstobeprotectedsoitwillnotgetexposedtoanymorelight.FilmcansCllabsorbmorelight.Ifmorelightweretostrikethefilm,itwouldrecordthislightaswellasthelightthathititwhiletakingthepictures.Thiswouldmessupthefirstpictureitrecorded.Thefilmisrolledandplacedintoacanisterthatdoesnotletinanymorelight.ThepersonwhodevelopsthefilmopensthecanisterincompletedarknessandputsthefilmintoaliquidthatmakesthefilmnolongersensiCvetolight.Thefilmcanthenbetakenoutintotheopenwithoutanyworryofmessingitup.Thestorethenusesthefilmtoprintphotos.Themachinethatprintspicturesonfilmchangesthecolorsonthefilmbacktotheoriginalcolors,sothephotoslookliketheoriginalobjects.2.Whydoyouthinkthereisaneedforthreelayersinafilm?
3.Whydoyouthinkthelayersinthefilmneedtobetransparenttoallcolorsotherthantheoneitabsorbs?
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HowDoesaTelevisionShowColors?Sometelevisionshave“guns”nearthebackthatsendCnyparCclescalledelectronstowardthescreen.Magnetsinsidethetelevisioncanpushorpulltheelectronsup,down,lel,orright,sothattheycanhitthescreenanyplace.Theinsidesurfaceofatelevisionscreeniscoatedwithverysmalldots.Whenanelectronhitsadot,itmakesaweakflashoflight.Therearethreedifferentkindsofdots,andeachonegeneratesadifferentcoloroflight.Bycontrollingwhichdotsarehitbyelectrons,someonecancontrolwhichcolorsoflightaremadebythescreenateachpointonthescreen.AsyoulearnedinLesson9,youreyesperceivedifferentmixturesofred,green,andbluelightasnewcolors.Sincethedotsonthescreenmakingthelightaresosmall,youcannottellthemapart.WhentwodotsnexttoeachotherlightupatthesameCme,youseeonlyoneflashoflight.Thecolorofthatlightwilldependuponthecolorsoflightmadebythedots.Youhavelearnedhowcamerafilmandtelevisionscombineonlythreecolorsoflighttomakeallthecolorsthatyoureyecansee.Forexample,youknowthatredandgreenlightcanmixtomakeyellowlight.ThinkofitnextCmeyouseesomethingyellowlikeaflower.Areyouactuallyseeingyellowlight,orisitamixtureofredandgreenlightthatlooksyellowtoyoureyes?Inthenextlesson,youwilllearnhowyoucantellwhetheryouareseeingapurecolororamixtureofdifferentcolorsoflight.
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Lesson11–Howdoobjectschangethecoloroflight?Lesson11.1–AnalyzingcolorcomposiAon
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewilllearnhowtoanalyzelighttodetermineoutofwhichothercolorsoflightitiscomposed.
ProcedureYourteacherwillprojectawhitelineonthescreen.Explainwhythelineappearstobewhite.
WhenyourteachercoverstheprojectorwithapieceofC-Spectra,twocolorfulimagesarecreated.Eachimagecontainsallthecolorsoftherainbow.Makealistofthecolorsthatyousee.
Explainhowyouthinkdifferentcoloredobjectsthatdonottransmitlight,likeaballoratable,colorthelightthattheyscaPerorreflect.Drawamodelifithelpsyou.
UsingapieceofC-Spectra,onepersoninyourgroupshouldlookatthecoloredlineonthesheetofblackpaperthatyourteachertapestotheboard.Thispersonshouldcheckinthetablethecolorsthattheycansee.Then,whentheteachertapesadiffer-entsheettotheboard,adifferentstudentshouldanalyzethenewline.Everypersoninyourgroupshouldhavetheopportunitytoanalyzeatleastoneline.
ColorsofLight
Red Orange Yellow Green Blue Violet
Red Line
Orange Line
Yellow Line
Green Line
Blue Line
Violet Line
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ExplainwhyyouthinkthedifferentcoloredlinesscaPerdifferentcolorsoflight.
Whydoyouthinkthecoloredlineswereprintedonblackpaperratherthanonwhitepaper?
Conclusion
1. Whatcolordoyouthinkyouwouldhaveseeniftheredstripehadbeenilluminatedbyredlight?Explainyourideas.
2. Whatcolordoyouthinkyouwouldhaveseeniftheredstripehadbeenilluminatedbygreenlight?Explainyourideas.
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Reading11.2–Rainbows
Ge`ngReadyHaveyoueverwonderedwhyrainbowsappear?YouhaveprobablynoCcedthatrainbowshavesomethingtodowiththeweather.Youhaveprobablythoughtaboutthefactthatthewordrainbowhasraininit,andthatiswhenyouseerainbows.However,youdonotseearainboweveryCmeitrains.Thisreadingisaboutwhatmakesrainbowsappearinthesky.ThinkofaCmewhenyouhaveseenarainbow.TrytorememberwhattheweatherwaslikeattheCme.ThesethreequesConsmighthelpyou:• WasitsCllrainingorhadtherainstopped?• Wasthewholeskycloudy?• Wasitduringthedayornight?
YouCanMakeYourOwnRainbowBeforereading,hereisanacCvityyoucandotocreateyourownrainbow.Youneedtodothisonasunnyday.First,findawindowwherethesunisshiningin.Second,pullatableclosetothewindow.Third,placeafullglassofwaterontheedgeofthetablewherethesunisshiningthebrightest.Lookatthefollowingdiagramtoseehowtosetupyourexperiment.Onceyouplacetheglassonthetable,lookatthefloorneartheglass.Youshouldseearainbowonthefloor.Ifitisnotasunnyday,youcansClltrytomakeyourownrainbow.Makearoomasdarkaspossibleandsetupafullglassofwaterontheedgeofatable.Insteadofsunlight,youneedaflashlight.Turnontheflashlightandpointitattheglass,asiftheflashlightwerethesun.Keeptheflashlightpointedattheglass,butmovetheflashlightaliPleataCmeunClyouseearainbowonthefloororonthewall.Inthislesson,youwilllearnhowdropsofwaterandsunlightworktogethertoformrainbows.InLesson9,youlearnedthatwhitelightisamixtureofallthedifferentcolorsoflightthatyoucansee.Red,orange,yellow,green,blue,indigo,andviolet(ROYGBIV)canallbefoundinwhitelight.However,whenyouseewhitelight,youdonotusuallyseethosecolors.Inordertobeabletoseeallthecolorsthatmakeupwhitelight,youwouldhavetobreakwhitelightapartintoitscolorcomponents.ThatiswhatyoudidinLesson10,usingC-Spectra.UsingaPrismAprismisanotherwaytobreakwhitelightintoitscolorcomponents.AprismisatriangularpieceoftransparentglassorplasCc.Abeamofwhitelightshiningononesideoftheprismwillcomeoutontheothersidebrokenupintoitscolorcomponents.Thisfigureshowshowwhitelightenteringtheprismcomesoutintheformofarainbow.Nowyouknowthataprismseparateswhitelightintocolorsandyouknowthatthecolorslooklikearainbow.YousClldonotknowhowarainbowisformed.Whenlightentersaprism,theprismcausesthelighttobendveryslightlyortochangedirecConsjustaliPlebit.ThisbendingiscalledrefracCon.Notalllightgetsbentinthesameway.Somecolorsoflightgetbentmorethanothers.Thecoloroflightthatgetsbentthemostisblue,whilethecoloroflightthatgetsbenttheleastisred.Lookagainatthefigureoflightbeingrefractedbyaprism.Canyouseethatbluegetsbentmorethanred?Becausethedifferentcolorsoflightbenddifferently,theycomeoutoftheprismatdifferentplacesandmoveoutofitindifferentdirecCons.BecausetheymoveindifferentdirecCons,theyspreadawayfromeachother.Thatiswhyyoucanseethemseparately—thecolorsarenolongermixed
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together.Whatyouseeisanareainwhichthecoloroflightchangesgraduallyfromonetoanother.Itlooksjustlikearainbow.HowAreRealRainbowsFormed?Inarealrainbow,raindropsintheairactlikeverysmallprisms.Lightenterstheraindropsandgetsbentbythem.Eachcoloroflightisbentslightlydifferently.Somecolorsgetbentabitmore;othersgetbentabitless.However,unliketheprism,wherethelightcomesinonesideandleavesonanother,thelightenteringaraindropisreflectedbackatthefarsideoftheraindrop.Lookthedrawing.Thelightreturnstothesamesideoftheraindropitenteredfrom,andthenitexits.ThelightthatleavestheraindropmovesinmanydifferentdirecCons,andeachcolormovesinapredictabledirecCon.RefracConbreaksthelightenteringtheraindropintocolorcomponents,justlikeintheprism.TherefracConofthelightbytheraindropscausesthecolorstospreadouttocreateasemicircleofcolorinthesky,orarainbow.HaveyounoCcedthatthesunisalwaysbehindyouwhenyoulookatarainbow?Thinkaboutthemodeloflightthatyoudevelopedinclasstohelpyouexplainwhythesunmustbebehindyouforyoutoseearainbow.ASpecialPhenomenon:DoubleRainbowsPerhapsyouhaveseenadoublerainbowlikeinthisphoto.Thebrighterrainbowiscalledtheprimaryrainbow.Thefainterrainbowiscalledthesecondaryrainbow.Thesecondaryrainbowismadewhenlightisreflectedtwiceinsidetheraindrop.BecauseofthedoublereflecCon,thelightleavestheraindropatadifferentangle,soyouseethesecondaryrainbowhigherup.Ifyoulookcloselyatthepicture,youwillalsonoCcethatthecolorsofthesecondaryrainbowareintheoppositeorderofthecolorsintheprimaryrainbow.ThedropsofrainhavetobejusttherightsizetocreatetworeflecCons.Thisdoesnothappenveryolen,sodoublerainbowsareararesighttosee.Howcouldyouexplainhowrainbowsareformedtosomeonewhoisnotinyourscienceclass?Forexample,howcouldyouexplainrainbowstosomeoneathome?Orhowcouldyouexplainrainbowstosomeoneyoungerthanyou?Thinkaboutthatpersonasyouraudience,andexplainhowrainbowsareformedinawaythatpersonwouldunderstand.Youmightfindithelpfultodrawamodeltoexplain.
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Reading11.3–LunarEclipses
Ge`ngReadyEverydaythesunappearstoriseintheeast,goacrossthesky,andthensetinthewest.Everymonththemoongoesthroughitsphasesfromnewmoontofullmoonandbackagain.ItallseemssoorderedunClsomethingunexpectedhappens.OnenightthemoonrisesfullandbeauCful,butthen,withinafewminutes,itstartstochange;itgetsdarkeranddarker,unClitdisappears.Thenitturnsred.Alunareclipseoccurs.OurancestorswereinCmidatedbythesightofalunareclipse.Theycouldnotunderstandwhatwashappening—theyfearedtheendoftheworldwascoming.Theyprayedandbeggedforthemoontoreturn.Today,thankstoadvancesinscienCficknowledge,weknowwhatcausesalunareclipseandwecanenjoyitsbeauty,knowingitisanaturalphenomenonwhichdoesnotcauseanyharm.Inthisreading,youwilllearnaboutlunareclipses:why,when,andhowtheyhappen.Earth’sShadowAlunareclipsetakesplacewhenthereisafullmoon.YoulearnedbeforethatafullmoonexistswhenEarthisbetweenthesunandthemoon.Ifyoulookcloselyagainatthemodelshowingthephaseofafullmoon,youwillnoCcesomethingthatdoesnotmakesense.Ifthesun,theearth,andthemoonareallalignedandthemoonisexactlybehindEarth,howdoesthemoongetlitbythesun?Shadowsareactuallydarkareascausedbyanobjectblockinglight.Earthisanobjectthatblocksthesun’slight;thereforethereisashadowedareabehindEarth.Whydoestheearthnotalwaysblockthesun’slightfromreachingthemoon?IsthemoonnotinEarth’sshadow?ThetruthisthateveryonceinawhileEarthdoesblockthesun’slightfromreachingthemoon,andthisiswhatcausesalunareclipse.Howolendoyouthinkalunareclipseoccurs?Explain.
LunareclipsescanonlyhappenwhenthemoonisfullanditpassesbehindEarthandintoitsshadow.Ifwehaveafullmoononceeverymonth,thenweshouldalsohavealunareclipseonceeverymonth.ThisthoughtmakessenseifyouthinkofEarth’sorbitandthemoon’sorbitsasbeinginthesameplane.However,themoon’sorbitisinclinedaboutfivedegreestoEarth’sorbit.Lookatthisimagecarefully.
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ThatmeansthatmostoftheCme,duringfullmoon,themoonpassesaboveorbelowEarth’sshadowandmissesitenCrely.Noeclipsetakesplace.Onlyonceortwiceayear,onaverage,doesthemoonpassthroughsomeporConofEarth’sshadow,causinganeclipsetooccur.ImagineyouareanastronautstandingonthemoonduringatotallunareclipseandwatchingEarth.Whatwouldyousee?
Ifduringafullmoon,thesun,theearth,andthemoonareallonebehindtheother,howdoesEarthnotblockthesun’slightfromreachingthemoon?
TypesofEclipsesWhenthemoonisinEarth’sshadow,nolightfromthesunreachesit,andthus,eventhoughitisintheposiConofafullmoon,itisnotilluminatedandcannotbeseen.BecausethemoonisinconstantmoConaroundEarth,itgraduallyenterstheshadowedarea—slowlydisappearingunClitcannotbeseenatall.Thenasitkeepsmoving,itgraduallyleavestheshadowedarea,enteringtheareawheresunlightcanreachitagain—slowlyreappearing.Thesechanges—frombrightnesstodarknessandbackagainintobrightness—cantakeuptofourhours.Sincethesunisalargelightsource,itcreatesshadowsthathavefullydarkareasandparCallydarkareas.Forthisreason,theshadowofEarthisactuallycomposedoftwoareas.Lookatthemodel.TheouterpartsoftheshadowaretheparCalshadow—areaswhereEarthblockspartbutnotallofthesun’srays.Incontrast,theinnerpartoftheshadowisacompleteshadowwhereEarthblocksalldirectsunlight.
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Lookatthemodel.InwhichposiConsisthemoon(A,B,C,D,E,F,orG)fullyshadowed?InwhichposiConorposiConsisitparCallyshadowed?Explain.
Therearethreetypesoflunareclipse:1. WhentheenCremoonisinthefullyshadowedarea,itisfullydarkened.Thisiscalledatotal
lunareclipse.2. Whenonlypartofthemoonisinthefullyshadowedarea,aparCallunareclipseoccurs—partof
themoonisdarkandtheotherpartisparCallyilluminated.3. WhenthemooniscompletelyintheparCallyshadowedarea,itissCllsomewhatlighted.Itis
difficulttonoCceanychangewiththenakedeye.Weneedprofessionaltelescopestoobservethechangesinthiskindofeclipse.
Followingarephotosofthemoonindifferenttypesofeclipses.Pleasewritebeneatheachonewhetheritisatotaleclipse,aparCaleclipse,ornoeclipse.AlsowritewhichposiConofthemooninthepreviousmodel(A,B.C,D,E,F,orG)fitseachphoto.
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WhyDoestheMoonTurnRedduringaTotalLunarEclipse?Averyspecialfeatureofthetotallunareclipseisthatalerthemoonhasgonedark,itturnsred.(YoumightwanttowatchaneclipsevideoandpayspecialaPenContothat.)ThereddishcolorisaresultofindirectlighCngofthemoon.WhilethemooniscompletelywithinEarth’sshadow,indirectsunlightsCllmanagestoreachandlightit.ThissunlightpassesthroughtheEarth’satmosphere.Then,itolenchangesdirecConbybouncingoffthegasmoleculesintheair.Someofthislightreachesthemoon.TheEarth’satmosphereactslikeafilter,absorbingmanycolors.Theremaininglightiscoloredreddish-orange.Itismuchdimmerthanoriginalwhitesunlight.Thislightreachesthemoonandmakesitappearred.TheexactcolorandbrightnessofthelightreachingthemoonduringaneclipsedependsonthehowmuchdustisinEarth’satmosphere.AleravolcanicerupCon,forexample,atotaleclipseisverydarkbecausethereisalotofvolcanicashinEarth’satmosphere.DuringthetotallunareclipseofDecember1992,themoonwasnearlyinvisiblebecauseofdustfromavolcanothateruptedinthePhilippines.Inthisreading,youlearnedwhatcausesalunareclipseandwhatkindsofeclipsesthereare.Yousawthatevenanamazingevent,suchasalunareclipse,canbeexplainedbyafewscienCficideasyoualreadyknow.Thisisanexampleofthepowerofscience.Asmallnumberofideascanexplainalargevarietyofphenomena!
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Reading11.4–DiffracAon
AdiffracCongraCngisaseriesofequallyspaced,microscopic,paralleldarklineswithatransparentareabetweenthem,somethinglikewhat’sshowninFigure1onlymuch,muchsmaller.WhenlightreachesadiffracCongraCng,itisabsorbedatthedarklinesandtransmiPedatthetransparentareas.Thus,whiletherewasaconCnuousareaoflightbeforethediffracCongraCng,alerittherearethousandsofindependentmicroscopicsourcesoflight.Fromthesemicroscopicsources,lightspreadsoutforwardinalldirecCons.SeeFigure2.ScienCstssaythatthelighthasbeendiffracted.
ThediffractedlighttravelsforwardandspreadsoutunClitreachedascreen.BecausethelightfromeachmicroscopicsourceonthediffracCongraCngtraveledforwardinalldirecCons,eachpointonthescreenisilluminatedbylightfrommany,ifnotall,ofthesourcesonthediffracCongraCng.UndercertaincondiCons,raysoflightcancanceleachotherout.Imagineanobjectbeingpulledonbothsidesbysprings.Ifthespringspullequally,theobjectwillnotmove,eventhougheachspringindependentlywouldhavemovedtheobject.Somethinglikethatcanhappenwithlight,eventhoughlightdefinitelydoesnotpushorpullthescreen.ThelightcomingfromthediffracCongraCngissetupsothatexceptforafewspots,thevariouscolorsoflightcancelthemselvesoutalmosteveryplaceonthescreen.ThatiswhyyougetseveralredspotsseparatedbyblanknesswhenyoushinearedlaserthroughadiffracCongraCng.Differentcolorsoflightwillremainintactatdifferentplacesonthescreen.Thuswhenyoushinewhitelight,whichisacombinaConofmanycolorsoflight,yougetareaswhereredlightremains(butnoothercolor),areaswheregreenremains(butnoothercolor),andsoon.Inthisway,youcanseeallthedifferentcolorsthatmadeupthewhitelight.
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Reading11.5–SolarEclipses
Ge`ngReadyIfyouthinkalunareclipseisanawesomeevent,asolareclipse(aneclipseofthesun)isevenmoreawesome.Inthemiddleoftheday,theskyslowlybecomesdarkasthesundisappears,leavingonlyahalooflightinthesky.AsolareclipseoccurswhenthemoonpassesbetweenthesunandEarthsothatthesunisallorpartlyblockedbythemoon.Somepeopleconsiderasolareclipsetobeoneofthemostamazingeventsinnature.Manypeopletravellongdistancestoobserveone.TheInternetisagoodsourceforphotosandvideosofsolareclipses.Accordingtowhatyoulearnedaboutphasesofthemoon,inwhichphasedoyouthinkasolareclipsecanoccur?Explainyourideas.Ifyouarenotsure,youmightwanttogobacktoReading10.2aboutphasesofthemoon.
AsolareclipsecanonlytakeplacewhenthemoonpassesbetweentheEarthandsun.Ifthemoon’sshadowhappenstofallsomewhereonEarth’ssurface,fromthatplacepeoplecanseesomepartofthesunbeingcoveredoreclipsedbythemoon.Asyoucanseeinthemodel,asolareclipsemaybeseenfromonlyasmallareaonEarth.Onlypeopleintheregionwherethemoon’sshadowfallswillbeabletoseeit.Whydoesthemoon’sshadownotcoverallofEarth?
ThereisevidencethatthemoonisveryslowlygeengfartherandfartherfromEarth.AssumingthedistancebetweenEarthandthesundoesnotchange,howwillthisaffectthesizeoftheshadowonEarthcausedbysolareclipses?Drawamodelofasolareclipsetohelpyouexplainyouranswer.YoumaywanttorecalltheinvesCgaConyoudidwithshadowsinLesson5.
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AsolareclipsemaybetotalorparCal,dependingonhowmuchofthesunisblocked.TwotofiveparCalsolareclipsesoccureachyearonEarth.Atotaleclipseoccursonlyonceeveryeighteenmonths.EachtotaleclipseisonlyvisiblefromaverysmallareaonEarth,wherethesunisinthefullshadowofthemoon.Therefore,itisraretoseeatotaleclipseatyourhouseoryourschool.Youwouldhavetowaitabout375yearstoseetwototalsolareclipsesfromthesameplaceonEarth.UsetheInternettofindoutwhenandwherethenexttotalsolareclipsewilloccur.Usewhatyoulearnedinthereadingaboutlunareclipsestoexplainwhythereisnotasolareclipseonceeverymonthwhenanewmoonphasetakesplace.Inthisphoto,youcanseeasolareclipseinwhichthesunappearsasaverybrightringsurroundingtheoutlineofthemoon.ManysolareclipseslooklikethisbecausesomeCmesthemoonlookstoosmalltoblocktheenCresun.ThereasonwhythemoonsomeCmesappearstoosmalltocoverthesunhastodowiththemoon’sorbitaroundEarth.Thatorbitisnotperfectlyroundbutisshapedlikeaslightoval.AsthemoonorbitsEarth,itsdistancefromtheearthvaries.SomeCmesthemoonisclosertoEarth,andsomeCmesitisaliPlefarther.Therefore,themoon’ssizeseemstovary.WhenitisfartherfromEarth,itlookssmaller.IfaneclipseoccursatthatCme,itistoosmalltocompletelycoverthesun,andyoucanseethebrightringofthesunbehindthemoon.However,ifaneclipseoccurswhilethemoonisclosertoEarth,themoonappearslargeenoughtocoverthewholesun.
SummaryUsethetabletocomparealunareclipseandsolareclipse..
Lunar Eclipse Solar Eclipse
What do we see from earth?
What phase is the moon?
Relative location of earth sun and moon
How much of the earth gets to see this eclipse?
Total or partial?
How often does this occur?
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Lesson12–InfraredLightandtheWaveModelLesson12.1–Whatisleavingaremotecontrol?
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillexplorehowaremotecontrolworkstoexplorewhetherthereislightwecannotsee.
PredicAon:
Doyouthinkthataremotecontrolproduceslight?Explainwhyorwhynot.
Data
Action with remote Describe what happens when your teacher does the action with the remote
Points at you and presses the on/off button
Points at a TV or projector and presses the on/off button.
Points at a digital camera or a doc cam and presses the on/off button
Puts a piece of cardboard between the remote and the TV/projector when pressing button
Points the remote towards a mirror while pressing the button
Puts a piece of clear plastic or glass between the remote and the TV/projector
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Conclusion
1. Didyourresultssupporttheideathattheremoteisgivingofflight?Whyorwhynot?
2. Explainwhyyougotasimilarresultusingaremoteandusingaflashlight.(Hint:YoumaywanttoremembertheearlierlessonwhereyouusedvisiblelightinsteadofIR.)
3. Touseyourunderstandingevenmore,explaintosomeoneathomehowaremotecontrolworks.
4. Isanyofthelightfromtheremoteabsorbed?DesignaninvesCgaConyoucoulddotofigureouttheanswertothisquesCon.Describeordraw(orboth)howyouwouldtestwhetheranyIRlightisabsorbed.(Hint:LookbacktoLesson8toremindyourselfofhowyoudeterminedthatlightcouldbeabsorbed.)
5. MakeapredicCon.IftheremoteweregivingofflightandyoudidthedemonstraConyoudescribed,whatwouldyouexpecttohappen?Why?
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Reading12.2–InfraredLight
Ge`ngReadyYoudonothavetotouchafiretoknowitishot.Youcanseeitglowing,andyoucanfeelthatitishot.Haveyoueverfeltsomethingelsethatwashoteventhoughitwasnotglowingandyoudidnottouchit?ThinkofsomethingthatfitsthisdescripCon.Describewhattheobjectwasandhowcloseyouweretobeabletofeelthatitwashot.Asyouread,youwilllearnmoreaboutsomethingcalledinfraredlight.Infrared(IR)lightiswhyyouperceiveflamesashot!Bytheendofthisreading,youwillbeabletonameafewwaysthatpeopleusetheirunderstandingofinfraredlightoutsideofscienceclass.WhyArethereDifferentColorsofLightinaFlame?Acampfiregivesofflotsoflight.Whenyoulookatacampfire,mostoftheflameslookyellow.ButhaveyouevernoCcedthattherearedifferentcolorsinafire?Lookatthephotoofamatch.TheboPomoftheflameisblue,themiddleisreddish,andthetoplooksyellow.Inclass,youlearnedthatthewavelengthoflightdetermineswhatcoloryousee.Lightismadeofwaves,andthedistancebetweenanytwoconsecuCvewavesiscalledwavelength.Differentwavelengthsoflightcreatedifferentresponsesinyoureyes.Ifashortwavelengthofvisiblelightreachesyoureye,youreyerespondsbysendingacertainsignaltoyourbrain.Yourbrainreceivesthissignalandinterpretsitasblue.Ifalongwavelengthofvisiblelightreachesyoureye,youreyerespondsbysendingadifferentsignaltoyourbrain.Yourbraininterpretsthissignalasred.Iflighthasanevenlongerwavelengththanredlight,itdoesnotcreatearesponseinyoureye,becauseyoureyeisnotsensiCvetowavelengthsthatarelongerthanthoseofredlight.Becauseyoureyedoesnotrespondtothislight,itiscallednonvisiblelight.Nonvisiblelightwithawavelengththatislongerthanredlightiscalledinfraredlight.Whileacampfiregivesoffdifferentcolorsofvisiblelight,itgivesoffnonvisibleinfraredlight,too.Ofcourse,youcannotseeit!WhatMakesaFlameFeelHot?Eventhoughyoureyescannotdetecttheinfraredlightgivenoffbyafire,yourskincan.Wheninfraredlightreachesyourskin,yourskinabsorbsit.Thisabsorbedlightcausesthetemperatureofyourskintoincrease.Then,nervesinyourskinsendasignaltoyourbrainthatyourbraininterpretsashot.Acampfirecanfeelhotfrom10feetawaybecauseitgivesoffinfraredlightthatyourskindetects.SomeCmesobjectscangiveoffinfraredlightwithoutgivingoffanyvisiblelight.Astoveinyourhousemaylooknormaltoacamerathatdetectsonlyvisiblelight,butacamerathatdetectsinfraredlightcanshowadifferentpicture.Comparethesetwophotos.Thephotoonthelelwastakenwitharegularcamera.Youreyecannottellwhichburneronthestoveishotbecauseyoureyecannotseeinfraredlight.However,ifyouheldyourhandneareachburner,youcouldtellwhichonewashot,becauseyourskinwouldabsorbtheinfraredlightandsendasignaltoyourbrain.Thephotoontherightwastakenwithaninfraredcamera.Thecameraletsyoureyeseewhichburnerishot.HowDoesThisRelatetotheRemoteControlAcAvityWeDidinClass?Inclass,youusedaremotecontroltosendasignaltoatelevisionset.Then,youlookedattheremotecontrolwithadigitalcameraandsawsomethingflashingthatyoucouldnotseewithyoureyes.Howdidyourclassdeterminewhetherthesignalsentbytheremotecontrolwaslight?Explainwhythetestsyourclassdidhelpedyoudecidewhetherthesignalwaslight.
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Inclass,youdeterminedthatthesignalsentbyaremotecontrolwasakindoflightthatyoucannotsee.Younowknowthatthislightiscalledinfraredlight.Theinfraredlightofacampfire,amatch,andaburneronyourstovefeelshot.Whydoesitnotfeelhotwhenyoupointaremotecontrolatyourskin?Aremotecontrolgivesoffasmallamountofinfraredlight.Theamountissosmallthatitdoesnotheatyourskinenoughtosendasignaltoyourbrainthatitfeelshot.ButitisenoughlighttobedetectedbyaTV.HowDidPeopleNoAceInfraredLightintheFirstPlace?Youusedaremotecontroltostudyinfraredlightinclass,butthefirstpersontodiscoverinfraredlightdiditlongbeforeremotecontrolswereinvented.ThefirstpersontodiscoverinfraredlightwasSirFrederickWilliamHerschel.Heusedaprismtoseparatesunlightintoitscolors,justlikeyoudidinclasswithC-Spectra.Heknewthatlightcouldbeabsorbedbyobjectsandmakethemheatup.Hewantedtoknowwhethersomecolorsoflightheatedobjectsmorethanothers.ToinvesCgatethis,heplacedthermometerswithblackenedbulbsinthedifferentcolorsofthespectrumandrecordedtheirtemperature.Lookcloselyatthefollowingphotoofthermometers.Thereadingonthethermometersincreasesasyoulookfrombluetored.AlernoCcingthis,Herschelplacedathermometerjustoutsideoftheredpartofthespectrumwheretherewasnovisiblelight.Tohissurprise,hefoundthatthisareahadthehighestreadingofall!HerealizedthattheremustbesomekindoflightheaCngupthethermometerbutthathiseyescouldnotdetectit.Thislightwasinfraredlight.UsingwhatyouknowaboutcolorsandlightabsorpCon,explainwhySirFrederickWilliamHerschelusedthermometerswithblackenedbulbsinhisexperiment.
HowDoPeopleUseInfraredLight?Eventhoughyoucannotseeit,infraredlightisveryimportant.SinceHerscheldiscoveredthatsunlightcontainsinfraredlight,astronomershavebeenusingspecialIRcamerastolookatstarsandotherobjectsinthesky.Justasahotstovelooksdifferenttoaregularcamerathantoaninfraredcamera,objectsintheskylookdifferent,too.Thispictureshowsagalaxyphotographedwitharegularcamera(lel)andwithaninfraredcamera(right).Theinfraredcamerashowspartsofthegalaxythatareinvisibletotheeyebecausetheydonotgiveoffvisiblelight.SomeinfraredgogglesworkbydetecCngtheinfraredlightthatobjectsgiveoff.OtherIRgogglesuseaninfraredflashlighttobounceinfraredlightoffof
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objects.UsinganinfraredflashlightmakesobjectsappearbrightertosomeonewearingIRgoggles.IfsomeonewearingIRgogglesweretoshineaninfraredflashlightatyou,whatwouldyousee?Why?HowDoDoctorsUseInfraredLight?DoctorsalsouseinfraredlighttochecktheamountofoxygeninapaCent’sblood.Doctorsdiscoveredthatoxygen-richbloodabsorbsthemostinfraredlight,andittransmitsorscaPersvisibleredlight.Thatprobablymakessensetoyoubecauseitexplainswhyyourbloodappearsred!Ifbloodisnotoxygen-rich,ittransmitsmoreinfraredlightandlessvisibleredlight.ByshiningredandinfraredlightthroughapaCent’sfingerandmeasuringtheamountofeachtypeoflightthatcomesouttheotherside,doctorscandeterminehowmuchoxygenisintheblood.Knowinghowbloodabsorbs,transmits,orscaPerslightallowsdoctorstotestbloodwithouthavingtotakeabloodsamplefrompeople.Supposeyouwerewearingasensoronyourfinger,anditdetectedalotofinfraredlightandnotmuchvisibleredlight.Doesthismeanthatyourbloodhasalotofoxygeninit,oronlyaliPleoxygen?Why?
Inthisreading,youhavelearnedhowinfraredlightwasdiscoveredandyouhavelearnedaboutmanyusesforinfraredlight.Butinfraredlightisnottheonlykindoflightyoucannotsee.Inthenextlesson,youwilllearnaboutothertypesoflightthatyoucannotseeandhownonvisiblelightaffectsyourlifeeveryday.
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Lesson12.3–IntroducingtheWaveModel
Whatwasthepointofthelastlesson?
Whatwillwedo?WewilldosomeacCviCestolearnmoreaboutthedifferencesbetweenvisibleandnonvisiblelight.Thenwewillreviseourmodeloflighttoaccountfornewevidence.
ProcedureAsyourteacherchangesthepitchcomingfromthecomputer,raiseyourhandwhenyoucannolongerhearthesound.Dideveryone’shandgoupatthesameCme?Why?
Aretheresoundsthatyoucannothear?Explain.
Describethewavemodelpresentedinclass.
Basedonyourunderstandingofthewavemodel,explainwhyyoureyecouldnotdetectthelightcomingfromtheremotebutthecameracould.
Conclusion
1. Accordingtothewavemodeloflight,whatmakesbluelightdifferentfromgreenlight?
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2. Compareredlightwiththeinfraredlightthatcomesfromtheremote.(Rememberthatcomparemeanstodescribewhatissimilarandwhatisdifferent.)
3. Describehowvisiblelightisdifferentfromnonvisiblelight.
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Lesson13–UltravioletLightandNonvisibleLightImageryLesson13.1–InvesAgaAngUVlight
Whatwasthepointofthelastlesson?
Whatwillwedo?WewillinvesCgateanothertypeoflightthatoureyescannotdetect:ultravioletlight.
Data
SunscreensaredesignedtoprotectyourskinfromUVlight.Predictwhatyouwillgetintheexperiment,thenmakemeasurementsandcomparetheresultswithyourpredicCons.
1. IsthepercentofUVlightblockedbythesunscreengreaterorlessthanthepercentofvisiblelightblocked?Isthissimilartowhatyoupredicted?
2. WhywouldcompanieswanttheirsunscreentoabsorbnearlyalloftheUVlightthathitsitbutnoneofthevisiblelight?
3. Whatwouldsunscreenlooklikeifitabsorbedallofthevisiblelightthathitit?
Conclusion
1. Howdoesthesunscreenworksimilartothecolorfiltersthatyouhaveusedinpreviouslessons?
Ultralight(UV) light Visable Light
Reading without sunscreen
Prediction of how much light will be blocked by the sunscreen
Actual reading with the sunscreen
Actual percent of light blocked by sunscreen
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Reading13.2–Non-visiblelight
Ge`ngReadyImaginethatyourremotecontrolusedvisibleinsteadofnonvisiblelight.Wouldthisbeagoodidea?Why?
Today,youwillreadmoreaboutnonvisiblelight.Youprobablydonotrealizeit,butnonvisiblelightplaysanimportantroleinyourlifeeverysingleday!Bytheendofthisreading,youshouldbeabletodescribehowradios,cellphones,microwaveovens,orx-raysmachinesusenonvisiblelight.Byexplainingevenoneofthosetosomeonewhoisnotinyourclass,youcanhelpthemunderstandsomethinginteresCng.AndyouwillhelpyourselfunderstandnonvisiblelightevenbePerbyexplainingittosomeoneelse!HowDoesLightTravel?Inclass,youlearnedthatlighttravelsinasimilarwaytowavesmovingacrosswater.Yousawthatwhenwaterwavesmoveinapanofwater,theripplescanbespacedveryclosetogether(havingasmallwavelength)orveryfarapart(havingalargewavelength).Lightcanalsotravelwithawavelengththatisverysmallorverylarge.Butyoureyescanonlydetectlightifitswavelengthiswithinacertainrange.Humaneyescanonlydetectlightwithawavelengthbetween400and700nanometers.AnanometerisonebillionCmessmallerthanameter.Howsmallisthat?Asinglehaironyourheadisabout80,000nanometerswide.ThismeansthatthewavelengthofvisiblelightismorethanahundredCmessmallerthanthewidthofyourhair!Trytothinkaboutthisbeforeyoukeepreading.YoumayneedtoreadthroughthisdescripConagaintoreallyunderstandhowsmalltherangeoflightisthatyoureyecansee.Itisamazing!HowMuchNonvisibleLightIsThere?InfraredlighthasawavelengththatisaliPlegreaterthan700nanometers.Therefore,youcannotseeit.UltravioletlighthasawavelengththatisaliPlelessthan400nanometers.
Wavelength<400nanometers=nonvisible(UV)Wavelengthbetween400–700nanometers=visibleWavelength>700nanometers=nonvisible(IR)
Eventhoughthewavelengthsofinfraredandultravioletlightcanbeclosetothewavelengthsthatyoureyescandetect,youreyessCllcannotdetectthem.NonvisiblelightcanhaveawavelengthmillionsofCmessmallerthanahumanhairorbiggerthantheenCreEarth!Becausenonvisiblelightcanhavesomanydifferentwavelengths,scienCstscreatedasystemtokeeptrackofthem.Inthissystem,scienCstshavedividedallofthepossiblewavelengthsintocategories.Youhaveprobablyheardofsomeofthecategories,becausemanyofthedevicesyouuseeverydayoperateusingnonvisiblelight.Thelongestwavelengthsoflightarecalledradiowaves.Findthemonthefollowingchart.Theshortestwavelengthsarecalledgammawaves.Findthemonthechart.Inbetweenaremicrowaves,x-rays,infraredlight,ultravioletlight,andvisiblelight.
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Thereisalotoflightintheworld.Someofitisvisible.Someofitisnonvisible.Doyouthinkthatmostofthelightthathitsyoureyeislightthatyoucanseeornot?Explainyouranswer.(Thepreviouschartshouldhelpyou.)Althoughyoucannotseenonvisiblelight,yourbodycandetectitinotherways.Infraredlightmakesyoufeelwarm.Whenyougooutintothesunlight,yourskinabsorbsinfraredlight.Youcannotseethatlight,butyoucanfeelitaswarmth.Yourskinalsoabsorbsvisiblelightandultravioletlightwhenyouareinthesun.Inclass,youlearnedthattheultravioletlightfromthesuncangiveyousunburn.Eventhoughyoucannotseeit,nonvisiblelightfromthesunisveryimportantformakingEarthawarm,comfortableplacetolive.SomeWaysWeUseNonvisibleLightManyofthedevicesthatyouuseeverydayrelyonlightthatyoureyescannotdetect.Doyoueverlistentoaradio?Radiosaredesignedtodetectradiowaves.RadiowavesareatypeofnonvisiblewavegivenoffbyanantennaataradiostaCon.Justlikeyoureyedetectslightandsendsasignaltoyourbrain,aradioantennadetectsradiowavesandsendsasignaltoyourspeakers.Theradiospeakersthenproduceasoundthatyoucanhear.Radiowaveshavethelongestwavelengthofanykindoflight.Theirwavelengthcanbemanykilometerslong.Evenbeforereadingtoday,youprobablyknowsomethingaboutmicrowaves.Amicrowaveovenusesmicrowavelightwaves.Lookbackatthechartoftypesoflighttoseehowmicrowavelightcomparestoothertypes.Yearsago,scienCstsdiscoveredthatwatereasilyabsorbsmicrowavelight.Whenmicrowavesareabsorbedbywater,thetemperatureofthewaterincreases.Thisisusefultoknowbecausenearlyallofthefoodyoueathassomewaterinit.Whenyouputyourfoodinamicrowaveoven,thewaterinthatfoodabsorbsnonvisiblemicrowavelightandheatsup.Theheatedwaterthenheatsthefoodaroundit,whichmakesyourfoodhot.Lookatthisphoto.Whensomeonetakesfoodoutofthemicrowaveoven,thefoodishotbutthecontainerthefoodisinmaysCllbequitecool.WhydoyouthinkamicrowaveovencanheatfoodwithoutheaCngthebowl?Microwavesarealsousefulforsendingsignals.Hereissomethingyouprobablydidnotknow:Whenyoutalkonacellphone,yourphoneisactuallysendingandreceivingmicrowaves!UsingX-raystoSeethroughThingsWhilelongwavelengthsoflightareusefulforsendingsignalsoverlargedistances,shorterwavelengthsoflightareusefulforotherpurposes.X-raysandgammaraysmakeitpossibleforpeopletoseethroughthings.Haveyoueverbrokenabone?Ifso,adoctorprobablyusedanx-raymachinetotakeapictureofyourbones.Usinganx-raylightsource,doctorssendx-raysthroughyourbodytowardspecialphotographicfilmontheotherside.Whenx-raysstrikethefilm,theyareabsorbedandturnthefilmblack.Bonesshowupwhiteonanx-raybecausethesearetheareasofthefilmwhereveryfewx-raysareabsorbedbythefilm.Ifapersonwearsametalringwhiletheyhaveanx-ray,theringwillappearbrightwhite.Thephotoontherightshowsthis.Nowthatyouunderstandmoreaboutlight,absorpCon,andtransmission,youcanprobablyexplainthis.Doesmetalmostlytransmitorabsorbx-rays?Explainyouranswer.
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X-raysattheAirportX-raysareusefulforairportsecurityworkers,whocheckpassengers’luggagefordangerousmaterials.Byusingx-rays,theycanlookinsideluggagewithoutopeningit.Whenyouflyonaplane,workersshinex-raysonyourluggage.Thepicturetotherightshowswhattheysee.YoumaynoCcethattheobjectsinthispictureshowupasdifferentcolors.Anairportx-raymachineworksaliPledifferentlythanadoctor’sx-raymachine.Theobjectsdonotlooklikebones,dothey?Allx-rayshaveawavelengthofaboutasinglenanometer,buttheycanbealiPlebiggerorsmaller.Amedicalx-raymachineonlyusesonewavelengthofx-rays,butanairportmachineusesmanydifferentwavelengths.Sincedifferentmaterialsabsorbdifferentwavelengthsofx-rays,workerscantellwhatkindsofmaterialsareinsideofbags.Thishelpsthemtoknowwhethersomethingismadeofmetal,rubber,orcloth.Isthatnotamazing?Theyneverevenhavetoopenyourbagtoknowwhatisinside!However,x-rayscanbedamagingifapersonisexposedtothemtooolen.Medicalpeoplewearmetalapronsmadeoflead,ortheystandbehindaleadwallwhentheytakex-rays.Whywouldadark-coloredclothnotworkaswellaslead?Inthisunit,youhavelearnedalotaboutlight.Youlearnedthatlightmustenteryoureyeinorderforyoutosee.Youlearnedthattherearemanywavelengthsoflightthatyoureyecannotdetect.Eventhoughyoucannotseeit,youusenonvisiblelighteveryday.Itmakesyouwarm,helpsyoucommunicate,heatsyourfood,andcanevenhelpyouseethroughthings!
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Lesson13.3–HowwouldtheworldlookifpeoplecouldseeUVandIRlight?
Whatwasthepointofthelastlesson?
Whatwillwedo?Wewillseehowtheworldmightlookifoureyescoulddetectnonvisibleultravioletorinfraredlight.
Conclusion
1. ImagestakenwithIRandUVcamerassomeCmesappearcolorful.HowdoyouknowthatthecolorinthesepicturesmusthavebeenaddedarCficially?
2. Basedonthepicturesyouhaveseeninclass,whymightUVandIRimagerybeusefulforastronomers?
3. WhymightUVandIRimagerybeusefulforfirefighters?
4. Duringapoweroutage,thelightsinacitycanallgoout.IfyouhadachoiceofusingeitheraUVorIRcameratohelpyousee,whichonewouldyouchoose?Explainyourchoice.