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IntroductoryPhysics PHYS101 Dr RichardH.CyburtOfficeHours TRF9:30-11:00am AssistantProfessorofPhysics F12:30-2:00pm Myoffice:402cintheScienceBuilding Myphone:(304)384-6006 Meetingsmayalsobearrangedatothertimes, byappointment Myemail:[email protected] Inpersonoremailisthebestwaytogetahold Checkmyscheduleonmyofficedoor. ofme. PHYS101 PHYS101:IntroductoryPhysics 400 Lecture:8:00-9:15am,TRScienceBuilding Lab1:3:00-4:50pm,FScienceBuilding304 Lab2:1:30-3:20pm,MScienceBuilding304 Lab3:3:30-5:20pm,MScienceBuilding304 Lab20:6:00-7:50pm,MScienceBuilding304 PHYS101 MasteringPhysicsOnline GotoHYPERLINK"http://www.masteringphysics.com."www.masteringphysics.com. ◦ UnderRegisterNow,selectStudent. ◦ Confirmyouhavetheinformationneeded,thenselectOK!Registernow. RCYBURTPHYS101),andchooseContinue. ◦ Enteryourinstructor’sCourseID( ◦ EnteryourexistingPearsonaccountusername andpassword andselectSignin. ◦ YouhaveanaccountifyouhaveeverusedaPearsonMyLab &Masteringproduct,suchasMyMathLab,MyITLab,MySpanishLab,or MasteringChemistry. ◦ Ifyoudon’thaveanaccount,select Create andcompletetherequiredfields. ◦ Selectanaccessoption. ◦ Entertheaccesscodethatcamewithyourtextbookorwaspurchasedseparatelyfromthebookstore. PHYS101 Midterm2 Therewillbeabonusassignment,basedonyourexam ◦ ◦ ◦ ◦ Willearnyouextrapointsonyourexam Itwillbeonlineasahomework Youmustdobetteronthisassignment,thanyourtesttogetbonuspoints Bonus=30%x(Homework– Midterm) BonusHomeworkisOnline,dueOct17,12:59pm (justbeforelabsstartfortheday) AfterBonusHWisdue,therewillbeasignoutsheetinmyoffice ◦ Youmustsigntogetyourexam PHYS101 IntroductoryPhysics PHYS101 DouglasAdams Hitchhiker’sGuidetotheGalaxy PHYS101 You’realreadyknowphysics! Youjustdon’tnecessarilyknowtheterminologyand languageweuse!!! PhysicsofNASCAR PhysicsofAngerBirds PHYS101 Inclass!! PHYS101 Thislecturewillhelpyouunderstand: Impulse Momentum&theImpulse-MomentumTheorem SolvingImpulse&MomentumProblems PHYS101 Section9.1Impulse ©2015PearsonEducation,Inc. Impulse Acollision isashort-durationinteractionbetweentwoobjects. Duringacollision,ittakestimetocompresstheobject,andittakestimeforthe objecttore-expand. Thedurationofacollisiondependsonthematerials. ©2015PearsonEducation,Inc. Impulse Whenkickingasoccer ball,theamountbywhich theballiscompressedisa measureofthemagnitude oftheforcethefootexerts ontheball. Theforceisappliedonly whiletheballisincontact withthefoot. Theimpulseforce isalarge forceexertedduringashort intervaloftime. ©2015PearsonEducation,Inc. Impulse Theeffectofanimpulsive forceisproportionalto theareaunderthe force-versus-timecurve. Theareaiscalledthe impulse Joftheforce. ©2015PearsonEducation,Inc. QuickCheck9.6 Two1.0kgstationarycueballsarestruckbycuesticks.Thecuesexerttheforces shown.Whichballhasthegreaterfinalspeed? 10 N ◦ Ball1 ◦ Ball2 ◦ Bothballshavethesamefinalspeed. ©2015PearsonEducation,Inc. QuickCheck9.6 Two1.0kgstationarycueballsarestruckbycuesticks.Thecuesexerttheforces shown.Whichballhasthegreaterfinalspeed? ◦ Ball1 ◦ Ball2 ◦ Bothballshavethesamefinalspeed. ©2015PearsonEducation,Inc. Impulse Itisusefultothinkofthe collisionintermsofan average forceFavg. Favg isdefinedastheconstant forcethathasthesame durationΔt andthesame areaundertheforcecurve astherealforce. ©2015PearsonEducation,Inc. Impulse ImpulsehasunitsofN× s,butN× sareequivalentto kg× m/s. Thelatterarethepreferredunitsforimpulse. Theimpulseisavector quantity,pointinginthedirectionoftheaverageforce vector: ©2015PearsonEducation,Inc. Example9.1Findingtheimpulseona bouncingball Arubberballexperiencesthe forceshowninFIGURE9.4 asitbouncesoffthefloor. a. Whatistheimpulseonthe ball? b. Whatistheaverageforce ontheball? ©2015PearsonEducation,Inc. Example9.1Findingtheimpulseona bouncingball(cont.) PREPARE Theimpulseisthe areaundertheforcecurve. Heretheshapeofthegraph istriangular,sowe’llneed tousethefactthatthearea ofatriangleis ´ height´ base. ©2015PearsonEducation,Inc. Example9.1Findingtheimpulseona bouncingball(cont.) SOLVE a.Theimpulseis b. FromEquation9.1, J =Favg ∆t,wecanfind theaverageforcethat wouldgivethissameimpulse: ©2015PearsonEducation,Inc. Example9.1Findingtheimpulseona bouncingball(cont.) ASSESS Inthisparticular example,theaveragevalue oftheforceishalfthe maximumvalue.Thisisnot surprisingforatriangular forcebecausetheareaofa triangleishalf thebase timestheheight. ©2015PearsonEducation,Inc. Section9.2Momentum& theImpulse-Momentum Theorem ©2015PearsonEducation,Inc. MomentumandtheImpulseMomentumTheorem Intuitivelyweknowthat givingakicktoaheavy objectwillchangeits velocitymuchlessthan givingthesamekicktoa lightobject. Wecancalculatehowthe finalvelocityisrelatedto theinitialvelocity. ©2015PearsonEducation,Inc. MomentumandtheImpulseMomentumTheorem FromNewton’ssecondlaw,theaverageaccelerationofanobjectduringthe timetheforceisbeingappliedis Theaverageaccelerationisrelatedtothechangeinthevelocityby Wecombinethosetwoequationstofind ©2015PearsonEducation,Inc. MomentumandtheImpulseMomentumTheorem Wecanrearrangethatequationintermsofimpulse: Momentum istheproductoftheobject’smassandvelocity.Ithasunitsofkg× m/s. ©2015PearsonEducation,Inc. MomentumandtheImpulseMomentumTheorem Momentumisavector quantity thatpointsinthesamedirection asthevelocityvector: Themagnitude ofanobject’s momentumissimplythe productoftheobject’smass andspeed. ©2015PearsonEducation,Inc. MomentumandtheImpulseMomentumTheorem ©2015PearsonEducation,Inc. TheImpulse-MomentumTheorem Impulseandmomentumarerelatedas: Theimpulse-momentumtheorem statesthatanimpulsedeliveredtoan objectcausestheobject’smomentumtochange. Impulsecanbewrittenintermsofitsx- andy-components: ©2015PearsonEducation,Inc. TheImpulse-MomentumTheorem ©2015PearsonEducation,Inc. QuickCheck9.2 A2.0kgobjectmovingtotherightwithspeed0.50m/sexperiencestheforce shown.Whataretheobject’sspeedanddirectionaftertheforceends? ◦ ◦ ◦ ◦ ◦ 0.50m/sleft Atrest 0.50m/sright 1.0m/sright 2.0m/sright ©2015PearsonEducation,Inc. QuickCheck9.2 A2.0kgobjectmovingtotherightwithspeed0.50m/sexperiencestheforce shown.Whataretheobject’sspeedanddirectionaftertheforceends? ◦ ◦ ◦ ◦ ◦ 0.50m/sleft Atrest 0.50m/sright 1.0m/sright 2.0m/sright Dpx = Jx or pfx = pix + Jx ©2015PearsonEducation,Inc. QuickCheck9.4 Aforcepushesthecartfor1s,startingfromrest.Toachievethesamespeed withaforcehalfasbig,theforcewouldneedtopushfor 1 4 1 2 ◦ s ◦ s ◦ 1s ◦ 2s ◦ 4s ©2015PearsonEducation,Inc. QuickCheck 9.4 Aforcepushesthecartfor1s,startingfromrest.Toachievethesame speedwithaforcehalfasbig,theforcewouldneedtopushfor 1 A. 4 s B. 1 s 2 C. 1s D. 2s E. 4s ©2015PearsonEducation,Inc. Example9.2Calculatingthechangein momentum Aballofmassm =0.25kg rollingtotherightat1.3m/s strikesawallandrebounds totheleftat1.1m/s. Whatisthechangeintheball’s momentum? Whatistheimpulsedeliveredtoitby thewall? ©2015PearsonEducation,Inc. Example9.2Calculatingthechangein momentum(cont.) [InsertFigure9.8(repeated)] PREPARE Avisualoverviewof theballbouncingisshownin FIGURE9.8.Thisisanewkind ofvisualoverview,oneinwhich weshowthesituation“before” and“after”theinteraction.We’ll havemoretosayaboutbeforeand-afterpicturesinthenext section.Theballismovingalong thex-axis,sowe’llwritethemomentumincomponentform,asinEquation9.7. Thechangeinmomentumisthenthedifferencebetweenthefinalandinitial valuesofthemomentum.Bytheimpulse-momentumtheorem,theimpulseis equaltothischangeinmomentum. ©2015PearsonEducation,Inc. Example9.2Calculatingthechangein momentum(cont.) [InsertFigure9.8(repeated)] SOLVE The x-component oftheinitialmomentumis They-componentofthe momentumiszeroboth beforeandafterthebounce. Aftertheballrebounds, thex-componentis ©2015PearsonEducation,Inc. Example9.2Calculatingthechangein momentum(cont.) [InsertFigure9.8(repeated)] Itisparticularlyimportant tonoticethatthex-component ofthemomentum,likethat ofthevelocity,isnegative. Thisindicatesthattheball ismovingtotheleft.The changeinmomentumis ©2015PearsonEducation,Inc. Example9.2Calculatingthechangein momentum(cont.) Bytheimpulse-momentum theorem,theimpulse deliveredtotheballby thewallisequaltothis change,so ASSESS Theimpulseisnegative, indicatingthattheforcecausingtheimpulseispointingtotheleft,whichmakes sense. ©2015PearsonEducation,Inc. TheImpulse-MomentumTheorem Theimpulse-momentumtheoremtellsus Theaverageforceneededtostopanobjectisinverselyproportional tothe durationofthecollision. Ifthedurationofthecollisioncanbeincreased,theforceoftheimpactwillbe decreased. ©2015PearsonEducation,Inc. TheImpulse-MomentumTheorem Thespinesofahedgehogobviouslyhelpprotectitfrompredators.Buttheyserve anotherfunctionaswell.Ifahedgehogfallsfromatree—anotuncommon occurrence—itsimplyrollsitselfintoaballbeforeitlands.Itsthickspinesthen cushiontheblowbyincreasingthetimeittakesfortheanimaltocometorest. Indeed,hedgehogshavebeenobservedtofalloutoftreesonpurposetogettothe ground! ©2015PearsonEducation,Inc. ExampleProblem A0.5kghockeypuckslidestotherightat10m/s.Itishitwithahockeystickthat exertstheforceshown.Whatisitsapproximatefinalspeed? ©2015PearsonEducation,Inc. QuickCheck9.5 Alightplasticcartandaheavysteelcartarebothpushedwiththesameforce for1.0s,startingfromrest.Aftertheforceisremoved,the momentumofthelight plasticcartis________that oftheheavysteelcart. ◦ ◦ ◦ ◦ Greaterthan Equalto Lessthan Can’tsay.Itdependsonhowbigtheforceis. ©2015PearsonEducation,Inc. QuickCheck 9.5 Alightplasticcartandaheavysteelcartarebothpushedwiththesameforce for1.0s,startingfromrest.Aftertheforceisremoved,the momentumofthelight plasticcartis________that oftheheavysteelcart. ◦ ◦ ◦ ◦ Greaterthan Equalto Lessthan Can’tsay.Itdependsonhowbigtheforceis. Same force, same time Þ same impulse Same impulse Þ same change of momentum ©2015PearsonEducation,Inc. TryItYourself:WaterBalloonCatch Ifyou’veevertriedtocatchawaterballoon,youmayhavelearnedthehardway nottocatchitwithyourarmsrigidlyextended. Thebriefcollisiontimeimpliesalarge,balloon-burstingforce. Abetterwaytocatchawaterballoonistopullyourarmsintowardyourbodyas youcatchit,lengtheningthecollisiontimeandhencereducingtheforceonthe balloon. ©2015PearsonEducation,Inc. TheImpulse-MomentumTheorem Text:p.259 ©2015PearsonEducation,Inc. TotalMomentum Ifthereisa system ofparticles moving,thenthesystemasa wholehasanoverallmomentum. The totalmomentum ofasystem ofparticlesisthevectorsumof themomentaoftheindividual particles: ©2015PearsonEducation,Inc. Section9.3Solving Impulseand MomentumProblems ©2015PearsonEducation,Inc. SolvingImpulseandMomentum Problems Text:p.260 ©2015PearsonEducation,Inc. Example9.3Forceinhittingabaseball A150gbaseballisthrownwitha speedof20m/s. Itishitstraightbacktowardthepitcherata speedof40m/s. Theimpulsiveforceofthebatontheballhasthe shapeshowninFIGURE9.10. Whatisthemaximum forceFmax thatthe batexertsontheball? Whatistheaverage forcethatthebatexerts ontheball? ©2015PearsonEducation,Inc. Example9.3Forceinhittingabaseball (cont.) PREPARE Wecanmodeltheinteractionasacollision. FIGURE9.11isabefore-and-aftervisualoverview inwhichthestepsfromTacticsBox9.1areexplicitly noted. BecauseFx ispositive(aforcetotheright),weknowtheballwasinitiallymoving towardtheleftandishitbacktowardtheright. Thusweconvertedthestatementsaboutspeeds intoinformationabout velocities,with(vx)i negative. ©2015PearsonEducation,Inc. Example9.3Forceinhittingabaseball (cont.) SOLVE Inthelastseveralchapters we’vestartedthemathematical solutionwithNewton’ssecond law.Nowwewanttousethe impulse-momentumtheorem: Weknowthevelocitiesbefore andafterthecollision,sowe canfindthechangeintheball’s momentum: ©2015PearsonEducation,Inc. Example9.3Forceinhittingabaseball (cont.) Theforcecurveisatrianglewith heightFmax andwidth0.60ms. AsinExample9.1,thearea underthecurveis Accordingtothe impulse-momentumtheorem, ∆px =Jx,sowehave ©2015PearsonEducation,Inc. Example9.3Forceinhittingabaseball (cont.) Thusthemaximum forceis UsingEquation9.1,wefindthatthe average force,whichdependsonthe collisionduration∆t = 6.0´ 10–4 s, hasthesmallervalue: ASSESS Fmax isalargeforce,butquitetypicaloftheimpulsiveforcesduringcollisions. ©2015PearsonEducation,Inc. TheImpulseApproximation Theimpulseapproximation statesthatwecanignorethesmallforcesthatact during thebrieftimeoftheimpulsiveforce. Weconsideronlythemomenta andvelocitiesimmediatelybeforeand immediatelyafterthecollisions. ©2015PearsonEducation,Inc. QuickCheck9.1 Thecart’schangeof momentumDpx is ◦ ◦ ◦ ◦ ◦ –20kgm/s –10kgm/s 0kgm/s 10kgm/s 30kgm/s ©2015PearsonEducation,Inc. QuickCheck9.1 Thecart’schangeof momentumDpx is ◦ ◦ ◦ ◦ ◦ –20kgm/s –10kgm/s 0kgm/s 10kgm/s 30kgm/s Dpx = 10 kg m/s - (-20 kg m/s) = 30 kg m/s Negative initial momentum because motion is to the left and vx < 0. ©2015PearsonEducation,Inc. ExampleProblem A500kgrocketslediscoastingat20m/s. Itthenturnsonitsrocketenginesfor5.0s,withathrustof1000N. Whatisitsfinalspeed? ©2015PearsonEducation,Inc. ExampleProblem Acartravelingat20m/scrashesintoabridgeabutment. Estimatetheforceonthedriver(m=60kg)ifthedriverisstoppedby A. A20-m-longrowofwater-filledbarrels. B. Thecrumplezoneofhercar(~1m).Assumeaconstantacceleration. ©2015PearsonEducation,Inc.
