Problem of the Month: Between the Lines - Inside Mathematics

ProblemoftheMonth BetweentheLines©NoyceFoundation2015.ThisworkislicensedunderaCreativeCommonsAttribution-NonCommercial-NoDerivatives3.0UnportedLicense(http://creativecommons.org/licenses/by-nc-nd/3.0/deed.en_US).

ProblemoftheMonth:BetweentheLines

TheProblemsoftheMonth(POM)areusedinavarietyofwaystopromoteproblemsolvingandtofosterthefirststandardofmathematicalpracticefromtheCommonCoreStateStandards:“Makesenseofproblemsandpersevereinsolvingthem.”ThePOMmaybeusedbyateachertopromoteproblemsolvingandtoaddressthedifferentiatedneedsofherstudents.AdepartmentorgradelevelmayengagetheirstudentsinaPOMtoshowcaseproblemsolvingasakeyaspectofdoingmathematics.POMscanalsobeusedschoolwidetopromoteaproblem-solvingthemeataschool.Thegoalisforallstudentstohavetheexperienceofattackingandsolvingnon-routineproblemsanddevelopingtheirmathematicalreasoningskills.Althoughobtainingandjustifyingsolutionstotheproblemsistheobjective,theprocessoflearningtoproblem-solveisevenmoreimportant.TheProblemoftheMonthisstructuredtoprovidereasonabletasksforallstudentsinaschool.ThePOMisdesignedwithashallowfloorandahighceiling,sothatallstudentscanproductivelyengage,struggle,andpersevere.ThePrimaryVersionisdesignedtobeaccessibletoallstudentsandespeciallyasthekeychallengeforgradesK–1.LevelAwillbechallengingformostsecondandthirdgraders.LevelBmaybethelimitofwherefourthandfifth-gradestudentshavesuccessandunderstanding.LevelCmaystretchsixthandseventh-gradestudents.LevelDmaychallengemosteighthandninth-gradestudents,andLevelEshouldbechallengingformosthighschoolstudents.Thesegrade-levelexpectationsarejustestimatesandshouldnotbeusedasanabsoluteminimumexpectationormaximumlimitationforstudents.Problemsolvingisalearnedskill,andstudentsmayneedmanyexperiencestodeveloptheirreasoningskills,approaches,strategies,andtheperseverancetobesuccessful.TheProblemoftheMonthbuildsonsequentiallevelsofunderstanding.AllstudentsshouldexperienceLevelAandthenmovethroughthetasksinordertogoasdeeplyastheycanintotheproblem.TherewillbethosestudentswhowillnothaveaccessintoevenLevelA.Educatorsshouldfeelfreetomodifythetasktoallowaccessatsomelevel.OverviewIntheProblemoftheMonthBetweentheLines,studentsusepolygonstosolveproblemsinvolvingarea.ThemathematicaltopicsthatunderliethisPOMaretheattributesoflinearmeasurement,squaremeasurement,two-dimensionalgeometry,area,thePythagoreanTheorem,andgeometricjustification.Theproblemasksstudentstoexplorepolygonsandtherelationshipoftheirareasinvariousproblemsituations.InthefirstlevelofthePOM,studentsarepresentedwithanoutlineofanirregularly-shapedanimalandpatternblocks.Thestudentsarethenaskedtocover(tile)theinteriorregionswithpatternblocks.Thesecondpartofthetaskinvolvesthesamefigure,onlyflippedhorizontally.Theyareaskedtocoverthe

ProblemoftheMonth BetweentheLines©NoyceFoundation2015.ThisworkislicensedunderaCreativeCommonsAttribution-NonCommercial-NoDerivatives3.0UnportedLicense(http://creativecommons.org/licenses/by-nc-nd/3.0/deed.en_US).

regionagainusingadifferentarrangement.InLevelB,studentsarepresentedwithasetofisoscelestrapezoidsthatarescaledlargerbyalinearfactor.Thestudentsareaskedtocovertheareaofeachtrapezoidwithunittrapezoids.Theyarealsoaskedtoexaminethegrowthinthesizeoftheareaandtofindapattern.InLevelC,studentsaregivenagroupoftrianglesdrawnondotpaper.Thestudentsareaskedtofindtheareaofeachofthetriangles.InLevelD,thestudentsexplorealogodesignthatinvolvesthreesquaresofdifferingsizespositionedonthepaper.Thestudentsgrapplewithfindingarelationshipamongthethreesquares.InLevelE,studentsareshownhowthreetrianglesareconstructedinastepwiseprocess.Theyareaskedtodeterminearelationshipbetweenthethreetriangles.Studentsareaskedtojustifytheirsolutions.MathematicalConceptsInthisPOM,studentsexploretherelationshipoftheareaofpolygons.Studentsusepolygonsinspatialvisualization,tessellationandareaproblems.LaterinthePOM,studentswilluseknowledgeofarea,geometricpropertiesandthePythagoreanTheorem,aswellasreasoningandjustification,todetermineandverifyproblemsinvolvinggeometryandmeasurement.

Problem of the Month Between the Lines 1 ©NoyceFoundation2015.ThisworkislicensedunderaCreativeCommonsAttribution-NonCommercial-NoDerivatives3.0UnportedLicense(http://creativecommons.org/licenses/by-nc-nd/3.0/deed.en_US).

ProblemoftheMonth

BetweentheLines LevelABrianhascreatedanewanimalusingpatternblocks.Hetracedtheoutsideofhisanimal.Below is the outline of his animal.Whichpatternblocksdidheuse tomakehis animal?Showhowhemadehisanimal.

Canyoumakethesameanimalagainusingsomedifferentpatternblocks?Nowitisfacingintheotherdirection,show a different way to make theanimalwithpatternblocks.

LevelBStartwithanisoscelestrapezoid,thesamesizeasthepatternblock.1.Useonlythepatternblocktrapezoidstotileandcoverthetrapezoiddrawnbelow.Howmanypatternblocktrapezoidsdoesit taketotiletheabovetrapezoid?Howaretheblocksarranged?Istheremorethanonearrangementyoucanmake?2.Useonlythepatternblocktrapezoidstotileandcoverthetrapezoiddrawnbelow.Howmanypatternblocktrapezoidsdoesittaketotiletheabovetrapezoid?Howaretheblocksarranged?Istheremorethanonearrangementyoucanmake?

3.Usethepatternblocktrapezoidstotileandcoverthetrapezoiddrawnbelow:Howmanypatternblocktrapezoidsdoesittaketotiletheabovetrapezoid?Howaretheblocksarranged?Istheremorethanonearrangementyoucanmake?4.Usethepatternblocktrapezoidstotileandcoverthetrapezoiddrawnbelow.Howmanypatternblocktrapezoidsdoesittaketotiletheabovetrapezoid?Howaretheblocksarranged?Istheremorethanonearrangementyoucanmake?Examine the tiling arrangements youmade in figures 1 – 4.What patterns can you see?Howistheareagrowing?Explainwhythepatternsmakesense.

LevelCFindtheareaofthesetriangles.

Explainyourreasoning.

LevelDAhightechcompanyhasdesignedanewcompanylogousingthreesquares.Whataretherelationshipsbetweenthesizesofthethreesquares?Explainyourfindings.

LevelEGivenanytwosquaresAandB-theycanbearrangedtoshareonevertexthatformsananglebetween0ºand180º.A third square C can be foundwhich has a side length equal to the distance between adifferentvertexofsquareAandadifferentvertexofsquareB(shownbelow),thusformingatriangularregionbetweenthethreesquares(coloredblack).

A line segment can be drawn between the vertices of the squares, forming three moretriangles(eachshadedwhite).What are the relationships between the threewhite triangles? What is the relationshipbetween the black triangle and the threewhite triangles? Explain and justifywhat youknow.

ProblemoftheMonth

BetweentheLines

PrimaryVersionLevelAMaterials:Asetofpatternblocksforeachpairorapageoftheprintedpatternblockscutout,acopyoftheoutlineoftheanimalfacingbothdirections,gluestick,pencilandpaper.Discussion on the rug: Teacher shows the pattern blocks. “Here are the pattern blocks. What do you notice about them?” Teachercontinuestoaskchildrentonoticethat theyaredifferentcolors, shapes, sizesanddifferent length. The teacherencouragesthestudentstoplaywiththemandmakedifferentthings. Insmallgroups: Eachgrouphasasetofpatternblocks/ 1. Which of these blocks do we know? What is its name? How many sides does it have? How many corners does it have? Introducethenameofblocksoncethestudentsdemonstrateknowledgeoftheirattributes. 2. A boy named Brian made a picture of a new animal using pattern blocks. Here is the outline of the animal. Can you make Brian’s animal using pattern blocks? Show me how you made it. 3. There is a second picture of the animal. It is looking in a different direction. Can you make Brian’s animal using pattern blocks? Show me how you made it. At the end of the investigation have students draw either a picture, paste a picture ordictatearesponsetorepresenttheirsolution.

Level A (Actual Pattern Block Template)

Level A , Part 2 (Actual Pattern Block Template)

Level B (Actual Pattern Block Template) Part 1 Part 2

Level B (Actual Pattern Block Template) Part 3

Level B (Actual Pattern Block Template) Part 4

CCSSMAlignment:ProblemoftheMonth BetweentheLines©NoyceFoundation2015.ThisworkislicensedunderaCreativeCommonsAttribution-NonCommercial-NoDerivatives3.0UnportedLicense(http://creativecommons.org/licenses/by-nc-nd/3.0/deed.en_US).

ProblemoftheMonthBetweentheLines

TaskDescription–LevelAThistaskchallengesstudentstovisualizeafigurewithdifferentconfigurationsfromasetofshapes(triangles,squares,rhombi,trapezoids,and/orhexagons).Thisdevelopmentofspatialsensewillsupportthedevelopingunderstandingsofattributesinplanegeometryandtheuseofbasictransformations.

CommonCoreStateStandardsMath-ContentStandardsGeometryIdentifyanddescribeshapes(squares,circles,triangles,rectangles,hexagons,cubes,cones,cylinders,andspheres).K.G.1Describeobjectsintheenvironmentusingnamesofshapes,anddescribetherelativepositionsoftheseobjectsusingtermssuchasabove,below,beside,infrontof,behind,andnextto.K.G.2Correctlynameshapesregardlessoftheirorientationsoroverallsize.Analyze,compare,create,andcomposeshapes.K.G.6Composesimpleshapestoformlargershapes.Reasonwithshapesandtheirattributes.1.G.1Distinguishbetweendefiningattributes(e.g.,trianglesareclosedandthreesided)versusnon-definingattributes(e.g.,color,orientation,overallsize);buildanddrawshapestopossessdefiningattributes.1.G.2Composetwo-dimensionalshapes(rectangles,squares,trapezoids,triangles,half-circles,andquarter-circles)orthree-dimensionalshapes(cubes,rightrectangularprisms,rightcircularcones,andrightcircularcylinders)tocreateacompositeshape,andcomposenewshapesfromthecompositeshape.*

*Studentsdonotneedtolearnformalnamessuchas“rightrectangularprism.”Reasonwithshapesandtheirattributes.2.G.1Recognizeanddrawshapeshavingspecifiedattributes,suchasagivennumberofanglesoragivennumberofequalfaces.**Identifytriangles,quadrilaterals,pentagons,hexagons,andcubes.

**Sizesarecompareddirectlyorvisually,notcomparedbymeasuring.CommonCoreStateStandardsMath–StandardsofMathematicalPractice

MP.6 Attendtoprecision.Mathematicallyproficientstudentstrytocommunicatepreciselytoothers.Theytrytousecleardefinitionsindiscussionwithothersandintheirownreasoning.Theystatethemeaningofthesymbolstheychoose,includingusingtheequalsignconsistentlyandappropriately.Theyarecarefulaboutspecifyingunitsofmeasure,andlabelingaxestoclarifythecorrespondencewithquantitiesinaproblem.Theycalculateaccuratelyandefficiently,expressnumericalanswerswithadegreeofprecisionappropriatefortheproblemcontext.Intheelementarygrades,studentsgivecarefullyformulatedexplanationstoeachother.Bythetimetheyreachhighschooltheyhavelearnedtoexamineclaimsandmakeexplicituseofdefinitions.MP.7Lookforandmakeuseofstructure.Mathematicallyproficientstudentslookcloselytodiscernapatternorstructure.Youngstudents,forexample,mightnoticethatthreeandsevenmoreisthesameamountassevenandthreemore,ortheymaysortacollectionofshapesaccordingtohowmanysidestheshapeshave.Later,studentswillsee7x8equalsthewell-remembered7x5+7x3,inpreparationforlearningaboutthedistributiveproperty.Intheexpressionx2+9x+14,olderstudentscanseethe14as2x7andthe9as2+7.Theyrecognizethesignificanceofanexistinglineinageometricfigureandcanusethestrategyofdrawinganauxiliarylineforsolvingproblems.Theyalsocanstepbackforanoverviewandshiftperspective.Theycanseecomplicatedthings,suchassomealgebraicexpressions,assingleobjectsorasbeingcomposedofseveralobjects.Forexample,theycansee5–3(x–y)2as5minusapositivenumbertimesasquareandusethattorealizethatitsvaluecannotbemorethan5foranyrealnumbersxandy.

TaskDescription–LevelBThistaskchallengesstudentstovisualizedifferentwaystoconfigurefourdifferentsizedtrapezoids,usinganisoscelestrapezoidastheunitwhole.Thistaskthenchallengesstudentstonoticepatternsthatcanbeseenintheconstructionofthesefourfigures-suchastherelationshipbetweenlineardimensionsofthefourisoscelestrapezoidsandtheirareas.Thisdevelopmentofspatialsensewillsupportthedevelopingunderstandingsofattributesinplanegeometryandtheuseofbasictransformations,andthisexplorationofpatternswillsupportthedevelopingunderstandingoffunctionalrelationships.

CommonCoreStateStandardsMath-ContentStandardsGeometryReasonwithshapesandtheirattributes.1.G.1Distinguishbetweendefiningattributes(e.g.,trianglesareclosedandthreesided)versusnon-definingattributes(e.g.,color,orientation,overallsize);buildanddrawshapestopossessdefiningattributes.1.G.2Composetwo-dimensionalshapes(rectangles,squares,trapezoids,triangles,half-circles,andquarter-circles)orthree-dimensionalshapes(cubes,rightrectangularprisms,rightcircularcones,andrightcircularcylinders)tocreateacompositeshape,andcomposenewshapesfromthecompositeshape.*

*Studentsdonotneedtolearnformalnamessuchas“rightrectangularprism.”Reasonwithshapesandtheirattributes.2.G.1Recognizeanddrawshapeshavingspecifiedattributes,suchasagivennumberofanglesoragivennumberofequalfaces.**Identifytriangles,quadrilaterals,pentagons,hexagons,andcubes.

**Sizesarecompareddirectlyorvisually,notcomparedbymeasuring.Reasonwithshapesandtheirattributes.3.G.2Partitionshapesintopartswithequalareas.Expresstheareaofeachpartasaunitfractionofthewhole.Forexample,partitionashapeinto4partswithequalarea,anddescribetheareaofeachpartas¼oftheareaoftheshape.OperationsandAlgebraicThinkingGenerateandanalyzepatterns.4.OA.5Generateanumberorshapepatternthatfollowsagivenrule.Identifyapparentfeaturesofthepatternthatwerenotexplicitintheruleitself.FunctionsDefine,evaluate,andcomparefunctions.8.F.1Understandthatafunctionisarulethatassignstoeachinputexactlyoneoutput.Thegraphofafunctionisthesetoforderedpairsconsistingofaninputandthecorrespondingoutput.HighSchool–Functions-BuildingFunctionsBuildafunctionthatmodelsarelationshipbetweentwoquantities.F-BF.1Writeafunctionthatdescribesarelationshipbetweentwoquantities.F-BF.1a.Determineanexplicitexpression,arecursiveprocess,orstepsforcalculationfromacontext.

CommonCoreStateStandardsMath–StandardsofMathematicalPracticeMP.6 Attendtoprecision.Mathematicallyproficientstudentstrytocommunicatepreciselytoothers.Theytrytousecleardefinitionsindiscussionwithothersandintheirownreasoning.Theystatethemeaningofthesymbolstheychoose,includingusingtheequalsignconsistentlyandappropriately.Theyarecarefulaboutspecifyingunitsofmeasure,andlabelingaxestoclarifythecorrespondencewithquantitiesinaproblem.Theycalculateaccuratelyandefficiently,expressnumericalanswerswithadegreeofprecisionappropriatefortheproblemcontext.Intheelementarygrades,studentsgivecarefullyformulatedexplanationstoeachother.Bythetimetheyreachhighschooltheyhavelearnedtoexamineclaimsandmakeexplicituseofdefinitions.MP.7Lookforandmakeuseofstructure.Mathematicallyproficientstudentslookcloselytodiscernapatternorstructure.Youngstudents,forexample,mightnoticethatthreeandsevenmoreisthesameamountassevenandthreemore,ortheymaysortacollectionofshapesaccordingtohowmanysidestheshapeshave.Later,studentswillsee7x8equalsthewell-remembered7x5+7x3,inpreparationforlearningaboutthedistributiveproperty.Intheexpressionx2+9x+14,olderstudentscanseethe14as2x7andthe9as2+7.Theyrecognizethesignificanceofanexistinglineinageometricfigureandcanusethestrategyofdrawinganauxiliarylineforsolvingproblems.Theyalsocanstepbackforanoverviewandshiftperspective.Theycanseecomplicatedthings,suchassomealgebraicexpressions,assingleobjectsorasbeingcomposedofseveralobjects.Forexample,theycansee5–3(x–y)2as5minusapositivenumbertimesasquareandusethattorealizethatitsvaluecannotbemorethan5foranyrealnumbersxandy.

TaskDescription–LevelCThistaskchallengesstudentstofindtheareasofdifferenttypesoftrianglesongeoboardgridpaper.Anunderstandingoftherelationshipsbetweenrectanglesandtrianglesisoneavenuefordeterminingtheseareas.

CommonCoreStateStandardsMath-ContentStandardsMeasurementandDataGeometricmeasurement:understandconceptsofareaandrelateareatomultiplicationandtoaddition.3.MD.5Recognizeareaasanattributeofplanefiguresandunderstandconceptsofareameasurement.3.MD.5a.Asquarewithsidelength1unit,called“aunitsquare,”issaidtohave“onesquareunit”ofarea,andcanbeusedtomeasurearea.3.MD.5b.Aplanefigurewhichcanbecoveredwithoutgapsoroverlapsbynunitsquaresissaidtohaveanareaofnsquareunits.3.MD.6Measureareasbycountingunitsquares(squarecm,squarem,squarein,squareft,andimprovisedunits).Drawandidentifylinesandangles,andclassifyshapesbypropertiesoftheirlinesandangles.4.G.1Classifytwo-dimensionalfiguresbasedonthepresenceorabsenceofparallelorperpendicularlines,orthepresenceorabsenceofanglesofaspecifiedsize.Recognizerighttrianglesasacategory,andidentifyrighttriangles.Solvereal-worldandmathematicalproblemsinvolvingarea,surfacearea,andvolume.6.G.1Findtheareaofrighttriangles,othertriangles,specialquadrilaterals,andpolygonsbycomposingintorectanglesordecomposingintotrianglesandothershapes;applythesetechniquesinthecontextofreal-worldandmathematicalproblems.

CommonCoreStateStandardsMath–StandardsofMathematicalPracticeMP.6Attendtoprecision.Mathematicallyproficientstudentstrytocommunicatepreciselytoothers.Theytrytousecleardefinitionsindiscussionwithothersandintheirownreasoning.Theystatethemeaningofthesymbolstheychoose,includingusingtheequalsignconsistentlyandappropriately.Theyarecarefulaboutspecifyingunitsofmeasure,andlabelingaxestoclarifythecorrespondencewithquantitiesinaproblem.Theycalculateaccuratelyandefficiently,expressnumericalanswerswithadegreeofprecisionappropriatefortheproblemcontext.Intheelementarygrades,studentsgivecarefullyformulatedexplanationstoeachother.Bythetimetheyreachhighschooltheyhavelearnedtoexamineclaimsandmakeexplicituseofdefinitions.MP.7Lookforandmakeuseofstructure.Mathematicallyproficientstudentslookcloselytodiscernapatternorstructure.Youngstudents,forexample,mightnoticethatthreeandsevenmoreisthesameamountassevenandthreemore,ortheymaysortacollectionofshapesaccordingtohowmanysidestheshapeshave.Later,studentswillsee7x8equalsthewell-remembered7x5+7x3,inpreparationforlearningaboutthedistributiveproperty.Intheexpressionx2+9x+14,olderstudentscanseethe14as2x7andthe9as2+7.Theyrecognizethesignificanceofanexistinglineinageometricfigureandcanusethestrategyofdrawinganauxiliarylineforsolvingproblems.Theyalsocanstepbackforanoverviewandshiftperspective.Theycanseecomplicatedthings,suchassomealgebraicexpressions,assingleobjectsorasbeingcomposedofseveralobjects.Forexample,theycansee5–3(x–y)2as5minusapositivenumbertimesasquareandusethattorealizethatitsvaluecannotbemorethan5foranyrealnumbersxandy.

ProblemoftheMonth:BetweentheLines

TaskDescription–LevelDThistaskchallengesstudentstofindtherelationshipbetweenthesizesofthreegivenoverlappingsquares.Anunderstandingofanglerelationshipsanddefinitions,congruency,andthePythagoreanTheoremdeepenstudents’understandingandaccesstothemathematicsinthislevel.

CommonCoreStateStandardsMath-ContentStandardsGeometryUnderstandcongruenceandsimilarityusingphysicalmodels,transparencies,orgeometrysoftware.8.G.2Understandthatatwo-dimensionalfigureiscongruenttoanotherifthesecondcanbeobtainedfromthefirstbyasequenceofrotations,reflections,andtranslations;giventwocongruentfigures,describeasequencethatexhibitsthecongruencebetweenthem.UnderstandandapplythePythagoreanTheorem.8.G.7ApplythePythagoreanTheoremtodetermineunknownsidelengthsinrighttrianglesinreal-worldandmathematicalproblemsintwoandthreedimensions.HighSchool–Geometry-CongruenceUnderstandcongruenceintermsofrigidmotionsG-CO.7Usethedefinitionofcongruenceintermsofrigidmotionstoshowthattwotrianglesarecongruentifandonlyifcorrespondingpairsofsidesandcorrespondingpairsofanglesarecongruent.ProvegeometrictheoremsG-CO.9Provetheoremsaboutlinesandangles.Theoremsinclude:verticalanglesarecongruent;whenatransversalcrossesparallellines,alternateinterioranglesarecongruentandcorrespondinganglesarecongruent;pointsonaperpendicularbisectorofalinesegmentareexactlythoseequidistantfromthesegment’sendpoints.G-CO.10Provetheoremsabouttriangles.Theoremsinclude:measuresofinterioranglesofatrianglesumto180!;baseanglesofisoscelestrianglesarecongruent;thesegmentjoiningmidpointsoftwosidesofatriangleisparalleltothethirdsideandhalfthelength;themediansofatrianglemeetatapoint.

TaskDescription–LevelEThistaskchallengesstudentstohaveastrongunderstandingoftransformationalgeometryandpropertiesoftriangles.

CommonCoreStateStandardsMath-ContentStandardsHighSchool–Geometry–CongruenceExperimentwithtransformationsintheplaneG-CO.2Representtransformationsintheplaneusing,e.g.,transparenciesandgeometrysoftware;describetransformationsasfunctionsthattakepointsintheplaneasinputsandgiveotherpointsasoutputs.Comparetransformationsthatpreservedistanceandangletothosethatdonot(e.g.,translationversushorizontalstretch).G-CO.3Givenarectangle,parallelogram,trapezoidorregularpolygon,describetherotationsandreflectionsthatcarryitontoitself.G-CO.4Developdefinitionsofrotations,reflections,andtranslationsintermsofangles,circles,perpendicularlines,parallellines,andlinesegments.UnderstandcongruenceintermsofrigidmotionsG-CO.7Usethedefinitionofcongruenceintermsofrigidmotionstoshowthattwotrianglesarecongruentifandonlyifcorrespondingpairsofsidesandcorrespondingpairsofanglesarecongruent.

TaskDescription–PrimaryLevelThistaskchallengesstudentstonameanddefineattributesoftwo-dimensionalshapes(triangles,squares,rhombi,trapezoids,and/orhexagons).Thistaskalsochallengesstudentstorecognizeafigurewithtwodifferentorientationsfromasetofshapes(triangles,squares,rhombi,trapezoids,and/orhexagons).Thisdevelopmentofspatialsensewillsupportthedevelopingunderstandingofattributesinplanegeometryandtheuseofbasictransformations.

CommonCoreStateStandardsMath-ContentStandardsGeometryIdentifyanddescribeshapes(squares,circles,triangles,rectangles,hexagons,cubes,cones,cylinders,andspheres.)K.G.1Describeobjectsintheenvironmentusingnamesofshapes,anddescribetherelativepositionsoftheseobjectsusingtermssuchasabove,below,beside,infrontof,behind,andnextto.K.G.2Correctlynameshapesregardlessoftheirorientationsoroverallsize.Analyze,compare,create,andcomposeshapes.K.G.6Composesimpleshapestoformlargershapes.

Problem of the Month: Between the Lines - Inside Mathematics

Documents

County Lines the inside story - GOV UK · County Lines –the inside story Nequela Whittaker Gangs Specialist, Author and Founding Director Committed Empowered Originals Youth Services

Playing Inside the Lines of Labor Law: Professional Sports and the Non-Statutory Labor Exemption

MORE SKY LESS ROOF · TAKE A CLOSER LOOK Sharp lines inside and low sight lines outside MORE SKY – LESS ROOF™.Whether you’re inside looking up, or outside looking ENVIOUSLY

3 Lines > 2 Lines > Market Snapshot—Q4 2018 · 1 Lines > Market Snapshot—Q4 2018 DACH. or 72% of monthly active users access Facebook daily users access Facebook every month 32M

Steal this Affiliate Plan and make 5 K /month in 90 Days (PROOF INSIDE)

Lesson 14: Secant Lines; Secant Lines That Meet Inside a ... · Lesson 14: Secant Lines; Secant Lines That Meet Inside a Circle Student Outcomes Students understand that an angle

Tweeting Inside the Lines: 5 Social Marketing Solutions for Regulated Industries

Outside the box, inside the lines

Lesson 14: Secant Lines; Secant Lines That Meet Inside a Circle

TILA-RESPA Integrated Disclosure · 3 TILA-RESPA INTEGRATED DISCLOSURE | WHAT’S INSIDE What’s inside Version log ... Home equity lines of credit, reverse mortgages, or

INSIDE THE LINES THE NIKE CODE OF ETHICSs1.q4cdn.com/806093406/files/doc_downloads/governance/2011-Inside... · INSIDE THE LINES THE NIKE ... This code calls for our partners’ management

company introduction 091210 (WEB) Profile2009.pdf · Bridge Power Corporation 5 1-3, Factory production capacity Product lines and Facilities / month No Lines Monthly Line facilities

Postcard Spring Clean / National Car Care Month Customer ... · Postcard Spring Clean / National Car Care Month Customer of the Month February 2009 The Inside Lane Postcard Spring

Inside the Lines Dragonfly card Supplies: Directions · Title: Microsoft Word - Inside the Lines Dragonfly Card - 01142017 Stamp Camp.doc Author: Jean Fitch Created Date: 1/19/2017

TRAINING GUIDE Sample - CamInstructor · Mastercam Training Guide Mill-Lesson-4-5 TASK 3: CREATE THE INSIDE ENTITIES Â In this task you will create the four inside lines. These lines

Electromagnetic Field Coupling to Transmission Lines …ece-research.unm.edu/summa/notes/In/IN623.pdf · Electromagnetic Field Coupling to Transmission Lines Inside Rectangular Resonators

What Is Inside - Clover Sitesstorage.cloversites.com/centralunitedmethodistchurch... · 2014-09-25 · What Is Inside Flu Shots page 2 Senior Adult Day Trip page 3 Stewardship Month

SAILING SCHEDULE ON INSIDE BACK COVER · The Propeller Club of Jacksonville witnessed an Alaska Freight Lines, Inc., promotional film last month w hich is w orth-w hile looking for

Problem of the Month: First Rate - Inside Mathematics

Electromagnetic Field Coupling to Transmission Lines Inside