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Models and Models and ModelingModeling
in the High in the High SchoolSchool
Chemistry Chemistry ClassroomClassroom
Larry DukerichDobson HSMesa, AZCRESMETArizona State University
Brenda RoyceUniversity HSFresno, CA
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The Problem with The Problem with Traditional Traditional InstructionInstruction Presumes two kinds of knowledge:Presumes two kinds of knowledge:
Facts and ideasFacts and ideas - - thingsthings packaged into words and packaged into words and distributed to students.distributed to students.
Know-howKnow-how - skills packaged as - skills packaged as rules or procedures.rules or procedures.
Assumes students will see the Assumes students will see the underlying structure in the underlying structure in the content.content.
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““Teaching by Telling” is Teaching by Telling” is IneffectiveIneffective
Students…Students… Systematically miss the point of Systematically miss the point of what we tell them.what we tell them.
do not have the same “schema” do not have the same “schema” associated with key ideas/words associated with key ideas/words that we have.that we have.
do not improve do not improve their their problem-problem-solving skills by watching the solving skills by watching the teacherteacher solve problems solve problems
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Algorithms vs Algorithms vs UnderstandingUnderstandingAlgorithms vs Algorithms vs UnderstandingUnderstandingWhat does it mean when students can solve stoichiometry problems, but cannot answer the following?
What does it mean when students can solve stoichiometry problems, but cannot answer the following?= H
= N
Nitrogen gas and hydrogen gas react to form ammonia gas by the reaction
N2 + 3 H2 2 NH3
The box at right shows a mixture of nitrogen and hydrogen molecules before the reaction begins.
Which of the boxes below correctly shows what the reaction mixture would look like
after the reaction was complete?
A B C D
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How Do You Know?How Do You Know?
All students know All students know the formula for the formula for water is Hwater is H22O.O.
Very few are able Very few are able to cite any to cite any evidence for why we evidence for why we believe this to be believe this to be the case.the case.
All students know All students know the formula for the formula for water is Hwater is H22O.O.
Very few are able Very few are able to cite any to cite any evidence for why we evidence for why we believe this to be believe this to be the case.the case.
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Do They Really Have Do They Really Have an Atomic View of an Atomic View of Matter?Matter?
Do They Really Have Do They Really Have an Atomic View of an Atomic View of Matter?Matter? Before we investigate the inner workings of the atom, let’s first make sure they really believe in atoms. Students can state the Law of Conservation of Mass, but then will claim that mass is “lost” in some reactions.
When asked to represent matter at sub-microscopic level, many sketch matter using a continuous model.
Before we investigate the inner workings of the atom, let’s first make sure they really believe in atoms. Students can state the Law of Conservation of Mass, but then will claim that mass is “lost” in some reactions.
When asked to represent matter at sub-microscopic level, many sketch matter using a continuous model.
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Representation of MatterRepresentation of Matter Question: “What’s happening at the simplest level of matter?”
Question: “What’s happening at the simplest level of matter?”
More More StoryboardsStoryboards
Gas Diffusion: Gas Diffusion: Where’s The Air?Where’s The Air?
Aqueous Aqueous Diffusion: Diffusion:
The Continuous The Continuous Model of MatterModel of Matter
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Where’s the Evidence?Where’s the Evidence?
Why teach a model of the inner workings of the atom without examining any of the evidence? Students “know” the atom has a nucleus surrounded by electrons, but cannot use this model to account for electrical interactions.
What’s gained by telling a Cliff’s Notes version of the story of how our current model of the atom evolved?
Why teach a model of the inner workings of the atom without examining any of the evidence? Students “know” the atom has a nucleus surrounded by electrons, but cannot use this model to account for electrical interactions.
What’s gained by telling a Cliff’s Notes version of the story of how our current model of the atom evolved?
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Construct and useConstruct and use scientific models to scientific models to describe, to explain, to predict and to describe, to explain, to predict and to control physical phenomena.control physical phenomena.
Model physical objects and processes Model physical objects and processes using diagrammatic, graphical and using diagrammatic, graphical and algebraic representations.algebraic representations.
Recognize a small set of particle Recognize a small set of particle models as the models as the content corecontent core of of chemistry.chemistry.
Evaluate scientific models through Evaluate scientific models through comparison with empirical data.comparison with empirical data.
View modeling as the View modeling as the procedural coreprocedural core of scientific knowledgeof scientific knowledge
InstructionalInstructional ObjectivesObjectives
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What Do We Mean by What Do We Mean by Model?Model?
Models are representations of structure in Models are representations of structure in a physical system or processa physical system or process
Symbolic Representations
PhysicalSystem
MentalModel
Verbal
Algebraic
Diagrammatic
Graphical
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Why Models?Why Models?Why Models?Why Models?
Models are basic units of knowledge A few basic models are used again and again with only minor modifications.
Models help students connect Macroscopic observations Microscopic representations Symbolic representations
Models are basic units of knowledge A few basic models are used again and again with only minor modifications.
Models help students connect Macroscopic observations Microscopic representations Symbolic representations
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Why modeling?!Why modeling?! To help students see science as a way To help students see science as a way of viewing the world rather than as a of viewing the world rather than as a collection of facts. collection of facts.
To make the To make the coherencecoherence of scientific of scientific knowledge more evident to students by knowledge more evident to students by making it more explicit.making it more explicit.
Models and SystemsModels and Systems are explicitly are explicitly recognized as major unifying ideas for recognized as major unifying ideas for all the sciences by the all the sciences by the AAAS Project AAAS Project 20612061 for the reform of US science for the reform of US science education.education.
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Uncovering ChemistryUncovering Chemistry
Examine matter from outside-in instead of from inside-out Observable Phenomena Model Students learn to trust scientific thinking, not just teacher/textbook authority
Organize content around a meaningful ‘Story of Matter’
Examine matter from outside-in instead of from inside-out Observable Phenomena Model Students learn to trust scientific thinking, not just teacher/textbook authority
Organize content around a meaningful ‘Story of Matter’
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Particle Models of Gradually Increasing Complexity
Particle Models of Gradually Increasing Complexity Begin with phenomena that can be accounted for by simple BB’s Conservation of mass Behavior of gases - KMT
Recognize that particles DO attract one another “Sticky BB’s” account for behavior of condensed phases
Begin with phenomena that can be accounted for by simple BB’s Conservation of mass Behavior of gases - KMT
Recognize that particles DO attract one another “Sticky BB’s” account for behavior of condensed phases
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Models Evolve as Need ArisesModels Evolve as Need Arises Develop model of atom that can acquire charge after you examine behavior of charged objects
Atom with + core and mobile electrons should explain Conductivity of solutions Properties of ionic solids
Develop model of atom that can acquire charge after you examine behavior of charged objects
Atom with + core and mobile electrons should explain Conductivity of solutions Properties of ionic solids
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Make energy an integral part of the story line
Help students develop a coherent picture of the role of energy in changes in matter Energy storage modes within system
Transfer mechanisms between system and surroundings
Make energy an integral part of the story line
Help students develop a coherent picture of the role of energy in changes in matter Energy storage modes within system
Transfer mechanisms between system and surroundings
Energy - Early and OftenEnergy - Early and Often
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Reconnect Eth and EchReconnect Eth and Ech
Particles in system exchange Ek for Ech to rearrange atoms
181 kJ + N2 + O2 ––> 2 NO
Representation consistent with fact that an endothermic reaction absorbs energy, yet the system cools
Particles in system exchange Ek for Ech to rearrange atoms
181 kJ + N2 + O2 ––> 2 NO
Representation consistent with fact that an endothermic reaction absorbs energy, yet the system cools
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How to Teach it?How to Teach it?
constructivist vs transmissionistconstructivist vs transmissionist
cooperative inquiry vs lecture/demonstrationcooperative inquiry vs lecture/demonstration
student-centered vs teacher-centeredstudent-centered vs teacher-centered
active engagement vs passive reception active engagement vs passive reception
student activity vs teacher demonstrationstudent activity vs teacher demonstration
student articulation vs teacher presentationstudent articulation vs teacher presentation
lab-based vs textbook-basedlab-based vs textbook-based
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Be the “Guide on the Side”Be the “Guide on the Side” Don’t be the dispenser of knowledge
Help students develop tools to explain behavior of matter in a coherent way Let the students do the talking Ask, “How do you know that?” Require particle diagrams when applicable
Don’t be the dispenser of knowledge
Help students develop tools to explain behavior of matter in a coherent way Let the students do the talking Ask, “How do you know that?” Require particle diagrams when applicable
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Preparing the Preparing the WhiteboardWhiteboard
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Making PresentationMaking Presentation