Essential Learning Event 3
Students construct models and causal explanations of phenomenon using evidence and reasoning.
Once students have gathered evidence through observation and investigation, students develop models and construct initial explanations. They capitalize on various texts, media, and discussions to obtain scientific ideas and concepts to help explain the phenomenon, as well as discover additional evidence that might be used in their own evidence-based explanation. In engineering, students undertake a design project to construct and/or implement a solution that meets specified design criteria and constraints.
- Foregrounded Practices for ELE3
- Student Use Continuum for ELE3
- Sample Student Actions for ELE3
- Teacher Use Continuum for ELE3
- Sample Teacher Actions and Instructional Strategies for ELE3
- Questions to Promote the Use of the SEP and CCC in ELE3
- Assessment Task Formats for ELE3
Foregrounded Practices for ELE3
Student Use Continuum for ELE3
Foregrounded SEP | Level 1 | Level 2 | Level 3 | Level 4 |
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SEP2: Developing and using models | Students do not create models. | Students create models. Students’ models focus on describing natural phenomena rather than predicting or explaining the natural world. Students do not evaluate the merits and limitations of the model. | Students create models focused on predicting or explaining the naturals world. Students do not evaluate the merits and limitations of the model. | Students create models focused on predicting or explaining the natural world. Students do evaluate the merits and limitations of the model. |
SEP6: Constructing explanations and designing solutions | Students do not create scientific models. | Students attempt to create scientific explanations but students’ explanations are descriptive instead of explaining how or why a phenomenon occurs. Students do not use appropriate evidence to support their explanations. | Students construct explanations that focus on explaining how or why a phenomenon occurs. Students do not use appropriate evidence to support their explanations. | Students construct explanations that focus on explaining how or why a phenomenon occurs and use appropriate evidence to support their explanations. |
SEP8: Obtaining, evaluating, and communicating information | Students do not read text for scientific information. | Students read text to obtain scientific information, but do not evaluate this information. Students also do not compare or combine information from multiple texts considering the strengths of the information and sources. | Students read and evaluate text to obtain scientific information. Students do not compare or combine information from multiple texts considering the strengths of the information and sources. | Students read and evaluate text to obtain scientific information. Students compare and combine information from multiple texts considering the strengths of the information and sources. |
Sample Student Actions for ELE3
Develop and Use a Model (SEP2)
- Students distinguish between a model and the actual object, process, and/or events the model represents.
- Students compare models to identify common features and differences.
- Students identify limitations of models. [3-5]
- Students develop and/or use a model to represent amounts, relationships, relative scales (bigger, smaller), and/or patterns in the natural and designed world(s).
- Students collaboratively develop and/or revise a model based on evidence that shows the relationships among variables for frequent and regular occurring events. [3-5]
- Students develop a model using an analogy, example, or abstract representation to describe a scientific principle or design solution. [3-5]
- >Students develop and/or use models to describe and/or predict phenomena. [3-5]
- Students develop a simple model based on evidence to represent a proposed object or tool.
- Students develop a diagram or simple physical prototype to convey a proposed object, tool, or process. [3-5]
- Students use a model to test cause and effect relationships or interactions concerning the functioning of a natural or designed system. [3-5]
Construct an Explanation (SEP6)
- Students use information from observations (firsthand and from media) to construct an evidence-based account for natural phenomena.
- Students construct an explanation of observed relationships (e.g., the distribution of plants in the back yard). [3-5]
- Students use evidence (e.g., measurements, observations, patterns) to construct or support an explanation or design a solution to a problem. [3-5]
- Students identify the evidence that supports particular points in an explanation. [3-5]
- Students use tools and/or materials to design and/or build a device that solves a specific problem or a solution to a specific problem.
- Students generate and/or compare multiple solutions to a problem.
- Students apply scientific ideas to solve design problems. [3-5]
- Students generate and compare multiple solutions to a problem based on how well they meet the criteria and constraints of the design solution. [3-5]
Obtain and Evaluate Information (SEP8)
- Students read grade-appropriate texts and/or use media to obtain scientific and/or technical information to determine patterns in and/or evidence about the natural and designed world(s).
- Students read and comprehend grade-appropriate complex texts and/or other reliable media to summarize and obtain scientific and technical ideas and describe how they are supported by evidence. [3-5]
- Students compare and/or combine across complex texts and/or other reliable media to support the engagement in other scientific and/or engineering practices. [3-5]
- Students describe how specific images (e.g., a diagram showing how a machine works) support a scientific or engineering idea.
- Students combine information in written text with that contained in corresponding tables, diagrams, and/or charts to support the engagement in other scientific and/or engineering practices. [3-5]
- Students obtain information using various texts, text features (e.g., headings, tables of contents, glossaries, electronic menus, icons), and other media that will be useful in answering a scientific question and/or supporting a scientific claim.
- Students obtain and combine information from books and/or other reliable media to explain phenomena or solutions to a design problem. [3-5]
- Students communicate information or design ideas and/or solutions with others in oral and/or written forms using models, drawings, writing, or numbers that provide detail about scientific ideas, practices, and/or design ideas.
- Students communicate scientific and/or technical information orally and/or in written formats, including various forms of media as well as tables, diagrams, and charts. [3-5]
Teacher Use Continuum for ELE3
Foregrounded SEP | Level 1 | Level 2 | Level 3 | Level 4 |
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SEP2: Developing and using models | Teacher does not provide opportunities for students to create models. | Teacher provides opportunities for students to create models. Students’ models focus on describing natural phenomenon rather than predicting or explaining the natural world. Students do not evaluate the merits and limitations of the model. | Teacher provides opportunities for students to create models focused on predicting or explaining the natural world. Students do not evaluate the merits and limitations of the model. | Teacher provides opportunities for students to create models focused on predicting or explaining the natural world. Students do evaluate the merits and limitations of the model. |
SEP6: Constructing explanations and designing solutions | Teacher does not provide opportunities for students to create scientific explanations. | Teacher provides opportunities for students to create scientific explanations but students’ explanations are descriptive instead of explaining how or why a phenomenon occurs. Students do not use appropriate evidence to support their explanations. | Teacher provides opportunities for students to construct explanations that focus on explaining how or why a phenomenon occurs. Students do not use appropriate evidence to support their explanations. | Teacher provides opportunities for students to construct explanations that focus on explaining how or why a phenomenon occurs and use appropriate evidence to support their explanations. |
SEP8: Obtaining, evaluating, and communicating information | Teacher does not provide opportunities for students to read text for scientific information. | Teacher provides opportunities for students to obtain scientific information, but do not evaluate this information. Students also do not compare or combine information from multiple texts considering the strengths of the information and sources. | Teacher provides opportunities for students to read and evaluate text to obtain scientific information. Students do not compare or combine information from multiple texts considering the strengths of the information and sources. | Teacher provides opportunities for students to read and evaluate text to obtain scientific information. Students compare and combine information from multiple texts considering the strengths of the information and sources. |
Note: The levels reflect increasingly sophisticated engagement in the practices and are not grade-level specific. Appendix F in the NGSS provides significantly more detail for each practice that should be integrated as both students and teachers develop greater fluency with each practice.
Sample Teacher Actions and Instructional Strategies for ELE3
Develop and Use a Model (SEP2)
- Facilitate a discussion of the benefits and drawbacks of the different models. Emphasize for students that all models have benefits and drawbacks.
- Ask students to comment on what they see as working well about a model and what they would modify or change based upon specific evidence.
- Give each student an individual whiteboard to draw their models on. This makes it easy to revise their model as they hear compelling arguments for changing it.
- Develop a language of modeling with your class. Students will adopt conventions that work to solve certain problems, for instance showing a zoomed-in view of something microscopic or arrows to represent forces.
- Ask students to find ways to show the causal patterns or interactions in their diagrams. Help them develop a class vocabulary for illustrating and discussing the causal patterns.
- Invite students to draw models to show how two ideas are connected, for instance, how higher and lower pressure accounts for windows being pushed out during a hurricane and for liquid moving up a straw.
- As often as possible, have all students share their models with the class. It removes the social burden of deciding to share. Arrange the desks in a circle and go around sharing, discussing, and critiquing.
- Use models as a point of discussion. Ask students to comment on what they see as working well about a model and what they would modify or change based upon specific evidence.
- Invite the co-construction of models as often as possible. Work towards models that "make sense" to the class.
- Encourage students to generate "rival models"—different ways of explaining the same event—as often as possible. This encourages flexible thinking and resists over-investing in one model. However, if they already have a firm idea in mind, they need to grapple with it.
- Don't hold back on the "scientifically accepted" model, but don't present it as "the right answer" either. It is best when a student presents some version or part of it and you can work towards it together as a class. Critique it as you would any other model.
- Encourage students to view their learning as trading up for better and better models, not as "getting the right answer." Science works this way and learning does, too!
- View learning as an evolution of understanding through different models and assess students' progress on that path, not whether they parrot back "the right answer."
- Have students work in groups to create models that include observable and non-observable components. Be explicit that models offer explanatory accounts – they show how or why a phenomenon occurs.1
- Show students an example of a scientific model and a non-example, such as a labeled diagram. Have students compare and contrast the two. Highlight for students that the scientific model shows how a phenomenon occurs, while the labeled diagram does not.1
- Provide opportunities for students to make decisions about the type of model they will create, such as a picture, a physical creation, or a computer animation. Emphasize that there is no one “right” way to create a model, but that models should show how or why the phenomenon under study occurs.1
- Provide graphic organizers to support students in planning their models. Sections of the graphic organizer might include “key ideas” and room to sketch the model. At the end of the graphic organizer provide a checklist so that students can be sure their proposed model shows how or why the phenomenon occurs and is not only descriptive.1
Construct an Explanation (SEP6)
- Prepare a scoring rubric for the explanation under consideration.
- Model an appropriate scientific explanation.
- Discuss key features of explanations in science: explanatory account, science ideas and evidence. An explanatory account describes how or why a phenomenon occurs. Science ideas are key concepts or principles students apply to make sense of a specific phenomenon (e.g. example). Evidence is scientific data such as measurements and observations.
- Create a poster with the key features for a scientific explanation, such as that it shown how or why something occurs.
- Provide examples of strong and weak examples (e.g. describes a phenomenon instead of explaining it). Critique the examples as a class.
- Provide students with scaffolds such as sentence starters, questions or graphic organizers that highlight the key features. For example, a graphic organizer could include three sections labeled: 1) Your explanation – the how or why?, 2) Big science ideas that support your explanation, 3) Evidence that supports your explanation.
- Ask students to highlight the key features of an explanation (explanatory account, science ideas and evidence) in their own or a peer’s writing.
Obtain and Evaluate Information (SEP8)
- Have students read a text in small groups that contains evidence and science ideas (DCIs in NGSS) about a specific topic. Ask students to underline the evidence and put a star next to the science ideas.
- Provide students with two or more texts on the same topic. Ask students to compare and contrast the texts, focusing on how well the authors defend their claim. Have students decide which is the most persuasive text. Tell students they will need to explain why they think that text is most persuasive.
- Do a jigsaw activity with multiple texts. Put students into groups and give each group a different text on a related topic. When students have completed reading the text, mix up the groups so one person who has read each text is in each group. Ask students to briefly summarize their text to their group.
- Develop a checklist of questions can ask as they evaluate texts. For example, Does the text have a clear claim? Does the text use scientific evidence to support the claim? Does the text have enough scientific evidence to support the claim?
- Watch two short videos (or listen to two podcasts) about a similar topic. Ask students to compare and contrast the different perspectives on the same topic (e.g. genetically modified food).
- Briefly share information with students and have them process ideas in an interactive way.
- Ensure students can describe science ideas and key vocabulary using their own words and by drawing on personal experiences.
Questions to Promote the Use of the SEP and CCC in ELE3
Develop and Use a Model (SEP2)
- What is the purpose of this model?
- What is the model trying to represent?
- What are some ways this model works well or fits well?
- What are some ways this model does not work well or fit well?
- Is there anything about what the model is representing that is really complex?
- Does the model help you simplify and think about what is happening?
- Does the model help you “zoom in” or “zoom out” to think about what is happening? (CCC Scale, Proportion and Quantity)
- Does the model help you slow down or speed up what is happening so you can think about what is happening? (CCC Scale, Proportion, and Quantity)
- Does the model allow you to imagine what is hidden so you can think about what is happening?
- How does the process of modeling help you simplify and think about what was happening?
- As you were thinking about the phenomenon, did you feel like you were starting to have a good idea of what was happening, but then suddenly you were thinking about too many things at once? How does your model help you simplify your thinking? (CCC Systems and System Models)
- When you were watching phenomenon, were there moments when you thought you understood what was happening, but as the situation changed you weren’t as sure?
- Were there moments when you thought you understood what was happening, so you tested your ideas with your model to see if you were right? How can we model how this system changes? (CCC Stability and Change)
- How can we model how this structure works? (CCC Structure and Function)
- How can we model the flow of energy ? How can you model the cycling of matter? (CCC Matter and Energy: Flows, Cycles, and Conservation)
- How can you model this system? Can we model how this system functions? (CCC System and System Models)
- How can you make a model that helps you understand nature at this scale? (CCC Scale, Proportion, and Quantity)
- What model will explain this cause and effect relationship? (CCC Cause and Effect)
- How can I model this pattern? Can I make a model to explain this pattern? (CCC Patterns)
Construct an Explanation (SEP6)
- How can you explain this pattern? How can this pattern support your explanation? (CCC Patterns)
- What explains how the cause leads to the effect? What does this cause and effect relationship help to explain? (CCC Cause and Effect)
- How can you explain how nature works at this scale? Can you explain how what happens at this scale affects nature at other scales? (CCC Scale and Proportion)
- How can you explain the function of this system? (CCC System and System Models)
- How can you explain how energy affects this system? How can you explain how matter changes in this system? (CCC Matter and Energy: Flows, Cycles, and Conservation)
- How can you explain how the structure is related to the function? (CCC Structure and Function)
- How can you explain why this system changes or remains stable? (CCC Stability and Change)
Obtain and Evaluate Information (SEP8)
- What is already known about this pattern? How can I best communicate about this pattern? (CCC Patterns)
- What is already known about this cause and effect relationship? How can I best communicate about this cause and effect relationship? (CCC Cause and Effect)
- What is already known about nature at this scale? How can I best communicate about this scale? (CCC Scale and Proportion)
- What is already known about this system? How can I best communicate what I know about this system? (CCC System and System Models)
- What is already known about energy and matter in this system? How can I best communicate about energy and matter in this system? (CCC Matter and Energy: Flows, Cycles, and Conservation)
- What is already known about the relationship between structure and function in this system? How can I best communicate about this relationship between structure and function? (CCC Structure and Function)
- What is already known about stability and change in this system? How can I best communicate what I've learned about stability and change in this system? (CCC Stability and Change)
Assessment Task Formats for ELE3
Potential Task Formats: Developing and Using Models (SEP2) |
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Present two models to students, then
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Present students with an illustration or drawing of a scientific process or system, then
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Present students with a model of an observable scientific process or system and some evidence about how the system behaves that does not fit the model, then
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4 |
Present students with a textual description of an observable scientific phenomenon, then
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5 |
Present students with a textual description of an observable scientific phenomenon, then
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6 |
Present students with two different models for the same observable phenomenon, then
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Present students with two different models for the same observable phenomenon, then
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Provide students with a digital modeling tool that is intended to represent a system or process in which the mechanisms are not visible to the naked eye, then
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Potential Task Formats: Constructing Explanations (SEP6)Note: A set of task formats for designing solutions is available at http://researchandpractice.org/NGSSTaskFormats Relevant definition:
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Describe a phenomenon to students along with relevant evidence (which can come from a media source), then
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Describe a phenomenon to students along with some related qualitative or quantitative data/observations, then
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3 |
Describe a phenomenon to students and present qualitative or quantitative data for independent and dependent variables, then
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4 |
Describe a phenomenon to students along with a related set of evidence and an explanation that includes multiple scientific principles, then
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Present students with a model or representation of an observable scientific process or system, then
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Describe a phenomenon and present students with a causal explanation of it, then
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Describe a phenomenon and present students with a range of evidence obtained from a variety of sources (empirical investigations, models, theories, simulations, peer review), then
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Potential Task Formats: Obtaining, Evaluating, and Communicating Information (SEP8)Relevant definitions:
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Present students with a set of grade-appropriate texts related to a scientific phenomenon, then
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Present students with a set of grade-appropriate texts related to a scientific phenomenon, then
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Present students with textual description a scientific phenomenon or of an investigation of a scientific phenomenon, then
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Present students with a set of grade-appropriate scientific literature and/or media reports related to a scientific phenomenon, then
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