Science Task Screener

Task Title: Gas Laws: Real Gas vs. Ideal Gas Sandbox Task

Grade: High School

Date: 2024-03-20

Instructions

Criterion A. Tasks are driven by high-quality scenarios that are grounded in phenomena or problems.

i. Making sense of a phenomenon or addressing a problem is necessary to accomplish the task.

What was in the task, where was it, and why is this evidence?

  1. Is a phenomenon and/or problem present?

The task is driven by the real-world phenomenon of gas deviations in high-pressure cylinders.

  1. Is information from the scenario necessary to respond successfully to the task?

Yes, students must use the simulation data representing these conditions.

ii. The task scenario is engaging, relevant, and accessible to a wide range of students.

Features of engaging, relevant, and accessible tasks:

Features of scenarios Yes Somewhat No Rationale
Scenario presents real-world observations [x] [ ] [ ] The scenario presents the problem of gas deviations.
Scenarios are based around at least one specific instance, not a topic or generally observed occurrence [x] [ ] [ ] N/A
Scenarios are presented as puzzling/intriguing [x] [ ] [ ] N/A
Scenarios create a “need to know” [x] [ ] [ ] N/A
Scenarios are explainable using grade-appropriate SEPs, CCCs, DCIs [x] [ ] [ ] N/A
Scenarios effectively use at least 2 modalities (e.g., images, diagrams, video, simulations, textual descriptions) [x] [ ] [ ] N/A
If data are used, scenarios present real/well-crafted data [x] [ ] [ ] N/A
The local, global, or universal relevance of the scenario is made clear to students [x] [ ] [ ] N/A
Scenarios are comprehensible to a wide range of students at grade-level [x] [ ] [ ] Uses a highly visual Sandbox simulation.
Scenarios use as many words as needed, no more [x] [ ] [ ] N/A
Scenarios are sufficiently rich to drive the task [x] [ ] [ ] N/A
Evidence of quality for Criterion A: [ ] No [ ] Inadequate [x] Adequate [ ] Extensive

Suggestions for improvement of the task for Criterion A:

None.

Criterion B. Tasks require sense-making using the three dimensions.

i. Completing the task requires students to use reasoning to sense-make about phenomena or problems.

Consider in what ways the task requires students to use reasoning to engage in sense-making and/or problem solving.

Students must reason about how intermolecular forces and particle volume cause deviations from the ideal gas law.

ii. The task requires students to demonstrate grade-appropriate dimensions:

Evidence of SEPs (which element[s], and how does the task require students to demonstrate this element in use?)

Using Mathematics and Computational Thinking, Developing and Using Models, Constructing Explanations

Evidence of CCCs (which element[s], and how does the task require students to demonstrate this element in use?)

Systems and System Models, Cause and Effect

Evidence of DCIs (which element[s], and how does the task require students to demonstrate this element in use?)

PS1.A: Structure and Properties of Matter

iii. The task requires students to integrate multiple dimensions in service of sense-making and/or problem-solving.

Consider in what ways the task requires students to use multiple dimensions together.

Students use the computational model to identify the causes of deviations related to the properties of matter.

iv. The task requires students to make their thinking visible.

Consider in what ways the task explicitly prompts students to make their thinking visible (surfaces current understanding, abilities, gaps, problematic ideas).

Students must explain their reasoning clearly using the mystery gas data.

Evidence of quality for Criterion B: [ ] No [ ] Inadequate [x] Adequate [ ] Extensive

Suggestions for improvement of the task for Criterion B:

None.

Criterion C. Tasks are fair and equitable.

i. The task provides ways for students to make connections of local, global, or universal relevance.

Consider specific features of the task that enable students to make local, global, or universal connections to the phenomenon/problem and task at hand. Note: This criterion emphasizes ways for students to find meaning in the task; this does not mean “interest.” Consider whether the task is a meaningful, valuable endeavor that has real-world relevance–that some stakeholder group locally, globally, or universally would be invested in.

It makes connections to industrial gas storage cylinders, representing a real-world engineering challenge.

ii. The task includes multiple modes for students to respond to the task.

Describe what modes (written, oral, video, simulation, direct observation, peer discussion, etc.) are expected/possible.

Simulation interaction, data collection, and written reasoning.

iii. The task is accessible, appropriate, and cognitively demanding for all learners (including English learners or students working below/above grade level).

Features Yes Somewhat No Rationale
Task includes appropriate scaffolds [x] [ ] [ ] The initial parts guide students step-by-step.
Tasks are coherent from a student perspective [x] [ ] [ ] Logically progresses from ideal to real behavior to a mystery gas.
Tasks respect and advantage students’ cultural and linguistic backgrounds [x] [ ] [ ] N/A
Tasks provide both low- and high-achieving students with an opportunity to show what they know [x] [ ] [ ] N/A
Tasks use accessible language [x] [ ] [ ] N/A

iv. The task cultivates students’ interest in and confidence with science and engineering.

Consider how the task cultivates students interest in and confidence with science and engineering, including opportunities for students to reflect their own ideas as a meaningful part of the task; make decisions about how to approach a task; engage in peer/self-reflection; and engage with tasks that matter to students.

Yes, understanding the deviations is the core of the task.

v. The task focuses on performances for which students’ learning experiences have prepared them (opportunity to learn considerations).

Consider the ways in which provided information about students’ prior learning (e.g., instructional materials, storylines, assumed instructional experiences) enables or prevents students’ engagement with the task and educator interpretation of student responses.

No outside knowledge required beyond basic kinetic theory.

vi. The task presents information that is scientifically accurate.

Describe evidence of scientific inaccuracies explicitly or implicitly promoted by the task.

Yes, their responses reflect their understanding of the deviations.

Evidence of quality for Criterion C: [ ] No [ ] Inadequate [x] Adequate [ ] Extensive

Suggestions for improvement of the task for Criterion C:

None.

Criterion D. Tasks support their intended targets and purpose.

Before you begin:

  1. Describe what is being assessed. Include any targets provided, such as dimensions, elements, or PEs:

Formative assessment to evaluate students’ understanding of the kinetic molecular theory, ideal vs. real gas behavior.

  1. What is the purpose of the assessment? (check all that apply)

i. The task assesses what it is intended to assess and supports the purpose for which it is intended.

Consider the following:

  1. Is the assessment target necessary to successfully complete the task?

Yes, understanding the deviations is the core of the task.

  1. Are any ideas, practices, or experiences not targeted by the assessment necessary to respond to the task? Consider the impact this has on students’ ability to complete the task and interpretation of student responses.

No.

  1. Do the student responses elicited support the purpose of the task (e.g., if a task is intended to help teachers determine if students understand the distinction between cause and correlation, does the task support this inference)?

Yes, their responses reflect their understanding of the deviations.

ii. The task elicits artifacts from students as direct, observable evidence of how well students can use the targeted dimensions together to make sense of phenomena and design solutions to problems.

Consider what student artifacts are produced and how these provide students the opportunity to make visible their 1) sense-making processes, 2) thinking across all three dimensions, and 3) ability to use multiple dimensions together [note: these artifacts should connect back to the evidence described for Criterion B].

The completed analysis questions.

iii. Supporting materials include clear answer keys, rubrics, and/or scoring guidelines that are connected to the three-dimensional target. They provide the necessary and sufficient guidance for interpreting student responses relative to the purpose of the assessment, all targeted dimensions, and the three-dimensional target.

Consider how well the materials support teachers and students in making sense of student responses and planning for follow up (grading, instructional moves), consistent with the purpose of and targets for the assessment. Consider in what ways rubrics include:

  1. Guidance for interpreting student thinking using an integrated approach, considering all three dimensions together as well as calling out specific supports for individual dimensions, if appropriate:

Rubrics provide guidance for the integrated dimensions.

  1. Support for interpreting a range of student responses, including those that might reflect partial scientific understanding or mask/misrepresent students’ actual science understanding (e.g., because of language barriers, lack of prompting or disconnect between the intent and student interpretation of the task, variety in communication approaches):

Can interpret partial science understanding easily through the scaffolded steps.

  1. Ways to connect student responses to prior experiences and future planned instruction by teachers and participation by students:

Connections are clear.

iv. The task’s prompts and directions provide sufficient guidance for the teacher to administer it effectively and for the students to complete it successfully while maintaining high levels of students’ analytical thinking as appropriate.

Consider any confusing prompts or directions, and evidence for too much or too little scaffolding/supports for students (relative to the target of the assessment—e.g., a task is intended to elicit student understanding of a DCI, but their response is so heavily scripted that it prevents students from actually showing their ability to apply the DCI).

Clear directions without over-scripting.

Evidence of quality for Criterion D: [ ] No [ ] Inadequate [x] Adequate [ ] Extensive

Suggestions for improvement of the task for Criterion D:

None.

Overall Summary

Consider the task purpose and the evidence you gathered for each criterion. Carefully consider the purpose and intended use of the task, your evidence, reasoning, and ratings to make a summary recommendation about using this task. While general guidance is provided below, it is important to remember that the intended use of the task plays a big role in determining whether the task is worth students’ and teachers’ time.

This task effectively leverages the real gas simulation to allow students to generate and analyze data regarding gas behavior. The scenario is relevant and appropriately scaffolded, culminating in the “mystery gas” challenge.

Final recommendation (choose one):