Inspire Science: Chemistry
Core Code Alignment
Science
Chemistry
08030000010: Chemistry (9-12)
Chemistry
08030000010: Chemistry (9-12)
Recommendation
Recommended Primary
Evaluation
Recommended Primary
Educators Using These Materials
No educators found.
Rubric : Science 2025
Compliance with State Law (Required)
| Item | 3 - Extensive | 2 - Adequate | 1 - Inadequate | 0 - None | ||
|---|---|---|---|---|---|---|
| Sensitive Materials and Prohibited Submission 53G-10-103, R277-628 | This item has not been graded. | |||||
| Prohibited discriminatory practices 53G-2-103-5, 53B-1-118 and 67-27-107 | This item has not been graded. | |||||
| Maintaining constitutional freedom in the public schools. 53G-10-202 | This item has not been graded. | |||||
| Free from advertising, e-commerce, or political interest | This item has not been graded. | |||||
Standards
| Item | 3 - Extensive | 2 - Adequate | 1 - Inadequate | 0 - None | ||
|---|---|---|---|---|---|---|
| Presence of Three Dimensions of Science: Builds understanding of the science and engineering practices (SEPs), disciplinary core ideas (DCIs), and crosscutting concepts (CCCs). i. Provides opportunities to develop and use specific elements of the SEP(s) ii. Provides opportunities to develop and use specific elements of the DCI(s) iii. Provides opportunities to develop and use specific elements of the CCC(s) | 3 of the Criteria Indicators are met | 2 of the Criteria Indicators are met | 1 of the Criteria Indicators are met | None of the Criteria Indicators are met | ||
| Recommended Primary Resource The resource materials provided with the text such as question banks, activities, recommended teacher lesson progressions, etc strongly support 3d science. Options for project-based learning, engineering pieces, and implementation of phenomena. Students are asked to support evidence with claims and are provided multiple opportunities to use data, observations, graphs, charts and additional resource to drive inquiry and evidence-based conclusions. | ||||||
| Integration of Three Dimensions of Science: Materials integrate elements of the SEPs, CCCs, and DCIs for student sense‐making: Three dimensions of science (SEPs, CCCs, and DCIs) are integrated (consistently utilized in conjunction with each other) to help students make sense of phenomenon and solve problems. | Three dimensions of science (SEPs, CCCs, and DCIs) are consistently integrated. | Three dimensions of science are integrated in certain portions of the instructional material. | Three dimensions of science are rarely integrated in the instructional material. | Three dimensions of science (SEPs, CCCs, and DCIs) are separated and not integrated for student sense making. | ||
| The resource materials provided with the text such as question banks, activities, recommended teacher lesson progressions, etc strongly support 3d science. Options for project-based learning, engineering pieces, and implementation of phenomena. Students are asked to support evidence with claims and are provided multiple opportunities to use data, observations, graphs, charts and additional resource to drive inquiry and evidence-based conclusions. Suggested teacher guides provided with resources support 3D science. However, there is much more content and activities than would be able to be covered in any course. If an entire rigid story line needs to be followed as suggested for the content to make sense, there is simply too much content to fit in a school year. | ||||||
| Alignment to Standards: The DCI Concepts (science content) in the instructional materials align to the Utah Science with Engineering Education (SEEd) Standards | DCI concepts (science content) in the instructional material align to 100% the SEEd Standards for the Grade/Course. | DCI concepts (science content) in the instructional material align to 75% the SEEd Standards for the Grade/Course. | DCI concepts (science content) in the instructional material align to 50% the SEEd Standards for the Grade/Course. | DCI concepts (science content) in the instructional material align to less than 50% the SEEd Standards for the Grade/Course. | ||
| All of the required DCI content for the state of Utah SEEd standards are addressed in the materials. However, the amount of additional content (above and beyond NGSS and/or Utah standards) is cumbersome and difficult to navigate to the necessary materials. Teachers would need to carefully align Utah standards with the provided materials to find the resources that most clearly match student learning objectives. | ||||||
| Scientific Accuracy: Uses scientifically accurate and grade‐appropriate scientific information, phenomena, and representations to support students’ three‐dimensional learning. | Instructional materials are scientifically accurate and grade appropriate. | N/A | N/A | Instructional materials are NOT scientifically accurate and grade appropriate. | ||
| The content is accurate and research-based. The level of content is too deep for many introductory-level courses as written, but would potentially fit well with honor's or higher level courses. | ||||||
Pedagogy
| Item | 3 - Extensive | 2 - Adequate | 1 - Inadequate | 0 - None | ||
|---|---|---|---|---|---|---|
| Focus on Phenomena (Science) or Problems (Engineering): Making sense of phenomena and/or designing solutions to a problem drive student learning. i. Student questions and prior experiences related to the phenomenon or problem motivate sense‐making and/or problem solving ii. The focus of the lesson is to support students in making sense of phenomena and/or designing solutions to problems iii. When engineering is a learning focus, it is integrated with developing disciplinary core ideas from physical, life, and/or earth and space sciences | 3 of the Criteria Indicators are met | 2 of the Criteria Indicators are met | 1 of the Criteria Indicators are met | None of the Criteria Indicators are met | ||
| The focus is on presenting phenomena first, with specific project-based learning activities and engineering integration for many units and/or modules. | ||||||
| Scaffolding: Identifies and builds on students’ prior learning in all three dimensions i. Provides supports to help students engage in the practices and gradually adjusts supports over time so that students are increasingly responsible for making sense of phenomena and/or designing solutions to problems (Required) ii. Explicitly identifies prior student learning expected for all three dimensions iii. Clearly explains how the prior learning will be built upon | 3 of the Criteria Indicators are met | 2 of the Criteria Indicators are met (i MUST BE MET) | Only Criteria Indicator i has been met | None of the Criteria Indicators are met | ||
| Lesson progression provides for increased depth and complexity throughout a unit and chapter, adjusting support throughout the activities. Did not explicitly identify prior student learning or how the learning will be built upon. | ||||||
| Teacher Supports: Supports teachers in facilitating coherent student learning experiences over time i. Provides strategies for linking student engagement across lessons (e.g. cultivating new student questions at the end of a lesson in a way that leads to future lessons) ii. Providing strategies for ensuring student sense‐making and/or problem‐solving is linked to learning in all three dimensions (e.g. Claim Evidence Reasoning-CER Framework for communicating sense-making, teacher probing questions) iii. Provides additional resources for student learning (e.g. Models, simulations, and/or data sets for students investigation) | 3 of the Criteria Indicators are met | 2 of the Criteria Indicators are met | 1 of the Criteria Indicators are met | None of the Criteria Indicators are met | ||
| Teacher supporting materials are extremely robust. The resource materials provided with the text such as question banks, activities, recommended teacher lesson progressions, etc strongly support 3d science. Options for project-based learning, engineering pieces, and implementation of phenomena. Students are asked to support evidence with claims and are provided multiple opportunities to use data, observations, graphs, charts and additional resource to drive inquiry and evidence-based conclusions. Suggested teacher guides provided with resources support 3D science. However, there is much more content and activities than would be able to be covered in any course. If an entire rigid story line needs to be followed as suggested for the content to make sense, there is simply too much content to fit in a school year. Teachers would need to carefully select among the wide variety of activities to best fit student needs. Additionally, teacher-probing questions to assess and build upon student knowledge and reasoning would be useful in implementation. | ||||||
| Assessments: Includes formative, summative, and guidance measures for interpreting student performances that assess three‐dimensional science learning. i. Embeds formative assessment processes throughout conceptual development that surfaces student understanding to inform instruction ii. Embeds summative assessment processes following conceptual development that evaluate student learning and measure understanding iii. Includes aligned rubrics or scoring guidelines that provide guidance for interpreting student performance | 3 of the Criteria Indicators are met | 2 of the Criteria Indicators are met | 1 of the Criteria Indicators are met | None of the Criteria Indicators are met | ||
| Lesson checks are present throughout the text for formative assessment. Answer keys for are provided for a wide variety of assessment activities including multiple choice questions, short answer, etc. These banks do not have a wide variety of questions that integrate 3d science. However, the elements of 3D science can be evaluated using grading rubrics for projects, engineering pieces, and other phenomenon-based activities. | ||||||
Accessibility
| Item | 3 - Extensive | 2 - Adequate | 1 - Inadequate | 0 - None | ||
|---|---|---|---|---|---|---|
| Relevant and Authentic: Engages students in authentic and meaningful scenarios that reflect the practice of science and engineering as experienced in the real world. i. Students experience phenomena or design problems as directly as possible (first-hand or through media representations) ii. Includes suggestions for how to connect instruction to the students' home, neighborhood, community and/or culture as appropriate iii. Provides opportunities for students to connect their explanation of a phenomenon and/or their design solution to a problem to questions from their own experience | 3 of the 4 Criteria Indicators are met | 2 of the 4 Criteria Indicators are met | 1 of the 4 Criteria Indicators are met | None of the 4 Criteria Indicators are met | ||
| Several phenomenon, project-based learning activities, etc are available which support an authentic and meaningful real-world applications of important and engaging concepts. | ||||||
| Teacher Supports for Diverse Learners: Provides guidance for teachers to support differentiated instruction i. Includes appropriate reading, writing, listening, and/or speaking alternatives (e.g., translations, picture support, graphic organizers, etc.) for students who are English language learners, have special needs, or read well below grade level ii. Provides extra support (e.g., phenomena, representations, tasks) for students who are struggling to meet the targeted expectations iii. Provides extensions for students with high interest or who have already met the performance expectations to develop a deeper understanding of the practices, disciplinary core ideas, and crosscutting concepts | 3 of the Criteria Indicators are met | 2 of the Criteria Indicators are met | 1 of the Criteria Indicators are met | None of the Criteria Indicators are met | ||
| Material is presented in a wide variety of formats with engaging images, graphic organizers, etc. Text to speech provides a way to support students with below-level reading levels. Structure of text allows for frequent summary, support for understanding, and easily identifying main ideas. Although there are many strengths to a fully online and interactive course, there are concerns about the integrations of these resources that appear to be used fully online in a setting in which each student has access equal at home and school to appropriate devices to support the learning experiences. Consider providing students requiring printed version access. | ||||||
| Accessible for all students: Engages students using methods, vocabulary, representations, and examples that are accessible and unbiased for all learners (e.g., Deaf and Blind, English Learners, Gifted and Talented, Special Education). | Instructional Materials are accessible for all students | N/A | N/A | Instructional Materials are NOT accessible for all students | ||
| Much of the content is written to a higher-level of students. Teachers would need to carefully select among the available materials to find resources that best address the students' needs. Text to speech options are available, as well as Spanish versions of the text. An in-book dictionary to support English learners would be support vocabulary development. | ||||||
| Physical Characteristics | This item has not been graded. | |||||
| Technical Standards | This item has not been graded. | |||||
| Ethnic Studies- (Ethnic studies in core standards and curriculum should be a narrowly tailored incorporation of age-appropriate opportunities that naturally arise through education without pretextual effort in courses, programs, or activities where ethnic studies is not a primary focus. The material should incorporate a curriculum of people and cultures that reflect the state’s various demographics without commentary that seeks to violate the neutrality standard established in codes: 53B-1-118, 53G-2-103, 53G-2-104, 53G-2-105, 67-27-107, | This item has not been graded. | |||||
| Shared Values and Character Traits | This item has not been graded. | |||||
UTAH STATE BOARD OF EDUCATION
250 East 500 South
Salt Lake City, UT 84111-3204
Phone: 801.538.7807