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Please indicate certification type:


_______ STEM School Certification

_______STEM Program Certification
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Indiana Department of Education STEM Certification Evaluation Rubric
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NOTE: Essential Elements are identified in gray
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Domain 1: Culture
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ElementInvestigatingDeveloping Approaching InnovatingElement ScoreEvidenced By:
(Examples listed below. You may choose your own evidence to support your score).
References
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0 points1 point2 points3 points
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1.1 Decision-MakingDoes not yet meet minimum indicators for developingDecision-making regarding planning and implementing the school's STEM program is the work of a school team, comprised of administrators, and teachers, and includes the opportunity for feedback on the program from at least 50 percent of the STEM program's certified staffDecision-making regarding planning and implementing the school's STEM program is the work of a school team, comprised of administrators, and teachers, and includes the opportunity for feedback on the program from at least 75 percent of the STEM program's certified staffDecision-making regarding planning and implementing the school's STEM program is the work of a school team, comprised of administrators, and teachers, and includes the opportunity for feedback on the program from at least 95 percent of the STEM program's certified staff3Required:
•Roster of team members identifed by role (i.e., Admin, Teacher, etc.)
•Mechanism for collecting STEM program feedback by certified staff

Additional Evidence:
•Meeting schedule
•Detailed meeting minutes
•Meeting agenda(s)
8, 9, 10, 22, 23
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1.2 Learning ModalitiesDoes not yet meet minimum indicators for developingThe school's STEM program's has an explicit plan for continuity of STEM learning regardless of modality (in-person, remote, or hybrid) including one of the following:

1. Integrated STEM lessons in the context of solving a real world problem.
2. Students work in a team either synchronously or asynchronously.
3. A variety of methods are used to assess STEM learning.
The school's STEM program's has an explicit plan for continuity of STEM learning regardless of modality (in-person, remote, or hybrid) including two of the following:

1. Integrated STEM lessons in the context of solving a real world problem.
2. Students work in a team either synchronously or asynchronously.
3. A variety of methods are used to assess STEM learning.
The school's STEM program's has an explicit plan for continuity of STEM learning regardless of modality (in-person, remote, or hybrid) including each of the following:

1. Integrated STEM lessons in the context of solving a real world problem.
2. Students work in a team either synchronously or asynchronously.
3. A variety of methods are used to assess STEM learning.
3Required:
•School's Continuous Learning Plan
•Explicit plan for STEM learning that addresses various learning modalities
20
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1.3 Common Work TimeDoes not yet meet minimum indicators for developingCommon work time is provided, on a monthly basis, where teachers, in the STEM program, plan integrated STEM learning opportunities as an interdisciplinary teamCommon work time is provided, on a bi-weekly basis, where teachers, in the STEM program, plan integrated STEM learning opportunities as an interdisciplinary teamCommon work time is provided, on a weekly basis, where teachers plan, in the STEM program, integrated STEM learning opportunities as an interdisciplinary team3Required:
•Meeting/master schedule
•Sample Integrated STEM Lesson Plans
•Meeting minutes reflecting interdisciplinary planning

Additional Evidence:
•Roster of participants
•Detailed meeting minutes documenting the
planning
4, 6, 8, 9, 10, 14, 15, 18, 23
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1.4 Sustainability PlanDoes not yet meet minimum indicators for developingThere is a two-year STEM certification sustainability plan in place including funding sources for both technology and STEM curriculum and training needs due to staff turnoverThere is a three-year STEM certification sustainability plan in place identifying funding sources for both technology and STEM curriculum and training needs due to staff turnoverThere is a five-year STEM certification sustainability plan in place identifying funding sources for both technology and STEM curriculum and training needs due to staff turnover2Required:
•Technology plan
•Curriculum funding plan
Training plan
(Documentation should include a plan to sustain programming/equipment/training for the 5-years of certification.)
8, 9, 10, 14, 23, 24
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1.5 Measurement of
Students'
Attitudes/Interests
Does not yet meet minimum indicators for developingInformal methods are used to measure students' attitudes toward STEM and/or interest in STEM classes/career pathways and the school's STEM program is revised, as needed, based upon analysis of this dataFormal measurement of students' attitudes toward STEM and/or interest in STEM classes/career pathways are measured on an annual basis and the school's STEM program is revised, as needed, based upon analysis of this dataFormal measurement of students' attitudes toward STEM and/or interest in STEM classes/career pathways are measured at least two times per school year and the school's STEM program is revised, as needed, based upon analysis of this data2Required:
•Example of survey used, such as Student Attitudes toward STEM (S-STEM) Survey AND/OR STEM Semantics Survey AND/OR Locally created survey
•Detailed description of revisions based upon data analysis
•At least one full year of survey data
•Test of Science Related Attitudes (TOSRA)
•At least one full your of survey data

Additional Evidence:
•Career Interest Questionnaire
23, 26
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1.6 Student/Parent
Feedback Data
Does not yet meet minimum indicators for developingStudent or parent feedback regarding STEM integration is only collected on an informal basis and the school's STEM program is revised, as needed, based upon analysis of this dataThere is a formal collection of student and parent feedback regarding STEM integration on an annual basis and the school's STEM program is revised, as needed, based upon analysis of this dataThere is a formal collection of student and parent feedback regarding STEM integration on an annual basis and the school's STEM program is revised, as needed, based upon analysis of this data3Required:
•Copy of survey
•Summary of data
•Detailed description of revisions based upon data analysis
•At least one full year of survey data

Additional Evidence:
•Additional surveys
21, 23
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1.7 STEM Instructional
Feedback
Does not yet meet minimum indicators for developingOne of these indicators are documented:

1) Evaluation indicators have been determined, in the current local evaluation instument or through modifying the local evaluation instrument, for identifying targeted STEM instructional practices.
2) All evaluators are trained in observing targeted STEM instructional practices, using the local evaluation instrument
3) Evaluators incorporate feedback on targeted STEM instructional practices in formative and summative evaluations, using the local evaluation instrument
Two of these indicators are documented:

1) Evaluation indicators have been determined, in the current local evaluation instument or through modifying the local evaluation instrument, for identifying targeted STEM instructional practices.
2) All evaluators are trained in observing targeted STEM instructional practices, using the local evaluation instrument
3) Evaluators incorporate feedback on targeted STEM instructional practices in formative and summative evaluations, using the local evaluation instrument
All of these indicators are documented:

1) Evaluation indicators have been determined, in the current local evaluation instument or through modifying the local evaluation instrument for identifying targeted STEM instructional practices.
2) All evaluators are trained in observing targeted STEM instructional practices, using the local evaluation instrument
3) Evaluators incorporate feedback on targeted STEM instructional practices in formative and summative evaluations, using the local evaluation instrument
3Required:
•Documentation of training for evaluators with the evaluation document specific to STEM components.
•Samples of feedback provided to teachers
•List of identified indicators targeting STEM instructional practices from local evaluation instrument

Additional Evidence:
•Locally created evaluation tool
1, 12
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1.8 Instructional Support
Does not yet meet minimum indicators for developingAt least 75 percent of teachers, in the STEM program, experience at least one of these forms of instructional supports, related to STEM instruction bi-annually:

1) peer observation
2) lesson study
3) critical feedback
4) coaching
5) modeling
6) action research
7) mentoring
At least 75 percent of teachers, in the STEM program, experience at least one of these forms of instructional supports, related to STEM instruction, on a quarterly basis:

1) peer observation
2) lesson study
3) critical feedback
4) coaching
5) modeling
6) action research
7) mentoring
At least 75 percent of teachers experience at least one of these forms of instructional supports, related to STEM instruction, on a monthly basis:

1) peer observation
2) lesson study
3) critical feedback
4) coaching
5) modeling
6) action research
7) mentoring
3Required:
•Summary of supports provided using teacher
roster

Additional Evidence:
•Sample of teacher reflections (journaling)
based on provided supports
•Summary of survey responses based upon
provided supports
5, 8, 9, 10, 11, 14, 16, 17, 18, 22
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1.9 STEM Communications
Does not yet meet minimum indicators for developingCommunication tools (e.g., website, newsletters, social media, webinars, meetings, etc.) are used two-three times per year to communicate about STEM educationCommunication tools (e.g., website, newsletters, social media, webinars, meetings, etc.) are used eight-10 times per year to communicate about STEM education Communication tools (e.g., website, newsletters, social media, webinars, meetings, etc.) are used two-three times per month to communicate about STEM education3Required:
•Samples of STEM-focused social media posts or other communication tools
(Choose one month to document)

Additional Evidence:
•Links to STEM communications
•Calendar of STEM communications
•STEM communication plan
8, 9, 10, 14, 17, 23
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1.10 EquityDoes not yet meet minimum indicators for developingElementary: At least 50 percent of students participate in integrated STEM instruction/programming as part of core instruction

Middle School and High School: STEM elective enrollment, including but not limited to AP/dual credit, is within 50 percent of school demographics

HS STEM Program: STEM program enrollment, including but not limited to AP/dual credit, is within 75 percent of school demographics.
Elementary: At least 75 percent of students participate in integrated STEM instruction/programming, other than related arts classes

Middle School and High School: STEM elective enrollment, including AP/dual credit, is within 25 percent of school demographics

HS STEM Program: STEM program enrollment, including but not limited to AP/dual credit, is within 90 percent of school demographics.
Elementary: 100 percent of students participate in integrated STEM instruction/programming, other than related arts classes

Middle School and High School: STEM elective enrollment, including AP/dual credit, mirrors school demographics

HS STEM Program: STEM program enrollment, including but not limited to AP/dual credit, mirrors school demographics.
3Required:
•Course offerings (MS/HS)
•School schedule
•STEM enrollment data with comparison to overall student body data (Special Education Status, Gender, race, economically disadvantaged, etc.)
•Description of how STEM time is "protected" from pull-outs for special programming (Title I, Resource, Remediation, etc.)

Additional Evidence:
•Curriculum maps
•MS/HS STEM programming promotion plan
1, 8, 9, 10, 14, 17, 18, 19, 25
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Culture Score:28
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Domain 2: Curriculum
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ElementInvestigatingDeveloping Approaching InnovatingElement ScoreEvidenced By:
(Examples listed below. You may choose your own evidence to support your score).
References
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0 points1 point2 points3 points
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2.1 Curriculum Integration
Does not yet meet minimum indicators for developingAt least 10 percent of planned, integrated STEM curriculum is evidence-based

HS STEM program: At least 25 percent of planned, integrated STEM curriculum is evidence-based
At least 25 percent of planned, integrated STEM curriculum is evidence-based

HS STEM program: At least 50 percent of planned, integrated STEM curriculum is evidence-based
At least 50 percent of planned, integrated STEM curriculum is evidence-based

HS STEM program: At least 75 percent of planned, integrated STEM curriculum is evidence-based
3Required:
•Curriculum from IDOE approved list OR
•Description of model that is the basis for
teacher-created units and/or other providers
(e.g., 5-E, PBL Gold Standard, etc.) OR
•Research conducted to justify curriculum selection
•Implementation plan
1, 7, 8, 9, 10, 14, 18, 23
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2.2 Computer ScienceDoes not yet meet minimum indicators for developingA computer science implementation plan has been developed that complies with IC 20-30-5-23Elementary and Middle School: Standards-based computer science content is incorporated into the school curriculum for at least 50 percent of students

High School: One computer science course is available to all students
Elementary and Middle School: Standards-based computer science content is incorporated into the school curriculum for 100 percent of students

High School: Multiple computer science courses are available to all students
3Required:
•Implementation plan
•Course list/guide
•Course enrollment/completion data

Additional Evidence:
•Master schedule with protected time
1, 8, 9, 10
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2.3 Employability Skills Does not yet meet minimum indicators for developingEmployability Skills Standards, based upon the appropriate grade band, are integrated into the school curriculum for at least 50 percent of studentsEmployability Skills Standards, based upon the appropriate grade band, are integrated into the school curriculum for at least 75 percent of students.Employability Skills Standards, based upon the appropriate grade band, are integrated into the school curriculum for 100 percent of students3Required:
•Curriculum maps/program summary

Additional Evidence:
•Samples of unit/lesson plans
•Samples of student products
•Samples of rubrics
1, 6, 8, 9, 10, 11, 14
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2.4 EquityDoes not yet meet minimum indicators for developingGeneral education teachers create STEM materials for diverse learners based upon their understanding of students' academic needsSpecial education teachers and support services teachers (ENL, Interpreters, etc...) provide accommodations and/or adaptations of STEM materials for diverse learners based upon their understanding of students' academic needsGeneral education teachers and appropriate special education teachers and support services teachers (ENL, Interpreters, etc...) collaboratively plan for necessary STEM material development and refinement for diverse learners based upon their understanding of students' academic needs3Required:
•Samples of collaborative lesson plans with planned supports
•Description of collaborative work

Additional Evidence:
•Meeting agenda(s)
•Guidance documents
2
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2.5 AssessmentsDoes not yet meet minimum indicators for developing
At least 25 percent of teachers use a variety of assessment methods for students to demonstrate STEM learning

HS STEM Programs: At least 50 percent of teachers use a variety of assessment methods for student to demonstrate STEM learning
At least 50 percent of teachers use a variety of assessment methods for students to demonstrate STEM learning

HS STEM Programs: At least 75 percent of teachers use a variety of assessment methods for student to demonstrate STEM learning
At least 75 percent of teachers use a variety of assessment methods for students to demonstrate STEM learning

HS STEM Programs: At least 90 percent of teachers use a variety of assessment methods for student to demonstrate STEM learning
2Required:
•Samples of assessments
•Samples of feedback provided to students
•Samples of rubrics

Additional Evidence:
•Samples of student products
8, 9, 10, 17, 23
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Curriculum Score:14
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Domain 3: Instruction
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ElementInvestigatingDeveloping Approaching InnovatingElement ScoreEvidenced By:
(Examples listed below. You may choose your own evidence to support your score).
References
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0 points1 point2 points3 points
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3.1 STEM Instructional
Approach Training
Does not yet meet minimum indicators for developingAt least 10 percent of teachers have been trained in implementing a STEM instructional approach in the context of solving a real-world problem or challenge.

HS STEM Programs: At least 50 percent of teachers have been trained in implementing a STEM instructional approach in the context of solving a real-world problem or challenge.
At least 25 percent of teachers have been trained in implementing a STEM instructional approach in the context of solving a real-world problem or challenge

HS STEM Programs: At least 75 percent of teachers have been trained in implementing a STEM instructional approach in the context of solving a real-world problem or challenge.
At least 50 percent of teachers have been trained in implementing a STEM instructional approach in the context of solving a real-world problem or challenge

HS STEM Programs: At least 90 percent of teachers have been trained in implementing a STEM instructional approach in the context of solving a real-world problem or challenge.
3Required:
•Summary/documentation of PBL/IBL training that has taken place
•Roster of participants

Additional Evidence:
•Agenda(s) from PD/training session(s)
(This element is about formal training.)
8, 9, 10, 14, 17, 21, 22
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3.2 STEM Instructional
Approach
Implementation
Does not yet meet minimum indicators for developingAt least 10 percent of teachers use a STEM instructional approach in the context of solving a real-world problem or challengeAt least 25 percent of teachers use a STEM instructional approach in the context of solving a real-world problem or challengeAt least 50 percent of teachers use a STEM instructional approach in the context of solving a real-world problem or challenge3Required:
•Samples of unit/lesson plans
•Curriculum maps
•List/calendar of teachers implementing PBL/IBL and frequency

Additional Evidence:
•Samples of student products
1, 3, 6, 7, 8, 9, 10, 14, 17, 23
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3.3 Student Instructional
Work Groups
Does not yet meet minimum indicators for developing
At least two times per month and in at least 50 percent of classes, students work in groups as follows:

1) Students collaborate with peers based upon STEM project/intended outcomes
2) Each group member has at least one well-defined assigned role that is critical to successful project/goal completion
3) Accountability is measured and recorded for each individual as well as the entire group
At least one time per week and in at least 50 percent of classes, students work in groups as follows:

1) Students collaborate with peers based upon STEM project/intended outcomes
2) Each group member has at least one well-defined assigned role that is critical to successful project/goal completion
3) Accountability is measured and recorded for each individual as well as the entire group
At least two times per week and in at least 50 percent of classes, students work in groups as follows:

1) Students collaborate with peers based upon STEM project/intended outcomes
2) Each group member has at least one well-defined assigned role that is critical to successful project/goal completion
3) Accountability is measured and recorded for each individual as well as the entire group
3Required:
•Samples of unit/lesson plans
•Defined roles/responsibilities plans
•Accountability plans
•List of teachers implementing STEM approach and frequency of group work
NOTE: Evidence provided must support the metric

Additional Evidence:
•Group assignment processes
•Samples of rubrics
•Examples of student voice in roles
3, 8, 9, 10, 13, 14, 23
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3.4 Technology in Instruction
Does not yet meet minimum indicators for developingStudents use a variety of technologies in innovative ways to enhance their STEM learning through investigations and problem solving (e.g., data collection/analysis, design, creation, virtual simulations, research and communication) at least 10 percent of the timeStudents use a variety of technologies in innovative ways to enhance their STEM learning through investigations and problem solving (e.g., data collection/analysis, design, creation, virtual simulations, research and communication) at least 25 percent of the timeStudents use a variety of technologies in innovative ways to enhance their STEM learning through investigations and problem solving (e.g., data collection/analysis, design, creation, virtual simulations, research and communication) at least 50 percent of the time3Required:
•Examples of technologies used
•Samples of student products
•Data to support percentage of usage

Additional Evidence:
•Samples of unit/lesson plans
1, 8, 9, 10, 14, 17, 23
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3.5 STEM IntegrationDoes not yet meet minimum indicators for developingAt least 10 percent of teachers are implementing the planned integrated STEM learning opportunities on a quarterly basis (see 1.3)

HS STEM Programs: At least 50 percent of teachers are implementing the planned integrated STEM learning opportunities on a quarterly basis
At least 25 percent of teachers are implementing the planned integrated STEM learning opportunities on a quarterly basis (see 1.3)

HS STEM Programs: At least 75 percent of teachers are implementing the planned integrated STEM learning opportunities on a quarterly basis
At least 50 percent of teachers are implementing the planned integrated STEM learning opportunities on a quarterly basis (see 1.3)

HS STEM Programs: At least 90 percent of teachers are implementing the planned integrated STEM learning opportunities on a quarterly basis
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Required:
•Samples of unit/lesson plans
•Instructional calendar or curriculum map

Additional Evidence:
•Samples of student products
(This element refers to the collaborative lessons planned during common work time.)
1, 3, 7, 8, 9, 10, 11, 17
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Instruction Score:15
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Domain 4: Partnerships
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ElementInvestigatingDeveloping Approaching InnovatingElement ScoreEvidenced By:
(Examples listed below. You may choose your own evidence to support your score).
References
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0 points1 point2 points3 points
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4.1 Community Partner
Feedback
Does not yet meet minimum indicators for developingA STEM Advisory Board is established consisting of at least one local community partner that provides feedback on the school's STEM program.A STEM Advisory Board is established consisting of at least two local community partners, from different sectors, that provide feedback on the school's STEM program.A STEM Advisory Board is established consisting of at least three local community partners, from different sectors, that provide feedback on the school's STEM program.3Required:
•Roster of Community Advisory Board members
•Community Partner planning feedback
•Summary of revisions made based on STEM Advisory Board feedback

Additional Evidence:
•Detailed meeting minutes
•Agenda(s)
•Roster of participants
•Copy of survey(s)
(This element is about program planning)
1, 4, 11, 23
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4.2 STEM Career Exploration
Does not yet meet minimum indicators for developingElementary and Middle School: At least 10 percent of STEM units have career exploration/information as a part of the curriculum

High School: At least 10 percent of students have direct experiences with STEM professionals and/or professional STEM work environments quarterly

HS STEM Programs: At least 50 percent of students have direct experiences with STEM professionals and/or professional STEM work environments quarterly
Elementary and Middle School: At least 25 percent of STEM units have career exploration/information as a part of the curriculum

High School: At least 25 percent of students have direct experiences with STEM professionals and/or professional STEM work environments quarterly

HS STEM Programs: At least 75 percent of students have direct experiences with STEM professionals and/or professional STEM work environments quarterly
Elementary and Middle School: At least 50 percent of STEM units have career exploration/information as a part of the curriculum

High School: At least 50 percent of students have direct experiences with STEM professionals and/or professional STEM work environments quarterly

HS STEM Programs: At least 90 percent of students have direct experiences with STEM professionals and/or professional STEM work environments quarterly
3Required:
•Curriculum summary
•Documentation of participation

Additional Evidence:
•Samples of unit/lesson plans
•Samples of student products
1, 4, 8, 9, 10, 11, 23
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4.3 Community Engagement
Does not yet meet minimum indicators for developingOne to two local community partners are actively engaged in the STEM programThree to four local community partners are actively engaged in the STEM programFive or more local community partners are actively engaged in the STEM program3Required:
•List of partners with description of participation/engagement provided by each partner

Additional Evidence:
•Pictures , flyers, etc. of school engagement
(This element is about implementation of
supports)
1, 4, 8, 9, 10, 11, 14, 22, 23
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4.4 Extended LearningDoes not yet meet minimum indicators for developing
STEM activities such as robotics and engineering clubs, internships, and apprenticeships are available and accessible by at least 10 percent of students in an on-going basis and participation mirrors school demographics
STEM activities such as robotics and engineering clubs, internships, and apprenticeships are available and accessible by at least 25 percent of students in an on-going basis and participation mirrors school demographicsSTEM activities such as robotics and engineering clubs, internships, and apprenticeships are available and accessible by at least 50 percent of students in an on-going basis and participation mirrors school demographics1
Required:
•Summary of opportunities
•Transportation options
•Latchkey options
•Demographic summary of participants compared to school demographics

Additional Evidence:
•Calendar of events
1, 11, 17, 18
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4.5 EquityDoes not yet meet minimum indicators for developingProvides at least one opportunity/mode, with an action plan, to inspire and inform under-represented student groups about careers in STEM fields.Provides at least two opportunities/modes, with an action plan, to inspire and inform under-represented student groups about careers in STEM fields.
Provides at least three opportunities/modes, with an action plan, to inspire and inform under-represented students group about careers in STEM fields.3Required:
•Summary of opportunities
•Action plan to inspire/inform under-represented students groups
•Interactions with STEM professionals from ALL race, ethnic, and gender groups

Additional Evidence:
•Pictures of displays/posters in school common areas depicting under-represented groups
1, 8, 9, 10, 19
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Partnerships Score:13
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Total Score70 (out of 75)
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Key Terminology
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TermDefinitionResources
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Computer Science Computer science is defined by the content found in Indiana's Computer Science StandardsIC 20-30-5-23
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Continuity of Learning The continuation of education in the event of a prolonged school closure or student absence.PBLWorks
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Developing a Community of Inquiry in Your Blended Classroom
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CultureThe way teachers and other staff members work together and the set of beliefs, values, and assumptions they share.WestED
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CurriculumThe lessons and academic content taught in a school or in a specific course or program. IDOE STEM
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Curriculum IntegrationThe materials and pedagogical strategies used by multidisciplinary teams of teachers collaborate to plan and present related lessons that center around a central theme, issue or problem.ConnectEd
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Employability SkillsA group of essential abilities that involve the development of a knowledge base, expertise level and mindset that is increasingly necessary for success in the modern workplace. IC 20-30-5-14 states that, not later than July 1, 2019, each school within a school corporation shall include interdisciplinary employability skills standards established by the department, in conjunction with the department of workforce development, and approved by the state board in the school's curriculum.IDOE Resources
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IC 20-30-5-23
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Inquiry-Based InstructionA pedagogy that can be used to deliver lessons on a daily basis in the primary disciplines and beyond. It begins with the teacher presenting the students with a question to explore or having students develop their own questions. As the students investigate the question, they give priority to evidence that is gathered through research and exploring and formulate explanations to describe their findings based on evidence or data collected. Students connect explanations to their knowledge and current understandings in the discipline and then communicate and justify their explanations.American Association for the Advancement of Science Resource
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Problem-Based and/or Project-Based CurriculumGenerally spans one to several weeks of instruction that should be delivered in an integrated manner including science, mathematics, and other disciplines to show authentic connections.IDOE Approved List
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Problem-Based and/or Project-Based Learning (PBL) A pedagogy that anchors the teaching of disciplinary content in the context of solving a real-world problem or challenge.Ford NGL
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PBLWorks
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Magnify Learning
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Community PartnersBusiness, higher-education, community organizationsGeorgia STEM/STEAM Model
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STEM EducationSTEM education is the integration of the science, technology, engineering and math disciplines with the goal of deploying problem/project/inquiry-based approaches to teaching and learning in the classroom, while developing critical thinking skills and creating pathways to postsecondary and career opportunities.Six-Year Indiana STEM Strategic Plan
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STEM InstructionThe integration of the science, technology, engineering and math disciplines with the goal of deploying problem/project/inquiry-based approaches to teaching and learning in the classroom, while developing critical thinking skills and creating pathways to postsecondary readiness and career opportunities.Six-Year Indiana STEM Strategic Plan
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NRC Resource
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STEM Instructional ApproachAccepted STEM instructional approaches referenced in the Six-Year Indiana STEM Strategic Plan are:
-Problem-based approaches
-Project-based approaches
-Inquiry-based approaches
Six-Year Indiana STEM Strategic Plan
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Under-Represented StudentsFemales, minorities, and students with disabilitiesNSF Report
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