Access and Barriers to Science, Technology, Engineering, and Mathematics (STEM) Education for K–12 Students with Disabilities and Females

STEM (science, technology, engineering and mathematics) education has been gaining increasing nationwide attention. While the STEM movement has ambitious goals for k-12 education, a lack of shared understanding exists of what STEM is as well as how to implement STEM in the elementary classroom. This study investigates how seven elementary teachers in three STEM academy schools conceptualize and implement STEM in their classrooms. Teacher interviews were conducted. The findings reveal that the majority of teachers believe that STEM education involves integrating STEM subject areas. STEM activities consisted of student-led research and reading activities on STEM topics. Two teachers described STEM as involving “hands-on” science activities. Teachers at each STEM academy school conceptualized and implemented STEM differently. How STEM was implemented at each school was based on how teachers interpreted STEM and the resources they had access to. The STEM coaches played a central role in supporting the elementary teachers to plan and implement lessons. Teachers relied on them for ideas to plan and teach STEM lessons. The results of this study indicate that as more schools embrace the STEM movement, a unified understanding and resources are needed to support teachers.

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Fixing STEM Workforce and Teacher Shortages: How Goal Congruity Can Inform Individuals and Institutions

Policy Insights from the Behavioral and Brain Sciences ◽

10.1177/2372732217747889 ◽

2018 ◽

Vol 5 (1) ◽

pp. 11-18 ◽

Cited By ~ 3

Author(s):

Amanda B. Diekman ◽

Tessa M. Benson-Greenwald

Keyword(s):

Stem Education ◽

Educational Institutions ◽

Teacher Shortages ◽

Recruitment And Retention ◽

Occupational Roles ◽

Science Technology ◽

Education Careers ◽

Stem Workforce ◽

And Mathematics ◽

K 12

As demands increase for individuals with expertise in science, technology, engineering, and mathematics (STEM), educational institutions and workplaces seek to identify strategies to recruit and retain talented individuals in STEM pathways. We investigate recruitment and retention into the STEM workforce and into primary and secondary STEM education careers by analyzing whether a particular role allows an individual to fulfill goals. The two occupational pathways reviewed here pose different goal congruity challenges: The STEM workforce seems to lack communal (other-oriented) goal opportunities, but math and science K-12 teaching seems to lack agentic (self-oriented) goal opportunities. Restructuring educational and occupational roles to maximize the pursuit of valued goals can encourage STEM recruitment and retention.

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Equity-Centered Design Thinking in STEM Instructional Leadership

Journal of Cases in Educational Leadership ◽

10.1177/1555458920975452 ◽

2020 ◽

pp. 155545892097545

Author(s):

Deena Khalil ◽

Meredith Kier

Keyword(s):

Stem Education ◽

Design Thinking ◽

Equal Opportunity ◽

Instructional Leaders ◽

College And Career ◽

Science Technology ◽

Problems Of Practice ◽

And Mathematics ◽

K 12 ◽

College And Career Ready

In the past decade, STEM (science, technology, engineering, and mathematics) instructional leaders have struggled with how to interpret and implement K–12 standards-based education so that minoritized learners have equal opportunity to be college and career ready. An equity-centered design thinking approach can support leaders to interrogate the often-time divergent values of stakeholders so they may collaboratively identify and address the problems of practice in STEM education. By considering the ethos and strategies necessary to intentionally center equity by design, this case presents prospective leaders the opportunity to practice converging divergent needs and beliefs about STEM education while they ideate solutions grounded in the experiences of minoritized learners.

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Optimistic Fiction as a Tool for Ethical Reflection in STEM

Journal of Academic Ethics ◽

10.1007/s10805-021-09405-5 ◽

2021 ◽

Author(s):

Kathryn Strong Hansen

Keyword(s):

Science Fiction ◽

Stem Education ◽

Role Models ◽

Professional Ethics ◽

Ethical Issues ◽

Ethical Reflection ◽

Field Of Study ◽

Science Technology ◽

And Mathematics ◽

Ethics Guidelines

AbstractGreater emphasis on ethical issues is needed in science, technology, engineering, and mathematics (STEM) education. The fiction for specific purposes (FSP) approach, using optimistic science fiction texts, offers a way to focus on ethical reflection that capitalizes on role models rather than negative examples. This article discusses the benefits of using FSP in STEM education more broadly, and then explains how using optimistic fictions in particular encourages students to think in ethically constructive ways. Using examples of science fiction texts with hopeful perspectives, example discussion questions are given to model how to help keep students focused on the ethical issues in a text. Sample writing prompts to elicit ethical reflection are also provided as models of how to guide students to contemplate and analyze ethical issues that are important in their field of study. The article concludes that the use of optimistic fictions, framed through the lens of professional ethics guidelines and reinforced through ethical reflection, can help students to have beneficial ethical models.

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Problematizing teaching and learning mathematics as “given” in STEM education

International Journal of STEM Education ◽

10.1186/s40594-019-0197-9 ◽

2019 ◽

Vol 6 (1) ◽

Cited By ~ 11

Author(s):

Yeping Li ◽

Alan H. Schoenfeld

Keyword(s):

Mathematics Education ◽

Stem Education ◽

Teaching And Learning ◽

Science Technology ◽

Teaching And Learning Mathematics ◽

Learning Mathematics ◽

Alternative Approach ◽

And Mathematics ◽

Scientific Engineering

AbstractMathematics is fundamental for many professions, especially science, technology, and engineering. Yet, mathematics is often perceived as difficult and many students leave disciplines in science, technology, engineering, and mathematics (STEM) as a result, closing doors to scientific, engineering, and technological careers. In this editorial, we argue that how mathematics is traditionally viewed as “given” or “fixed” for students’ expected acquisition alienates many students and needs to be problematized. We propose an alternative approach to changes in mathematics education and show how the alternative also applies to STEM education.

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4IR and Right to Education in Nigeria: Synergybetween Legal Instruments and Stem Education

Turkish Journal of Computer and Mathematics Education (TURCOMAT) ◽

10.17762/turcomat.v12i3.1198 ◽

2021 ◽

Vol 12 (3) ◽

pp. 2286-2295

Author(s):

Mariam Adepeju Abdulraheem-Mustapha

Keyword(s):

Stem Education ◽

Industrial Revolution ◽

Research Collaboration ◽

Legal Protection ◽

Right To Education ◽

Fourth Industrial Revolution ◽

Science Technology ◽

And Mathematics ◽

Laws And Policies ◽

The Relationship

Laws and policies have important roles to play in advancing the Fourth Industrial Revolution (4IR) through Science, Technology, Engineering and Mathematics (STEM) research in Nigeria. STEM education and knowledge brings about development by converging scholars across the world with recent research discoveries. In order for Nigeria to reap the maximum benefits from the 4IR, its legal system must come in line with the principles advanced by the 4IR. It is important to state that the laws which have been enacted before the contemporary era are inadequate and obsolete. Education (STEM education inclusive) which will benefit the most from thenewrevolution would demand new legal instrumentsthat are adequate and effective to cater for the legal and policy demands of the 4IR by bringing forth a more current and inclusive legal protection for all the relevant beneficiaries. Using doctrinal methodology, thispaperexamines4IR and right to education in Nigeria with a view to establishing the relationship between the legal instruments and STEM education with the objective of advancing the agenda of the relevance of all fields of education for the next generation.The paper is divided into six sections and the findings show that, education (STEM education inclusive) is bedeviled with many challenges andthe extant laws are inadequate to solve them.Thus, making the goal of 4IR unachievable in Nigeria. To reach the greatest dexterities in all works of life, the paper concludes by bringing the significance of laws and policies that wouldaccommodate free STEM education in secondary and tertiary school levels in order to answer the call for 4IR. It recommends research collaboration across STEM fields for integrated curriculum and an amendment of the Constitution. It also advocates for gender equality and investing more in STEM education for having a transformative shift in Nigeria for the purpose of achieving 4IR.

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Effects of Science, Technology, Engineering, and Mathematics Education Using Algodoo to Prospective Science Teachers' Scientific Process and Education Orientation Skills

Journal of Education ◽

10.1177/00220574211044542 ◽

2021 ◽

pp. 002205742110445

Author(s):

Burcu Alan ◽

Fikriye K. Zengin ◽

Gonca Kececi

Keyword(s):

Science Teachers ◽

Stem Education ◽

Prospective Teachers ◽

Control Group ◽

Process Skills ◽

Scientific Process ◽

Good Tool ◽

Science Technology ◽

And Mathematics ◽

Prospective Science Teachers

This study investigated the effects of science, technology, engineering, and mathematics (STEM) applications carried out with the purpose of supporting the integrated knowledge of prospective science teachers on the scientific process skills and STEM education orientation skills of prospective teachers. According to the results, the STEM application was effective on the scientific process skills of the prospective teachers in the experiment group in comparison to those in the control group; however, it was not effective on their levels of orientation towards STEM education. The prospective teachers stated that Algodoo is a good tool for integration of STEM disciplines.

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Connecting STEM Rich Learning Environments With Environmental Education

International Perspectives on Modern Developments in Early Childhood Education - Advances in Early Childhood and K-12 Education ◽

10.4018/978-1-7998-2503-6.ch012 ◽

2020 ◽

pp. 213-232

Author(s):

Ellen Hamilton-Ford ◽

Jeffrey D. Herron

Keyword(s):

Environmental Education ◽

Young Children ◽

Learning Environments ◽

Stem Education ◽

21St Century ◽

Pedagogical Practices ◽

Stem Programs ◽

Science Technology ◽

Large Complex ◽

And Mathematics

The objective of this chapter is to provide an overview of research in the convergence of environmental education and science, technology, engineering, and mathematics (E-STEM) education models through a values-based framework for nature. An argument for the interconnectedness of environmental education and STEM programs is presented. A further argument presented that nature-based learning environments engage children in E-STEM. Lastly, an exploration of research suggests how various pedagogical practices incorporate and facilitate the E-STEM paradigm to prepare young children for 21st century workforce that can solve large, complex problems in an information and service-based economy.

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Computational Expression

Teaching Computational Thinking and Coding to Young Children - Advances in Early Childhood and K-12 Education ◽

10.4018/978-1-7998-7308-2.ch007 ◽

2021 ◽

pp. 134-156

Author(s):

Amanda L. Strawhacker ◽

Amanda A. Sullivan

Keyword(s):

Stem Education ◽

Visual Arts ◽

21St Century ◽

Fine Arts ◽

Computational Thinking ◽

Thinking Skills ◽

Pedagogical Approach ◽

The Past ◽

Science Technology ◽

And Mathematics

In the past two decades, STEM education has been slowly replaced by “STEAM,” which refers to learning that integrates science, technology, engineering, arts, and mathematics. The added “Arts” portion of this pedagogical approach, although an important step towards integrated 21st century learning, has long confused policymakers, with definitions ranging from visual arts to humanities to art education and more. The authors take the position that Arts can be broadly interpreted to mean any approach that brings interpretive and expressive perspectives to STEM activities. In this chapter, they present illustrative cases inspired by work in real learning settings that showcase how STEAM concepts and computational thinking skills can support children's engagement in cultural, performing, and fine arts, including painting, sculpture, architecture, poetry, music, dance, and drama.

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