The use of virtual and simulated teaching and learning environments: Inviting gifted students into science, technology, engineering, and mathematics careers (STEM) through summer partnerships

New technologies and virtual environments are emerging globally, yet the way these tools can impact the learning and future career paths of students who are gifted is limited in the literature at this time. The purpose of this article is to provide a summary of how a science, technology, engineering, and mathematics (STEM) summer camp, based on virtual and simulated environments, impacted the self-confidence of targeted diverse secondary science students from low socioeconomic backgrounds who were considered gifted with strong potential in these future STEM fields.

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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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Breaking Boundaries: Pressing Issues in Equity, Computing, and Problem-Solving in STEM Undergraduate Education

Journal of Research in STEM Education ◽

10.51355/jstem.2018.31 ◽

2018 ◽

Vol 4 (1) ◽

pp. 2-12

Author(s):

Anna Bargagliotti ◽

Dorothea Herreiner ◽

Jefrey A. Phillips

Keyword(s):

Problem Solving ◽

Undergraduate Education ◽

National Science Foundation ◽

Teaching And Learning ◽

Main Research ◽

Science Technology ◽

The Common ◽

Research Questions ◽

And Mathematics ◽

Education Conference

The April 2017 National Science Foundation-funded Breaking the Boundaries in STEM Education conference brought together Southern California science, technology, engineering and mathematics (STEM) faculty to explore equity, problem-solving, and computing in an interdisciplinary manner. Two main research questions guided the overall scope of the conference: (1) What are the common threads across disciplines to approach the teaching and learning of skills that are relevant in STEM? (2) What are the challenges and barriers that need to be overcome in order to foster collaboration across disciplines to impact the teaching and learning of skills relevant in STEM? We describe the background of the conference and provide an overview of the questions addressed.

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Data Literacy and Citizenship

Advances in Educational Technologies and Instructional Design - Handbook of Research on Driving STEM Learning With Educational Technologies ◽

10.4018/978-1-5225-2026-9.ch004 ◽

2017 ◽

pp. 65-79 ◽

Cited By ~ 3

Author(s):

Eddy L. Borges-Rey

Keyword(s):

Big Data ◽

Teaching And Learning ◽

New Technologies ◽

Data Access ◽

Data Sampling ◽

Public And Private ◽

Data Literacy ◽

Vital Fluid ◽

And Mathematics ◽

Access Data

This chapter explores the challenges that emerge from a narrow understanding of the principles underpinning Big data, framed in the context of the teaching and learning of Science and Mathematics. This study considers the materiality of computerised data and examines how notions of data access, data sampling, data sense-making and data collection are nowadays contested by datafied public and private bodies, hindering the capacity of citizens to effectively understand and make better use of the data they generate or engage with. The study offers insights from secondary and documentary research and its results suggest that understanding data in less constraining terms, namely: a) as capable of secondary agency, b) as the vital fluid of societal institutions, c) as gathered or accessed by new data brokers and through new technologies and techniques, and d) as mediated by the constant interplay between public and corporate spheres and philosophies, could greatly enhance the teaching and learning of Science and Mathematics in the framework of current efforts to advance data literacy.

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Transforming African Education Systems in Science, Technology, Engineering, and Mathematics (STEM) Using ICTs: Challenges and Opportunities

Education Research International ◽

10.1155/2019/6946809 ◽

2019 ◽

Vol 2019 ◽

pp. 1-29 ◽

Cited By ~ 10

Author(s):

Alcardo Alex Barakabitze ◽

Anangisye William-Andey Lazaro ◽

Neterindwa Ainea ◽

Michael Hamza Mkwizu ◽

Hellen Maziku ◽

...

Keyword(s):

Rural Areas ◽

Teaching And Learning ◽

Skills Training ◽

Sub Saharan Africa ◽

Education Systems ◽

Science Technology ◽

Challenges And Opportunities ◽

Living Labs ◽

Sub Saharan ◽

And Mathematics

This paper presents the role of ICTs in transforming Africa’s Education Systems (AES) in science, technology, engineering, and mathematics (STEM) subjects/courses. The paper highlights on a positive shift across Africa in using ICT to improve the quality of teaching and learning through activities such as intensive ICT skills training to teachers, increase in ICT equipments and applications in schools, and emergence of living labs (LLs) and innovation spaces/centres (InnoSpace). We first provide some of the challenges of integrating ICTs in education followed by a description of key past and current ICT initiatives supporting the adoption of ICTs in schools using a number of case studies in sub-Saharan Africa. We further present various ICT-based models for education, as a transformational approach towards integrating ICTs in AES. Moreover, we provide various ICT platforms deployed for education service delivery in disadvantaged African society (e.g., rural areas) including LLs and InnoSpace across the continent. Finally, we highlight our main findings and observations in terms of opportunities and future ICT for education research directions in Africa. Our aim is to provide some guidelines and ensure that Africa uniformly meet the 2030 United Nations Sustainable Development Goal number 4, which is to ensure inclusive and quality education for all and promote lifelong learning, particularly using ICTs.

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Scientific Performance and Mapping of the Term STEM in Education on the Web of Science

Sustainability ◽

10.3390/su12062279 ◽

2020 ◽

Vol 12 (6) ◽

pp. 2279 ◽

Cited By ~ 5

Author(s):

Francisco-Javier Hinojo-Lucena ◽

Pablo Dúo-Terrón ◽

Magdalena Ramos Navas-Parejo ◽

Carmen Rodríguez-Jiménez ◽

Antonio-José Moreno-Guerrero

Keyword(s):

Teaching And Learning ◽

Web Of Science ◽

Research Papers ◽

Scientific Performance ◽

New Era ◽

Word Analysis ◽

Science Technology ◽

Women And Science ◽

And Mathematics ◽

Educational Field

Technological progress is causing terms such as “STEM”, an acronym for Science, Technology, Engineering and Mathematics, to burst into the educational arena, marking a new era in the application of innovative and motivating teaching and learning processes. The objective of this research is to analyze the trajectory and the transcendence of the “STEM” concept in the educational field, having as reference the reported literature of Web of Science. The methodology applied in this research is based on bibliometrics, analyzing both the performance and the structural and dynamic development of the concept through a co-word analysis. The total number of documents analyzed is 4390. The results show that the scientific community mainly uses English and research papers to present their results. From 2015 onwards, the main lines of research are beginning to be established, which focus on “women” and “science”. It can be concluded that the term “STEM” in education is beginning to have a greater incidence and impact on the processes of teaching and learning, especially in the field of science, although there are currently discrepancies between men and women in its use.

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Stemtech model in education 4.0: Designing height measuring instruments in grade 10

Vietnam Journal of Education ◽

10.52296/vje.2020.80 ◽

2020 ◽

Vol 4 (4) ◽

pp. 48-58

Author(s):

Huy Minh Lam ◽

Hue Thi Dang ◽

Tien Nhut Le ◽

Ngan Tuyet Huynh

Keyword(s):

Stem Education ◽

Industrial Revolution ◽

New Technologies ◽

Technological Factor ◽

Measuring Instruments ◽

Fourth Industrial Revolution ◽

Science Technology ◽

Global Standards ◽

Industrial Age ◽

And Mathematics

With the development in the fourth industrial revolution, there have been urgent demands for new human resources in the world. The mission set for the education sector is to prepare students with skills and knowledge in line with global standards to keep up with the industrial age 4.0. Among the educational trends that serve the fourth industrial revolution, STEM education has been demonstrating its superiority through various studies. This study applies the STEMTech model, which connects the fields of Science, Technology, Engineering, and Mathematics with a central technological factor, to create STEM products in the context of high schools in Vietnam recently. Firstly, the research trains students about STEM education, STEMTech model, and some new technologies; then divides the class into multiple groups of students to conduct a project based on STEMTech model; finally, surveys students. Statistical analysis was used to evaluate STEMTech model, whose results show that STEMTech model can engage students in learning, develop their creativity, and promote other competencies.

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Connecting Mathematics and Science in Primary School STEM Education: Modeling the Population Growth of Species

Mathematics ◽

10.3390/math9192496 ◽

2021 ◽

Vol 9 (19) ◽

pp. 2496

Author(s):

Genaro de Gamboa ◽

Edelmira Badillo ◽

Digna Couso ◽

Conxita Márquez

Keyword(s):

Stem Education ◽

Teaching And Learning ◽

Scientific Activity ◽

Scientific Practices ◽

Learning Sequence ◽

Mathematical Connections ◽

Science Technology ◽

Real Population ◽

And Mathematics ◽

Mathematics And Science

In this research, we explored the potential of using a research-based teaching and learning sequence to promote pupils’ engagement in practices that are coherent with those of real world mathematical and scientific activity. This STEM (Science, Technology, Engineering and Mathematis) sequence was designed and implemented by pre-service teachers and science and mathematics education researchers with the aim of modeling the growth of a real population of rabbits. Results show explicit evidence of pupils’ engagement in relevant mathematical and scientific practices, as well as detailed descriptions of mathematical connections that emerged from those practices. We discuss how these practices and connections allowed the progressive construction of models, and the implications that this proposal may have for STEM task design and for the analysis of extra-mathematical connections.

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Expanding Opportunities for Science, Technology, Engineering and Mathematics Subjects Teaching and Learning: Connecting through Comics

Malaysian Journal of Medical Sciences ◽

10.21315/mjms2019.26.4.15 ◽

2019 ◽

Vol 26 (4) ◽

pp. 127-133

Author(s):

Mazlini Adnan ◽

◽

Jafri Malin Abdullah ◽

Laili Farhana Md Ibharim ◽

Tan Wee Hoe ◽

...

Keyword(s):

Teaching And Learning ◽

Science Technology ◽

And Mathematics

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Evidence: From Surveys

10.1093/oso/9780198821212.003.0006 ◽

2018 ◽

Author(s):

Jacqueline M. Dewar

Keyword(s):

Student Learning ◽

Teaching And Learning ◽

Research Question ◽

Reliability And Validity ◽

Scholarship Of Teaching ◽

What Works ◽

Science Technology ◽

Course Material ◽

And Mathematics ◽

Knowledge Survey

Chapter 5 describes the use of surveys in scholarship of teaching and learning (SoTL) studies. Topics include how to design a survey, the reliability and validity of surveys, and response rates and how to improve them. The chapter also includes a detailed discussion of a special type of survey called a knowledge survey that is used to measure students’ confidence in their knowledge of disciplinary content. Multiple uses for knowledge surveys are described: a means to assess changes in student learning, a way to improve course organization and coordination across multiple sections, and as guide through the course material for students. The importance of a survey being a good match for the type of research question—What works? What is? What could be?—is emphasized. Many examples are given of studies of student learning in science, technology, engineering, and mathematics (STEM) fields that employed surveys.

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Re–Valuing Constructed Knowledge

Advancing Knowledge in Higher Education - Advances in Higher Education and Professional Development ◽

10.4018/978-1-4666-6202-5.ch011 ◽

2014 ◽

pp. 170-186

Author(s):

Damon Cartledge

Keyword(s):

Technology Education ◽

21St Century ◽

Teaching And Learning ◽

Clear Definition ◽

Disciplinary Knowledge ◽

Educational Structure ◽

Construction Of Knowledge ◽

Curriculum Model ◽

Science Technology ◽

And Mathematics

In this chapter, two issues are discussed that impact teaching and learning in technical and technology education. The issues are bound together by a concept of constructed knowledge and its inherent value. Knowledge constructed and operationalized in non–academic contexts is not well recognized in universities as having intellectual value. Developing knowledge that may be out of context from discipline homes can be misunderstood as lacking depth, when in fact they are highly complex arrangements of interdisciplinary constructed knowledge. The second issue is about how to conceptualize an educational structure in which this complex inter-disciplinary knowledge can be better recognized across educational divisions and strata. STEM (Science, Technology, Engineering, and Mathematics) is a well-established curriculum model that gives both clear definition/delineation (and cohesive purpose) to the interdependent discipline strands of the constructed knowledge under discussion. The chapter closes with an argument for a STE(A)M model, articulating the inclusion of an additional-alternative component for the Artist, Artisan, Artificer, Alchemist, Architect, and so forth, as a model to access, create, and re-value the construction of knowledge within universities of the 21st century.

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