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2022 ◽  
Vol 12 (1) ◽  
pp. 48
Author(s):  
Meredith Weaver Kier ◽  
Lindy L. Johnson

The COVID-19 global pandemic presented unprecedented challenges to K-16 educators, including the closing of educational agencies and the abrupt transition to online teaching and learning. Educators sought to adapt in-person learning activities to teach in remote and hybrid online settings. This study explores how a partnership between middle and high school teachers in an urban school district and undergraduate STEM mentors of color leveraged digital tools and collaborative pedagogies to teach science, technology, and engineering during a global pandemic. We used a qualitative multi-case study to describe three cases of teachers and undergraduate mentors. We then offer a cross-case analysis to interpret the diverse ways in which partners used technologies, pedagogy, and content to promote equitable outcomes for students, both in remote and hybrid settings. We found that the partnership and technologies led to rigorous and connected learning for students. Teachers and undergraduates carefully scaffolded technology use and content applications while providing ongoing opportunities for students to receive feedback and reflect on their learning. Findings provide implications for community partnerships and digital tools to promote collaborative and culturally relevant STEM learning opportunities in the post-pandemic era.


2022 ◽  
Author(s):  
Tricia Zucker ◽  
Gloria Yeomans-Maldonado

Broadening participation in early, informal STEM is important for families experiencing poverty. We explored the feasibility of the Teaching Together STEM preschool program for increasing home-based parent involvement and reducing barriers to informal STEM learning with 181 families at schools where 92% of students received free/reduced lunch. The core treatment included family engagement events and text messages; STEM events were delivered at school sites by museum-based informal science educators. We randomly assigned schools to business-as-usual or one of three additive treatment groups to evaluate adult behavior change techniques of adding materials and parent rewards to the core treatment. The primary outcome was parent involvement in STEM. There were no significant impacts of any treatment on home-based parent involvement in STEM; however, the groups that included take-home activity kits along with family education events/resources were the most promising way to get focal parents involved in doing science and math with their young child. Interestingly, the most intensive treatment group that added parent monetary rewards produced short-term improvements in parent involvement that faded at a later follow-up timepoint. We discuss the relative effects of different behavior change techniques and uptake of components, as this has implications for family engagement programs that aim to ensure equity when many parents have competing demands on their time.


2022 ◽  
Vol 12 (1) ◽  
pp. 0-0

The present study explores how gender, ethnicity, and performance-based perceived competence impact students’ learning, performance, and enjoyment from playing a digital STEM learning game. We had 199 9th-11th grade students play a 2D digital STEM learning game across six science classes. Based on the results of demographic surveys, matched pretests and posttests, and satisfaction questionnaires, we found no interaction between gender and ethnicity for performance-based perceived competence, performance, and enjoyment. We found a significant difference between males and females in performance-based perceived competence and in-game performance both favoring males over females. Among ethnic groups, we found a significant difference with in-game performance favoring White and Hispanic students over Black/African American students. However, the differences in gender and in ethnicity were insignificant once we controlled for both perceived competence and pretest scores. This supports the idea that neither race nor gender truly influence one’s ability to perform in digital learning games.


2022 ◽  
pp. 139-159
Author(s):  
Shelly R. Rodriguez ◽  
Jason Robert Harron ◽  
Stephanie Chang ◽  
Lauren Penney

UTeach Maker is a collaborative micro-credentialing program that supports preservice and practicing STEM teachers in developing the knowledge, skills, and professional networks needed to bring maker-centered learning opportunities to secondary STEM learning environments. This chapter describes the UTeach Maker program and unpacks four core features including (1) collaboration with field leaders to develop an open portfolio, (2) collaboration with peers and mentors to develop a supportive community, (3) collaboration with technical experts to promote skill building, and (4) collaboration with participants to develop a personalized experience. The chapter also highlights unique aspects of the program and explains how the UTeach Maker model can be adapted to support micro-credentialing initiatives in other contexts.


Author(s):  
Esther Ntuli ◽  
Berverly B. Ray

Science, technology, engineering, and mathematics (STEM) instruction has become a priority b across the globe in recent years. Elementary educators are seeking ways to integrate STEM in all areas of learning. However, research indicates that most elementary teachers grapple with identifying and using appropriate STEM tools and instructional strategies that teach STEM as an integrated subject. This paper reports on an exploratory study examining the experiences of K-3 teachers (n=26) who contributed to the development of a summer STEM institute. It also examines in greater detail the perceptions of twelve of those participants who participated in the professional development institute. The study used quantitative and qualitative approaches to collect and analyze data. Findings indicate that teachers appreciate the use of inexpensive STEM tools and that they recognize the potential that an integrated STEM project-based learning approach has for young students. Implications for teacher education and professional development are offered along with recommendations for future research.


2021 ◽  
Vol 9 (4) ◽  
pp. 360-372
Author(s):  
Yovi Imeysa ◽  
Farida Farida ◽  
Suherman Suherman ◽  
Tia Agnesa

This study aimed to determine the effect of the STEM (Science, Technology, Engineering, and Mathematics) learning approach on the ability to understand mathematical concepts in terms of students' Al-Qur'an literacy. This research is a Quasy Experimental Design research with a 2×3 factorial research design. The data collection techniques in this study were in the form of a concept understanding test and an Al-Qur'an literacy questionnaire. The data analysis technique used is the normality test and homogeneity test, and the Two-way ANOVA test. Based on the results of the study, it was concluded that there was an effect of the STEM learning approach (Science, Technology, Engineering, and Mathematics) on the ability to understand students' mathematical concepts in the material of Building Flat Side Space. There is no influence of Al-Qur'an literacy on the ability to understand students' mathematical concepts in the material of Constructing Flat Sided Space. There is no interaction between the treatment of the STEM learning approach (Science, Technology, Engineering, and Mathematics) with the Al-Qur'an literacy category on the ability to understand mathematical concepts in the matter of Constructing Flat Sided Space.


2021 ◽  
Vol LXIV (6) ◽  
pp. 617-633
Author(s):  
Lyubka Aleksieva ◽  
◽  
Iliana Mirtschewa ◽  
Snezhana Radeva ◽  
◽  
...  

Early STEM education has a great potential to support children’s development in constructing their own knowledge, in designing, discussing and testing ideas and finding solutions to different problems. Significant role in achieving the goals of STEM education is played by the teacher, who scaffolds the learning process, builds a creative learning environment, provokes children with open questions and guides them to test their hypothesis as young scientists, mathematicians, engineers and technology users. Preschool teachers’ knowledge and perspectives could seriously influence their practices in STEM education and respectively, the fulfilment of STEM learning outcomes. It is very important to explore in depth teachers’ views and experiences thus to plan and provide appropriate courses for their academic preparation or continuous professional development. While reviewing some popular misconceptions for STEM education amongst teachers, this paper presents the results of pre- and post-interviews conducted with teachers from Bulgaria in the framework of the European multilateral Erasmus+ project №2018-1-TR01-KA203-059568 “STEM for Pre-schoolers and Their Families” (PARENTSTEM) (2018–2021). The overall goal of this project was to increase family involvement in the STEM education process of early childhood children specifically coming from low socio-economic status. As a part of this goal implementation, the project aimed to extend conceptual and pedagogical knowledge of early childhood teachers on STEM. In the frame of the project the preschool teachers-participants in the study were provided with three teacher trainings (two international and one national) and were additionally supported with the intellectual outputs of the project. This paper attempted to identify teachers’ preliminary knowledge, awareness and attitudes towards STEM conceptualization and pedagogy and to describe the relative influence of the project teacher trainings and activities on them. The results of the research unambiguously demonstrated the need for training of preschool teachers in terms of STEM education, outlining the main focuses to be considered when constructing STEM courses intended for preschool teachers.


2021 ◽  
Vol 14 (1) ◽  
pp. 312
Author(s):  
Ming-Ni Chan ◽  
Daisuke Nagatomo

STEM has successfully introduced an interdisciplinary education model that can be used for training students to develop skillsets for the 21st century. STEM Education for Sustainability (STEM4S) expands the scope of education to meet rapidly changing global challenges, such as climate change and SDGs by the United Nations, which require the multidisciplinary curriculum to be integrated into STEM. Design-based tasks play a significant role in STEM education by promoting students’ critical thinking and problem-solving abilities. While STEM successfully employs design, design education currently conducts subjective procedures and lacks the framework for adopting the critical-thinking process. Therefore, design education can develop students’ cognitive skills by reflecting on STEM learning experiences. This study articulates the framework for design education by investigating problem-based and project-based learning and the double-diamond diagram for innovation. The goal of this study was to apply these observations and formulate the framework for STEM4S. This study examined the framework adopted at the National Taiwan Normal University in the Department of Design, with qualitative analysis of participants and quantitative analysis of questionnaire results. Finally, the researchers discuss the research questions and future applications of this framework.


2021 ◽  
Vol 6 (4) ◽  
pp. 263
Author(s):  
Annisa Nur Khasanah ◽  
Riezky Maya Probosari ◽  
Sri Widoretno ◽  
Nurma Yunita Indriyani

The perception of science teachers and pre-service science teachers about the 'Low Carbon STEM' lesson plans, which is a new learning approach, makes the perspective of science teachers and pre service science teachers different. This difference results in differences in the implementation of the Low Carbon STEM lesson plan in the future. The objectives of this study include 1) to determine the perception of science teachers and pre service science teachers to Low Carbon STEM Lesson Plans, 2) to recommend one form of science learning approach that is Low Carbon-based STEM. The method used in this research is the mixed method, which combines quantitative and qualitative methods with data collection techniques using questionnaires. Questionnaires were distributed to science teachers and prospective science teachers using a rating scale of 1-4. The results of the questionnaire were calculated quantitatively and then described qualitatively. Respondents were members of the Focus Group Discussion (FGD) consisting total of 37 respondents. This study concludes that the tenth aspect received the most agreed responses with a percentage of 86.5% while the sixth aspect received the most disagree responses with a percentage of 89,2%.


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