The Big Why of Implementing Computational Thinking In STEM Education: A Systematic Literature Review

Computational Thinking (CT) has been increasingly embraced as a reformation in STEM education. This paper discusses why the implementation of CT would have a considerable effect on STEM education. The first objective of this systematic literature review is to identify the subjects that incorporate the most elements of CT in STEM education. Secondly, it aims to provide an overview of CT practices in the classrooms. Finally, the major findings of this study seek to discuss the benefits and challenges of the use of CT in STEM education. Fifteen articles were methodically selected from Scopus, Web of Science, Dimensions, and Google Scholar databases as the relevant studies to be discussed in this systematic study, based on the PRISMA Statement (Preferred Reporting Items for Systematic Reviews and Meta-Analysis) review technique. This review identifies current research gaps and directions for the practice and implementation of CT in STEM education. Further analysis of the articles has contributed to a conclusion that CT has become more widespread and multi-disciplinary and seems to have propagated improvements in STEM education. Still, a new study is required, especially on long-term implications

Promoting Computational Thinking to Impact the Implementation of Computer Science

The researchers drove this action research project to integrate Computer Science into the classroom and the effect it can have on computational thinking. The researcher, a fifth-grade teacher in her third year of teaching, utilized Computer Science activities in a science class of 24 students for two weeks while monitoring their progress through Code.org. The study analyzed the correlation between Computer Science and computational thinking. The findings revealed no correlation between the two variables among students with or without a Computer Science background. This project conducted this research to impact the future classroom practices that may implement Computer Science into the everyday classroom

Computer Programming Effects in Elementary: Perceptions and Career Aspirations in STEM

The development of elementary-aged students’ STEM and computer science (CS) literacy is critical in this evolving technological landscape, thus, promoting success for college, career, and STEM/CS professional paths. Research has suggested that elementary- aged students need developmentally appropriate STEM integrated opportunities in the classroom; however, little is known about the potential impact of CS programming and how these opportunities engender positive perceptions, foster confidence, and promote perseverance to nurture students’ early career aspirations related to STEM/CS. The main purpose of this mixed-method study was to examine elementary-aged students’ (N = 132) perceptions of STEM, career choices, and effects from pre- to post-test intervention of CS lessons (N = 183) over a three-month period. Findings included positive and significant changes from students’ pre- to post-tests as well as augmented themes from 52 student interviews to represent increased enjoyment of CS lessons, early exposure, and its benefits for learning to future careers

A Framework for Teaching Computational Thinking in Primary Schools: A Namibian Case Study

Several professional development programs have been designed to train in-service teachers on a computational thinking (CT) curriculum, but few researchers have examined how these affect primary school teachers\u27 self-efficacy and knowledge of CT in emerging economies. This study\u27s objective was to create a framework for the professional development of primary school in-service teachers for the teaching of CT (referred to as professional development for primary computational thinking - PD4PCT) to be integrated into teachers\u27 professional development programs. An initial framework was refined after implementing it at a Namibian school with a group of 14 teachers from five different disciplines (social studies, English, natural science, mathematics, and Afrikaans). Literature reviews, pre- and post-intervention questionnaires, semi-structured interviews, and self-reporting diaries were used to collect data. The framework was evaluated by experts via an online questionnaire. The findings show that teachers who participated in the professional development program improved their perceived CT knowledge, beliefs, and confidence to teach CT

Unplugged Learning in the Kindergarten Computer Science Classroom

The purpose of this action research study was to determine the impact of teaching computer science to kindergarten using only unplugged learning rather than plugged or a mixture of plugged and unplugged learning on engagement. Participants included 71 kindergarten and transitional kindergarten students in a public school in rural central Iowa. Data was collected through behavior and off-task reminder tallies, as well as assessment data over nine classes equal to a trimester’s number of computer science classes. Students were taught using either strictly unplugged methods using games, books, manipulatives, and movement or a plugged/online curriculum using online puzzles and videos, including a couple of unplugged lessons. The study found that unplugged learning positively impacted behavior and off-task behavior. No statistical difference was shown in academic achievement; however, it is noted that more topics were covered in the unplugged group than that of the plugged group over the same amount of time. Overall, unplugged learning in kindergarten computer science class positively impacts engagement. The researcher recommends further studies extending the entire year of kindergarten, further studies extending the research through first grade should be considered as well

Test for assessing coding skills in early childhood

This research aims to develop a valid and reliable test to determine the coding skill levels of 5-7 years old children in early childhood. The study sample consists of children aged 5-7 who attend primary and pre-school education institutions affiliated to the Ministry of National Education in Agri and Gaziantep city center in the 2020-2021 academic year. Data were obtained from 308 children, 101 of whom were five years old, 100 were six years old, and 107 were seven. As a data collection tool in research, the "Personal Information Form" containing personal information about children and their parents and the "Early Childhood Coding Skills Assessment Test" developed by the researcher to evaluate the coding skill levels of 5-7-year-old children were used. In the validity analysis to determine the test's validity and reliability, content-structure validity, criterion-based validity analysis, similar scale compatibility validity, tetrachoric factor analysis, and item difficulty analysis; In the reliability analysis, KR-20 reliability analysis was used. As a result of the findings obtained from the research, the "Early Childhood Coding Skills Assessment Test" is a valid and reliable measurement tool that can be used to determine the skill levels of 5-7-year-old children unplugged coding and robotic coding

Teaching Computational Thinking: are we considering students' socio-cultural context?

INTRODUCTION: Research to promote Computational Thinking (CT) has become frequent and carried out with the most different characteristics. Educational researchers argue that learning research needs to consider aspects of students' sociocultural context, regardless of what tools are used and how content is worked. However, it is not known if, and to what extent, these aspects are being considered in research to promote CT. OBJECTIVE: This research investigates whether the literature on initiatives to teach CT is recognizing and exploring aspects of students' sociocultural context and, mainly, how this is occurring. METHOD:A systematic review of the literature covering a decade (2007-2017) of articles published in the main vehicles of Computer Science in Education and Computer Science, considering the national and international scenario. RESULTS: The data indicate the students' sociocultural context is not being considered in the activities, although there is evidence that the scenario may be beginning to change. CONCLUSION: The results show that there is a growing concern and an evident effort by researchers to bring relevant elements of students' lives into the conducted practices. However, although it is possible to identify aspects of students' sociocultural context being considered by the mapped researches, it is still necessary to advance in terms of the rigor of the characterization of these aspects and the theoretical basis of the research

A Systematic Review of Studies on Educational Robotics

There has been a steady increase in the number of studies investigating educational robotics and its impact on academic and social skills of young learners. Educational robots are used both in and out of school environments to enhance K–12 students’ interest, engagement, and academic achievement in various fields of STEM education. Some prior studies show evidence for the general benefits of educational robotics as being effective in providing impactful learning experiences. However, there appears to be a need to determine the specific benefits which have been achieved through robotics implementation in K–12 formal and informal learning settings. In this study, we present a systematic review of the literature on K–12 educational robotics. Based on our review process with specific inclusion and exclusion criteria, and a repeatable method of systematic review, we found 147 studies published from the years 2000 to 2018. We classified these studies under five themes: (1) general effectiveness of educational robotics; (2) students’ learning and transfer skills; (3) creativity and motivation; (4) diversity and broadening participation; and (5) teachers’ professional development. The study outlines the research questions, presents the synthesis of literature, and discusses findings across themes. It also provides guidelines for educators, practitioners, and researchers in areas of educational robotics and STEM education, and presents dimensions of future research

Curriculum –Releasing Maths Anxiety with the Use of Robotics

info:eu-repo/semantics/publishedVersio