Abstract: When studying attitudes toward technology education, the affective attitudinal component has primarily been the focus. This study focuses on how the affective, cognitive and behavioral attitudinal components of technology education can be incorporated using a two-step survey: the traditional PATT-questionnaire (PATT-SQSE) and the recently developed Mitcham Score questionnaire. The aim of this study is to explore the relationship among the cognitive, affective and potential behavioural components of students’ attitudes toward technology in a Swedish context, using the PATT-SQ-SE instrument including the Mitcham score open items. Results of the analyses show that relationships among the attitudinal components are observable. The results also imply that relationships among the attitudinal components are different for girls than boys. A key factor for the participating students’ attitudinal relations was interest (affective component) in technology education. An individual interest in technology education was related to both the cognitive component and behavioral intention. Another key relationship, for girls, was that the cognitive component had a strong relationship with behavioral intention, which was not the case for boys. Based on the observed relations between the cognitive, affective and behavioural components we have identified two key implications for educational practice: Girls should learn a broader conception of technology in technology education, if we want them to pursue technology-related careers to a higher degree; Students’ interest in technology should be stimulated through engaging tasks in technology education.

Abstract: Pottery making in technology education aims to foster students’ practical and creative ability. In a typical pottery making class, students receive the teacher’s instruction on the fundamental tech...

Abstract: The challenge that has often occurred in recent years is making access to education using a different learning process path. The presence of technology now provides solutions to problems that often occur such as communication, accessing information, and business or cooperation. Blockchain is a technology that develops an evaluation model for itineraries in the learning process, both individually and in bulk. Currently the Edublocs project has been designed and implemented, which combines elements of peer-to-peer learning and the teaching team. The aim of the Edublocs project is to simplify the process of designing and implementing a system for recording activity results through blockchain technology. This ongoing project is in the process of evaluation. Conforming to some design elements as well as experimental implementation in the context of higher education enables us to further indicate the sustainability and relevance of the application of blockchain technology in education.

Abstract: Project-based learning (PBL) is a promising teaching method for integrated science education that has gained momentum in educational research and curriculum reforms, especially as a method to enhance 21st century skills and connected worldview. How teachers implement PBL greatly affects students’ content understanding and development of skills. The purpose of this qualitative study is to highlight active teachers’ PBL practices and their perceptions of the advantages and challenges of implementing PBL to better promote the implementation of PBL in teacher education programs and in integrated science education. This study consisted of two parts: (1) a qualitative-led survey and (2) a case study. First, the data for the survey was collected from January to March 2017 through an online reporting form of an international StarT programme. This programme supports the implementation of interdisciplinary and collaborative PBL in science, mathematics and technology education. 244 teachers from early childhood education to upper secondary school participated from 28 countries. Second, 12 PBL units reported by the teachers were chosen for a case study. The teachers exploited PBL practices that were theme- and inquiry-based, collaborative and engaging to students. However, closer inspection revealed variation and defects in the practices particularly in relation to assessment, using reflection and student-centred approach. In addition, teachers reported several challenges relating to the implementation of PBL. The results indicate that teachers see PBL as beneficial but need support with the implementation. Science teachers’ pedagogical competence in PBL could be promoted through collaborative learning in which students, teachers and other participants are learning from each other.

Abstract: Many studies have shown how practical learning and the hands-on activities help students to conceptualize technological knowledge and develop their intellectual processes. Researchers have also pointed out that a variety of cognitive skills and higher-order thinking skills can be nurtured through their application to a practical context. Learning by doing and creating things using the hands have always been key elements in Finnish craft and technology education.The overall purpose of this study was to explore and produce knowledge about the pedagogical approach of learning by-doing and making in the context of craft and technology education in Finland. The study focused on the learning processes when students were acting (doing and making) in craft lessons, but the aim was also to develop a pedagogical tool for teachers to better observe and guide the development of their students’ technological understanding. First, a qualitative theory-oriented content analysis was performed to examine the extent of the learning-by-doing approach in craft and technology education in the National Core Curriculum for Basic Education (Maaraykset ja ohjeet 2014:96, Juvenes Print – Suomen Yliopistopaino Oy, Tampere, 2014) document. In the analysis, Roberts (Beyond learning by doing: theoretical currents in experiential education, Routledge, New York, 2012) descriptions of four philosophical tenets for pragmatism were utilised. To gain broader knowledge regarding the pedagogical approach of learning by-doing in craft and technology educational practices a questionnaire for students who were studying craft and technology education was created. The questions were formulated on the basis of Roberts’ (2012) four philosophical tenets so that each tenet was representative to provide knowledge on the phenomenon.This data were analyzed using the frequentist descriptive method by identifying students’ descriptions of each category. The findings of this study support the argument that technology education has the potential to develop students’ skills in many ways by providing pupils with opportunities to work in a practical way, accessing the domain of technological knowledge and working technologically. It was also evidenced that social interaction and learning from peers is a highly present component in craft and technology education lessons.

Abstract: This study focuses on the adaptation of an innovative edge banding trimmer for technology instruction. This study also aimed to explore the respondent group's perceptions of the level of acceptability and effectiveness of innovated edge banding trimmer. Moreover, this study utilizes a survey to assess the perception of the faculty and student. The study used the descriptive-normative design to gather facts relevant for achieving the discussion details in planning, designing, and constructing the IEBT. The main instrument used to ascertain these parameters are the two survey questionnaires were researcher-made aligns with industry competencies, the statistician validated the reliability and consistency. Results revealed that the perceptions of the two respondent groups are statistically significant. Moreover, innovated edge banding trimmer shows a positive effect on the students' performance and output. Further, it implied that using innovated edge banding trimmer would make students work more efficiently and elevate quality. The research finding will allow the faculty and students to meet global needs in innovation and lifelong learning. Keywords: Innovated edge banding, technology instruction, challenge of change

Abstract: Currently, a growing number of learning institutions at all educational levels are including problem-based learning (PBL) in their curricula. PBL scenarios often utilise technology and socio-scientific Issues (SSI), which enables the simultaneous learning of content and creative thinking and working skills needed in generating new knowledge for the future. In this sense, using SSI and technological tools in PBL learning environments can be viewed as a starting point for acquiring and integrating new knowledge. However, there is no comprehensive knowledge regarding the possibilities of this approach. The objective of this systematic review is to produce this knowledge via the PRISMA method. The strategy is used to explore the effects of the described approach through implementations conducted at secondary and undergraduate levels. The data consisted of 33 research articles that were categorised via qualitative content analysis. According to the results, PBL scenarios exploit mainly local SSIs that link scientific knowledge with a meaningful context for students. Technology is principally used in offering technical support for teaching tasks. Lastly, these results are discussed from the technological pedagogical science knowledge (TPASK) framework perspective, which proposes guidelines for achieving the Sustainable Development Goals (SDG).

Abstract: The conventional teaching methods like the use of demonstration, lecture and project methods in teaching skilled/trade subjects is still persistent among higher institutions in Nigeria, therefore, this study examined Electrical/Electronics technology education teachers attitude, engagement and disposition towards actual usage of mobile learning in higher institutions. The sample for the study comprised 418 electrical/electronics technology education teachers using cluster sampling technique to select samples from higher institutions in three states in the geo-political zone. Data analysis was done with exploratory factor analysis and confirmatory factor analysis. The study found out that teacher’s perceived ease of use significantly have positive direct link on actual usage of ML, teacher’s disposition positively linked with perceived ease of use, teacher’s psychological well-being and perceived usefulness positive linked while technical/technology teacher’s training linked negatively with perceived ease of use of ML. Extending TAM robustness, the study affirmed that technical teacher education training and psychological well-being are factors that could influence perceived ease of use and perceived usefulness towards actual usage of mobile learning.

Abstract: The accounting profession is undergoing a radical change that supplants many historical accounting duties by requiring technical skills to be added to the accountant’s tool chest. Stakeholders are ...

Abstract: Objective: This study compared learning and skill transfer among university aviation students using interactive Augmented Reality (AR) technology versus traditional paper-based instruction. While s...

Abstract: Contribution: A novel approach to remote instruction in 80211 technology is described using the virtual lab technology Background: Lab-based education has been a staple of computing education for decades By interacting with the technology, students are able to gain a much greater understanding of the subject through hands-on activities Recently, virtual labs have provided a mechanism to allow both co-located and online students access to these lab environments without the time, space, and monetary constraints of traditional labs Computer networking and security is one area where virtual labs provide a highly useful testbed for learning security concepts One problem is implementing virtual educational labs pertaining to 80211 technologies given the inherently physical location-based nature of the wireless medium Intended Outcomes: This article builds on work by others by developing and testing a new hybrid physical/virtual lab to enable students to learn concepts pertaining to 80211 networking technologies remotely in a virtual lab setting Application Design: The virtual lab environment uses the ESXi virtualization technology coupled with arrays of USB 80211 adapters to enable the use of 80211 technologies remotely Findings: The experimental results show the proposed system to be as effective as a traditional physical lab environment with regards to usefulness, ease of use, satisfaction, self-efficacy, and exercise completion time

Abstract: With a plethora of technology available to support teaching and learning, preservice teachers are expected to become well-versed in technology literacy and competencies through their teacher educat...

Abstract: This mixed-method study explores current innovative methods towards technology integration in a teacher preparation programme at a mid-sized university in the Southeastern United States. The author...

Abstract: Effective lesson planning promotes good teaching and the implementation of curriculum policy. Lesson planning enables teachers to determine appropriate lesson objectives, teaching and learning acti...

Abstract: Technology education was introduced as a successor to various forms of craft or technical education in some parts of the world in the 1980s. In South Africa (SA) the implementation of technology education was in more than one sense unique. Not only was it a new subject within the South African educational context, but it coincided with the dawn of a new political dispensation in which the new government favoured outcomes-based education (OBE). This has resulted in a series of curriculum documents over the past two decades which made certain demands on and held challenges for the teachers who were responsible for the implementation of technology. The purpose of this conceptual article is to investigate the demands and challenges that various curriculum documents have made on the technology teachers concerned. The research question that underpinned the research was: What were the demands and the challenges various curriculum documents had on technology teachers? The research methodology was desktop research in the form of a critical analysis of various intended or specified curriculum documents. The research also included a qualitative meta-synthesis of other scholarly work on the challenges posed by the implementation of curricula both in SA and other international contexts. The South African experience may hold important insights for ministries of education, curriculum developers and technology teachers that form part of the broader international technology fraternity. It was found that the underlying political ideology of a new government impacts and steers the country’s education in a particular direction. Soon after the dawn of the new political dispensation in SA in 1994 there was a move away from a content-based curriculum (CBC) towards an OBE curriculum. However, it was mainly contextual and practical factors at chalk level that placed major demands on and posed challenges to the implementation of a new education system, aligned with a new ideology. Due to these challenges the country now finds itself moving back towards content-based education just more than ten years later. In a developing context, in particular with insufficient logistical resources and where teachers are inadequately trained (and therefore have less competence) a more specified and fixed CBC rather than an open, flexible OBE curriculum seems more feasible. Subsequently, the effects of a CBC as opposed to an OBE curriculum in technology education need to be researched in future, specifically which approach would be conducive to a general design-driven subject or a fragmented vocationally-oriented technology subject.

Abstract: Today’s dynamic change of the pupils’ technological environment certainly affects their preferences towards technology, which may be important for planning, structuring and organising general technology education. This highlights the problem of general student preferences, which are not the product of current trends but the universal rules for structuring teaching. To contribute toward the solution of this problem, research into pupils’ preferences towards the teaching of Technical Culture was carried out with the aim of determining general age and gender differences in pupils’ preferences. Accordingly, the study was conducted on a stratified sample, comprising primary school pupils, aged 11 to 15 (N = 699). By applying the customised PATT questionnaire, pupils’ interests in technology, their attitudes towards the teaching contents of the Technical Culture, as well as the attitudes to the importance and consequences of technology were examined. The analysis of the obtained data was carried out using a two-factor ANOVA and t test, as the basis for determining the differences and characteristics of preference with regard to the age and gender of the pupils. The results of the research show that younger pupils are mostly satisfied with the lessons, while older ones expect more modular teaching. More concretely, boys are more inclined to traditional teaching contents, while girls show much less inclination towards such contents. The presented findings indicate the necessity of a modular approach to the teaching of general technology education, especially between the age of 13 and 15, which should allow equally affirmation of boys and girls in this field of education. The development of such teaching requires a series of additional research to facilitate the development of the future curriculum of general technology education.

Abstract: The recruitment and retention of technology teachers in New Zealand is facing a potential crisis point. Worryingly, there are continuing misconceptions about the purpose and nature of technology education, and an ageing demographic in this sector of the teaching community. It is becoming increasingly difficult for schools to attract and appoint knowledgeable, qualified technology teachers. This paper reports research conducted by Technology Education New Zealand in 2020, which explored how the teacher shortage was impacting quality teaching and learning in the country. Initial survey findings indicate that most schools have experienced difficulty attracting qualified technology teachers. To address this issue, non-specialist teachers are being used from other learning areas. Schools have had to adapt their learning programmes to suit the teachers’ knowledge and skills, rather than be responsive and adaptive to their students’ learning needs or interests. The implications of the teacher shortage in technology education are discussed, and recommendations are made as a means to both raise awareness and mitigate risk for the subject’s future enactment in schools.

Abstract: Academic performance is one of the reasons for gender imbalance in STEM education. This study has two objectives: analyzing women’s participation in STEM education and investigating the factors affecting women’s achievements in Engineering and Technology university majors in Ethiopia. Secondary data have been analyzed to establish women’s involvement in STEM education using enrollment and graduation data and to observe the gender gap. Primary data were collected from 376 women students of engineering and technology. The OLS multiple regression model results reveal that the academic performance of women in engineering and technology education is positively influenced by students’ capabilities to gather information about the institution before joining the university. Interventions followed by institutions for supporting women students, peer learning habits of students, and the accessibility of university infrastructure also positively affect women’s academic performance. In contrast, sexual harassment and the existence of engineering and technology professionals in the family negatively influence the academic performance of women. Hence, educational organizations, governments, and other stakeholders should work to enhance women’s academic performance and reduce the gender gap in STEM education. Engineering colleges must also give attention to students’ psychological, economic, and educational support, try to fulfill infrastructure and learning equipment, and protect students from sexual harassment through strong commitment and regulations.

Abstract: As society increasingly relies on digital technologies in many different aspects, those who lack relevant access and skills are lagging increasingly behind. Among the underserved groups disproportionately affected by the digital divide are women who are transitioning from incarceration and seeking to reenter the workforce outside the carceral system (women-in-transition). Women-in-transition rarely have been exposed to sound technology education, as they have generally been isolated from the digital environment while in incarceration. Furthermore, while women have become the fastest-growing segment of the incarcerated population in the United States in recent decades, prison education and reentry programs are still not well adjusted for them. Most programs are mainly designed for the dominant male population. Consequently, women-in-transition face significant post-incarceration challenges in accessing and using relevant digital technologies and thus have added difficulties in entering or reentering the workforce. Against this backdrop, our multi-disciplinary research team has conducted empirical research as part of technology education offered to women-in-transition in the Midwest. In this article, we report results from our interviews with 75 women-in-transition in the Midwest that were conducted to develop a tailored technology education program for the women. More than half of the participants in our study are women of color and face precarious housing and financial situations. Then, we discuss principles that we adopted in developing our education program for the marginalized women and participants’ feedback on the program. Our team launched in-person sessions with women-in-reentry at public libraries in February 2020 and had to move the sessions online in March due to COVID-19. Our research-informed educational program is designed primarily to support the women in enhancing their knowledge and comfort with technology and nurturing computational thinking. Our study shows that low self-efficacy and mental health challenges, as well as lack of resources for technology access and use, are some of the major issues that need to be addressed in supporting technology learning among women-in-transition. This research offers scholarly and practical implications for computing education for women-in-transition and other marginalized populations.

Abstract: Science and technology (S&T) plays a central role in today’s knowledge- and technology-based society. The transfer of S&T from the education system to the economy should be promoted by teachers using innovative behaviour as an important aspect of providing high-quality education. Several studies have found that a mismatch exists between the economy and the education sector, and that this can be gradually reduced by innovation in the education system. This research aimed to examine the innovative behaviour of pre-service S&T teachers. A sample of 140 pre-service teachers from the University of Ljubljana, Slovenia was selected, and a set of instruments was used to measure their innovative behaviour in classrooms during the 2019–2020 academic year. A model was created and evaluated using multiple regression analysis. The results showed that self-efficacy and attitudes towards S&T strongly predict innovative behaviour, while situational interest may vary depending on the cognitive demands of tasks. A proactive personality was found to be a key factor determining innovative behaviour, while self-efficacy has direct and indirect influences on innovative behaviour, with its indirect influence mediated by creativity and situational interest. These findings have implications for the redefinition of educational design to enhance innovation in the classroom. Keywords: innovative behaviour, predictive modelling, pre-service teachers, science and technology

Abstract: A high level of transparency in reported research is critical for several reasons, such as ensuring an acceptable level of trustworthiness and enabling replication. Transparency in qualitative research permits the identification of specific circumstances which are associated with findings and observations. Thus, transparency is important for the repeatability of original studies and for explorations of the transferability of original findings. There has been no investigation into levels of transparency in reported technology education research to date. With a position that increasing transparency would be beneficial, this article presents an analysis of levels of transparency in contemporary technology education research studies which employed interviews within their methodologies, and which were published within the International Journal of Technology and Design Education and Design and Technology Education: An International Journal (n = 38). The results indicate room for improvement, especially in terms of documenting researcher positionality, determinations of data saturation, and how power imbalances were managed. A discussion is presented on why it is important to improve levels of transparency in reported studies, and a guide on areas to make transparent is presented for qualitative and quantitative research.

Abstract: The aim of the research is to examine how technology is communicated in technology education in relation to humans, society and nature in preschool class. According to the Swedish curriculum for preschool class, pupils should be given the opportunity to explore, ask questions and discuss technology and how the choices of people affect sustainable development. Teachers make different choices about, for example, content and what they do and do not say. These choices have an impact on how pupils perceive technology as part of the world and are called companion meanings. In terms of data, sound recordings and field notes from four technology lessons in a preschool class were used. The data was analysed, with focus on what types of companion meanings emerge in conversations between teachers and pupils. The analysis of companion meanings was based on two themes: Subject Language and Subject Focus. The results of this study demonstrate that pupils learn companion meanings of various types: for example, technology is something positive and unproblematic. Other types of companion meanings gave the pupils opportunities to reflect on how the technical choices of humans affect nature. Different kinds of companion meanings offer different ways for pupils to relate to the surrounding environment.

Abstract: In Taiwan, issues in technology education (TE), such as indeterminate core mission and unclear role, could be addressed through an objective knowledge map of research to discern directions of development and prospects. This study explores sub-fields, genres, characteristics, and trends in TE research in Chinese and English over 24 years through bibliometric co-citation analysis using two databases: Web of Science and Airiti Library. As per the findings: (1) TE research has been progressing slowly in Taiwan, while it is developing rapidly elsewhere; Disciplines integrated with TE include education and educational research, engineering, computer science, social sciences, and medicine; (2) Research topics have evolved from industrial arts, technical and vocational education, technological literacy education, and curriculum development, to pedagogical skills of teachers of technology; Other countries focus on “professional development of technology teachers,” while Taiwan emphasizes “curriculum and teaching materials;” (3) Clusters from different periods are complementary, and research topics and fronts reflect continuity. (4) “Assessment,” as a research dimension, has received insufficient attention. Insights into the evolution of research topics and research fronts are offered for technology educators.

Abstract: Digital fabrication, making and entrepreneurship education all have potential to empower children and increase their abilities to participate and shape the society and digitalization within, and act as active “protagonists” instead of passive consumers. While the potential of these educational trends has been acknowledged, they have mostly been studied separately and without specific focus on challenges involved. We have conducted a business innovation project with teenagers at school, combining elements of digital fabrication, making and entrepreneurship education. Our qualitative, data-driven analysis focused on the process and the challenges involved in the endeavor. As a result, we generate a list of lessons learned associated with teenagers adopting the role of a protagonist, driving business innovation. Our main findings relate to the lessons learned on the importance of balancing the making activities with the entrepreneurial aspects and negotiating the roles and responsibilities between the adult participants.

Abstract: Education is a place to introduce culture and micro, small and medium enterprises in areas far from the capital. In Technology Education Study Program, Universitas Negeri Jakarta has the vision to produce educators and education personnel in the field of learning to engineer based on academic principles and ethics. Engineering new media learning through augmented reality becomes a tool for lectures introducing SMEs. For this reason, researchers collaborated with material expert lecturers, design experts, media experts, and 30 students in developing augmented reality as a new learning application. The results of the review obtained from the instructional design experts were 3.20, material expert 3,30, and media experts 3.14. Based on the test results obtained from students in the one-to-one stage of 3.55; and at the small group stage of 3.23. Based on the results of the evaluation, it can be concluded that Augmented Reality can be implemented and used to introduce SMEs to college students. Students can use this product as material strengthening in engineering learning using new media applications

Abstract: Student engagement has been described as active involvement in a learning activity that significantly affects learning achievement. This study investigated student engagement in robotics education, considering it as an instant emotional reaction on interaction with the teacher, the peers, and the robotic environment. The objective was to characterize engagement in high school robotics courses through the lenses of preparation for academic and technical careers. Students who participated in this study (N = 41), all of whom were in the eleventh grade, belonged to either School A (n1 = 20) or School B (n2 = 21). School A students studied only one subject at an advanced level—mechatronics, while each student in School B studied engineering systems as well as one of the following three subjects at an advanced level: computer science, a natural science subject, or mathematics. Data were collected via structured classroom observations, interviews, and a questionnaire. From the analysis of the collected data, we identified 23 engagement structures in total, 12 of which were already known in the literature, and 11 of which were novel. The two groups of students shared nine known structures, and no novel structures. Unlike previous studies of engagement structures, this study was based on an entire year of observations. Additionally, it is one of the first studies of high school student engagement in robotics education. Our findings and conclusions contribute to understanding of student engagement in robotic education, allowing robotics teachers to tailor their instruction more effectively.