An evaluation of a professional learning network for computer science teachers

This paper describes and evaluates aspects of a professional development programme for existing CS teachers in secondary schools (PLAN C) which was designed to support teachers at a time of substantial curricular change. The paper’s particular focus is on the formation of a teacher professional development network across several hundred teachers and a wide geographical area. Evidence from a series of observations and teacher surveys over a two-year period is analysed with respect to the project’s programme theory in order to illustrate not only whether it worked as intended, by why. Results indicate that the PLAN C design has been successful in increasing teachers’ professional confidence and appears to have catalysed powerful change in attitudes to learning. Presentation of challenging pedagogical content knowledge and conceptual frameworks, high-quality teacher-led professional dialogue, along with the space for reflection and classroom trials, triggered examination of the teachers’ own current practices

Scaffolded autoethnography: a method for examining practice-to-research

Teachers often perceive educational research as confusing and can be disenfranchised by the research process. We propose scaffolded authethnography as a method to support principled examination of authentic practice. The approach is appealing because it is motivated by the teacher’s own day-to-day practice in a research context. Our demonstration of this method uses an analytical autoethnographic approach coupled with a data capture tool that documents the pedagogic content knowledge of a practicing teacher. We include a short case-study description where the method was used in the context of research in the area of threshold concept identification

Assessing teachers’ beliefs to facilitate the transition to a new chemistry curriculum: what do the teachers want?

In this article, we describe the results of a study of chemistry high school teachers’ beliefs (N = 7) of the chemistry curriculum and their roles, their beliefs on the teacher as developer of materials, and their beliefs about professional development. Teachers’ beliefs influence the implementation of a curriculum. We view the use of a new curriculum as a learning process, which should start at teachers’ prior knowledge and beliefs. The results reveal that it is possible to develop a new curriculum in which teachers’ beliefs are taken as a starting point. Promising approaches to prepare teachers for a new curriculum is to let them (co)develop and use curriculum materials: It creates ownership, and strengthens and develops teachers’ pedagogical content knowledge (PCK)

Developing Technological Pedagogical Content Knowledge in pre-service science teachers: Support from blended learning

The Technological Pedagogical Content Knowledge (TPACK) framework has been used to prepare pre-service science teachers at the Public Authority of Applied Education and Training in Kuwait for ICT integration in education. Pre-service teachers worked in teams to design an ICT solution for an authentic problem they faced during in-school training. Pre-service teachers were separated into two groups. The first group was coached by ICT, pedagogy, and content experts. The second group was offered a blended condition, by which they had access to an online portal with different tutorials and examples, with opportunities to meet with different experts whenever they wanted. Pre-test and post-test design data were collected for attitudes toward ICT, ICT skills, and TPACK. The findings show that the self-reported TPACK, the score of attitudes toward ICT, and ICT skills increased in both groups. However, the blended support condition reported a higher increase in the participants' technological knowledge (TK), technological pedagogical knowledge (TPK), their attitude toward ICT as a tool for instruction and productivity, and ICT enjoyment. This indicated that students perceived the blended condition for supporting design teams as a more desirable method for enhancing their development of TPACK

Changes in the Pedagogical Content Knowledge (PCK) Self-Efficacy of Pre-Service Physics Teachers: Redefining the Role of Influencing Factors

Self-efficacy intervention in curriculum design is an effort to improve the quality of teaching practice for pre-service teachers. This research aims to redefine how pre-service teachers' self-efficacy changes through Physics Learning and Microteaching courses. Interventions are given by designing lectures with mastery of knowledge, guidance, teaching experience, and reflection on teaching experience. The intervention carried out 32 meetings (with a total of 67 hours) in 1 semester. The data collection techniques used a questionnaire consisting of 18 statements and reasons for giving the score through pre-test, mid-test, and post-test. The participants were 51 students in teacher education institutions in Indonesia. The results show that integrating activities such as delivering information about PCK, guidance, and their experience in teaching increased their self-efficacy. Still, their self-efficacy decreased after the teaching experience and reflection on their experience. These results recommend that teaching practice reflection activities should not be the last resort in improving students' self-efficacy. Providing information, guidance, teaching practice, and reflection should become an iterative process, where self-reflection notes as a tool to enhance their performance deficiencies and self-efficacy can be improve

Challenges to Pedagogical Content Knowledge in lesson planning during curriculum transition: a multiple case study of teachers of ICT and Computing in England.

In September 2014 the new National Curriculum programmes of study for Computing became mandatory in England, replacing Information and Communications Technology (ICT) as a school subject and introducing Computer Science into schools. This posed a challenge for in-service ICT teachers without Computer Science subject knowledge: teachers needed to develop both subject and pedagogical knowledge to make the transition from teaching ICT to teaching Computing. This multiple case study explores teachers’ perceptions of the curriculum change and how they have responded in practical and pedagogical terms to planning lessons aligning with the new programmes of study. Nine teachers participated, each of whom had been teaching ICT pre-2014. The study used semi-structured interview questions while teachers engaged in lesson-planning activities, captured mostly using desktop-sharing via internet telephony. A modified version of Shulman’s pedagogical reasoning framework and Pedagogical Content Knowledge (PCK) facilitated analysis of teachers’ pedagogic practices in lesson planning. The study shows teachers’ concerns about the lack of clarity surrounding the curriculum change, and the lack of access to suitable professional development (CPD). Most highlighted the primacy of programming and Computer Science at the expense of Information Technology and Digital Literacy, the other two strands of the new curriculum. The study also shows the dynamic nature of lesson planning. Knowledge deficits slowed down the fluency of teachers’ lesson-planning processes, but the use of lesson materials created by others helped them to develop PCK. The term transitional pedagogical reasoning has been used to describe the process by which unfamiliar but necessary concepts are assimilated into the pedagogical reasoning process while the teacher develops sufficient subject knowledge and PCK. Recommendations have been made for Computing curriculum policies to recognise and promote Computing pedagogy. This understanding should underpin initial teacher education in Computing, CPD for in-service teachers, and strategic development of the subject in the longer term

Science Teacher Learning of MBL-Supported Student-Centered Science Education in the Context of Secondary Education in Tanzania

Science teachers from secondary schools in Tanzania were offered an in-service arrangement to prepare them for the integration of technology in a student-centered approach to science teaching. The in-service arrangement consisted of workshops in which educative curriculum materials were used to prepare teachers for student-centered education and for the use and application of Microcomputer Based Laboratories (MBL)—a specific technology application for facilitating experiments in science education. Quantitative and qualitative data were collected to study whether the in-service arrangement impacted teacher learning. Teacher learning was determined by three indicators: (1) the ability to conduct MBL-supported student centered science lessons, (2) teachers’ reflection on those lessons and (3) students’ perceptions of the classroom environment. The results of the research indicate that the teachers’ were able to integrate MBL in their science lessons at an acceptable level and that they were able to create a classroom environment which was appreciated by their students as more investigative and open-ended

Supporting the development of pre-service primary teachers PCK and CK through a STEM Program

STEM (Science-Technology-Engineering-Mathematics) education has received great attention in recent years not only for promoting interest and learning in these areas but also for encouraging children and young people to pursue careers in them. This research explored the effects of a STEM program in developing the primary pre-service teachers’ Content Knowledge (CK) and Pedagogical Content Knowledge (PCK) about sound. A qualitative and interpretative study analyzed the impact of a STEM program on the CK and PCK of 18 pre-service primary teachers that were attending a master’s degree program in a Portuguese higher education institution. The data was collected from their lesson plans, field notes, a focus group interview, and participants assignments throughout the STEM activities carried out. Findings revealed several scientific misconceptions and weaknesses in the participants’ PCK. Nevertheless, there was a clear positive impact on pre-service teachers’ CK and PCK, specifically regarding the principles underlying STEM integration that was proposed in the conceptual framework.info:eu-repo/semantics/publishedVersio

ICT Use in Science and Mathematics Teacher Education in Tanzania: Developing Technological Pedagogical Content Knowledge

Currently, teacher education colleges in Tanzania are being equipped with computers to prepare teachers who can integrate technology in teaching. Despite these efforts, teachers are not embracing the use of technology in their teaching. This study adopted Technological Pedagogical Content Knowledge (TPACK) as a framework for describing the knowledge and skills that pre-service teachers need to develop in order to effectively integrate technology in science and mathematics teaching. Pre-service teachers (N=22) participated in microteaching, hands-on training, collaborative lesson design in design teams, and reflection with peers. Pre- and post-assessment results of the pre-service teachers’ perceived knowledge and skills of integrating technology in teaching, showed significant changes in technology-related components of TPACK. We conclude that opportunities for pre-service teachers to participate in professional development programs that involve lesson design, teaching, evaluation and re-design, can be effective for the development of the knowledge and skills of integrating technology in science and mathematics teaching