Transforming classroom practices through teachers' learning of TPACK: The case of in-service teachers at Kibasila Secondary School in Tanzania

This study investigated the extent to which teachers’ learning of Technological Pedagogical Content Knowledge (TPACK) has an impact on their technology use and classroom practices. The study involved 12 in-service teachers and 40 students from Kibasila secondary school in Tanzania. During the study, teachers participated in training about TPACK and in teacher design teams they designed technology-enhanced Biology, Chemistry and Physics lessons. Data were collected through a teacher questionnaire, an observation checklist, student questionnaire and a teacher interview. Results showed that after learning TPACK, teachers’ classroom practices shifted from teacher-centered approach to learner-centered approaches that utilize technology. Students' interest on the lessons was also enhanced. In addition, there was an increase in the interaction between students and teachers during the classroom session. Given these findings, we concluded that, teachers’ development of TPACK has an impact on the teachers' teaching approaches

Flipping the roles: Analysis of a university course where students become co-creators of curricula

In this paper I present the transformation of a university course inspired by the theoretical background of the student voice approach (Fielding, 2004a and 2004b; Cook-Sather, 2006) and, in particular, the ways students are encouraged to be \u201cco-creators of curricula\u201d through partnership with faculty (Bovill, Cook\u2010Sather & Felten, 2011). I introduce active learning practices centered on \u201cstudent generated content\u201d (Sener, 2007; Bates et al., 2012), allowing a new rendering of the traditional lesson cycle: frontal lesson, individual study, and final exam. The change in students\u2019 attitude towards study and final exam support the effectiveness of this methodology

A case study of the integration of ICT in teaching and learning in a smart school in Sabah

This research investigates teachers’ views of their use of ICT in teaching and learning (T&LICT). The objective of this research was to study in depth the thoughts, beliefs and opinions of the teachers’ attempt towards pedagogical improvement as part of the Smart School Project. Specifically this research examines and describes the teachers’ implementation of T&LICT in the classroom in terms of the instructional practice, the instructional roles and the instructional environment. A case study research methodology is employed. The case is Sekolah Menengah Bestari (a psuedonym), which is a Smart School in Sabah. Analysis of data from 52 survey questionnaires complemented the qualitative data from the 13 interviews and 3 observations, as well as document analysis. Findings indicated that hardware and software technology infrastructure were available to support the T&LICT implementation. Nevertheless, the teachers felt it was not enough to implement T&LICT effectively. It was estimated that about half of Sekolah Menengah Bestari staff, mainly Bestari and ETeMS teachers, implemented T&LICT. Findings indicated that teacher practices were little changed. IT was used mainly to support the existing teacher-directed and teacher-centered approach. The role of the teacher extended to that of facilitating without releasing control of lesson to the students

A Student-centered Regional Planning Group Activity for Non-science Majors

NOTE: This is a large file, 81.4 mb in size! This article describes the use of an authentic regional planning public workshop activity which was modified and used to introduce the Earth surface portion of an Earth Science lecture course for undergraduate non-science majors. Students applied map-reading skills and learned about the local environment while forming opinions about how the region should grow, exploring the potential consequences of their preferences (for both developers and the environment), and making judgments about the relative importance of various environmental challenges and hazards. A participant survey showed that most supported the continued development and re-use of the activity, as well as the development of one to three additional three-lecture-period activities. Educational levels: Graduate or professional

Creativity and innovation in science and technology: Bridging the gap between secondary and tertiary levels of education

Purpose: This paper stems from a study which was conducted as a means to first, find out whether there is a gap between the secondary and tertiary education levels, second identify any existing gap in Science and Technology education, and third, examine the impact of the above upon students’ creativity and innovativeness at university level. The paper aims to discuss these issues. Design/methodology/approach: As such, a group of teachers and students at both secondary and tertiary levels were selected as the sample of the study. Questionnaires were administered to trained secondary school teachers and to university students. Interviews were also conducted to triangulate data. These enabled an analysis of the current situation in terms of students’ engagement/creativity/innovativeness in Science and Technology at secondary and tertiary levels. Findings: The findings reveal a problematic situation arising with respect to beliefs and what truly prevails in the education sector at secondary and tertiary levels. This study has revealed a number of salient issues related to the gap existing between the secondary and tertiary levels of education in Mauritius, with special bearing on creativity and innovation in Science and Technology. Research limitations/implications: Only three institutions were involved, with a small sample of students, so that the findings cannot be generalised. Moreover, gender is a variable that has not been taken into consideration. Practical implications: The study has proposed a number of recommendations to enable Mauritian students (at secondary and tertiary levels) to develop creativity and hopefully become innovators. This leads us to believe that the recommendations emerging from this study will be beneficial to various stakeholders who wish to understand the gap existing between secondary and tertiary education in Science and Technology education. Originality/value: This study takes a case study approach adopting a mixture of interviews, surveys and observations to understand the research problems with regards to the younger generations need to be equipped with scientific and technological advances in acquiring knowledge, new sets of skills and values. Therefore, this study endeavours to document the perceptions of learners and faculty staff

Student understanding of the Boltzmann factor

We present results of our investigation into student understanding of the physical significance and utility of the Boltzmann factor in several simple models. We identify various justifications, both correct and incorrect, that students use when answering written questions that require application of the Boltzmann factor. Results from written data as well as teaching interviews suggest that many students can neither recognize situations in which the Boltzmann factor is applicable, nor articulate the physical significance of the Boltzmann factor as an expression for multiplicity, a fundamental quantity of statistical mechanics. The specific student difficulties seen in the written data led us to develop a guided-inquiry tutorial activity, centered around the derivation of the Boltzmann factor, for use in undergraduate statistical mechanics courses. We report on the development process of our tutorial, including data from teaching interviews and classroom observations on student discussions about the Boltzmann factor and its derivation during the tutorial development process. This additional information informed modifications that improved students' abilities to complete the tutorial during the allowed class time without sacrificing the effectiveness as we have measured it. These data also show an increase in students' appreciation of the origin and significance of the Boltzmann factor during the student discussions. Our findings provide evidence that working in groups to better understand the physical origins of the canonical probability distribution helps students gain a better understanding of when the Boltzmann factor is applicable and how to use it appropriately in answering relevant questions

A framework for design engineering education in a global context

This paper presents a framework for teaching design engineering in a global context using innovative technologies to enable distributed teams to work together effectively across international and cultural boundaries. The DIDET Framework represents the findings of a 5-year project conducted by the University of Strathclyde, Stanford University and Olin College which enhanced student learning opportunities by enabling them to partake in global, team based design engineering projects, directly experiencing different cultural contexts and accessing a variety of digital information sources via a range of innovative technology. The use of innovative technology enabled the formalization of design knowledge within international student teams as did the methods that were developed for students to store, share and reuse information. Coaching methods were used by teaching staff to support distributed teams and evaluation work on relevant classes was carried out regularly to allow ongoing improvement of learning and teaching and show improvements in student learning. Major findings of the 5 year project include the requirement to overcome technological, pedagogical and cultural issues for successful eLearning implementations. The DIDET Framework encapsulates all the conclusions relating to design engineering in a global context. Each of the principles for effective distributed design learning is shown along with relevant findings and suggested metrics. The findings detailed in the paper were reached through a series of interventions in design engineering education at the collaborating institutions. Evaluation was carried out on an ongoing basis and fed back into project development, both on the pedagogical and the technological approaches

The Evolution of Student Engagement: Writing Improves Teaching in Introductory Biology

In response to calls for pedagogical reforms in undergraduate biology courses to decrease student attrition rates and increase active learning, this article describes one faculty member’s conversion from traditional teaching methods to more engaging forms of practice. Partially told as a narrative, this article illustrates a.) the way many faculty initially learn to teach by modeling the pedagogy from their own undergraduate programs; b.) the kind of support biology faculty may need to break out of traditional molds; c.) how writing can promote active learning; and d.) the impact of reformed pedagogy on student levels of engagement. The latter will be demonstrated through assessment results gathered from student surveys, reflective writing, and focus group interview. Ultimately, the study challenges misunderstandings some faculty might have regarding the value of writing in science classes and offers inspiration, urging critical reflection and persistence