scholarly journals An exploration of acceptance of innovative computer use in teaching mathematics among pre-service class teachers and mathematics teachers

2016 ◽  
Vol 48 (2) ◽  
pp. 339-366
Author(s):  
Verica Milutinovic
Keyword(s):  
Content Knowledge ◽  
Mathematics Teachers ◽  
Computer Use ◽  
Teaching Mathematics ◽  
Intention To Use ◽  
Mathematics Students ◽  
Service Class ◽  
Pedagogical Content ◽  
Students Attitudes ◽  
And Mathematics

Innovative computer use enables the strengthening and transformation of teaching practice. Notwithstanding, numerous studies have indicated that teachers do not use computers in teaching mathematics to a sufficient extent. This study was aimed at exploring the reasons for insufficient computer use by teachers, i.e. at examining the variables which may affect the acceptance of innovative computer use in teaching mathematics. Hence, the intention to use computers in teaching mathematics in primary school was explored on the sample of 455 pre-service class teachers and mathematics teachers from Serbia. The technology acceptance model was extended by external variables and the following were observed as the predictors of intention to use computers in teaching mathematics: students? attitudes towards computers, their perception of usefulness of computers in teaching mathematics, perceived ease of use, technological pedagogical content knowledge in mathematics, experience with use, subjective norms, technological complexity and content knowledge in mathematics. Structural equation modelling has shown that the proposed model had a good fit and that the selected variables were significant predictors of the intention to use computers. The proposed model explained 23.7% of variance in the intention to use computers. It has been shown that the intention to use computers is directly predicted by dominant technological pedagogical content knowledge in mathematics, students? attitudes towards computers and their experience, while it is indirectly predicted by perceived usefulness, subjective norm, technological complexity and content knowledge in mathematics. In accordance with the presented findings, the final part provides recommendations that may be beneficial for advancing the education of pre-service class teachers and mathematics teachers.

Online Mathematics Teacher Education

2021 ◽  
pp. 713-733
Author(s):  
Jennifer Chauvot ◽  
Stephen J. Pape ◽  
Sherri K. Prosser ◽  
Kimberly Hicks
Keyword(s):  
Professional Development ◽  
Content Knowledge ◽  
Mathematics Teachers ◽  
Mathematics Teacher Education ◽  
Development Program ◽  
Pedagogical Content ◽  
Design And Implementation ◽  
Theoretical Perspectives ◽  
And Mathematics ◽  
Science And Mathematics Teachers

In this chapter, the authors describe two online programs that sought to impact teachers' content knowledge, pedagogical content knowledge, and instructional practices in K-12 classrooms. One program was a master's program for middle grades science and mathematics teachers, and the other was a yearlong professional development program for third- through fifth-grade general and special education teachers. They share the theoretical perspectives that informed the design and implementation of the programs and outcomes from each program. Examples of learning activities from each of the programs are provided. The authors contend that deliberate, theoretically-based design and implementation of online professional development programs with science and mathematics teachers is not only viable but also vital in supporting teachers' ongoing knowledge growth of learner-centered instruction.

Online Mathematics Teacher Education

2020 ◽  
pp. 1-21
Author(s):  
Jennifer Chauvot ◽  
Stephen J. Pape ◽  
Sherri K. Prosser ◽  
Kimberly Hicks
Keyword(s):  
Professional Development ◽  
Content Knowledge ◽  
Mathematics Teachers ◽  
Mathematics Teacher Education ◽  
Development Program ◽  
Pedagogical Content ◽  
Design And Implementation ◽  
Theoretical Perspectives ◽  
And Mathematics ◽  
Science And Mathematics Teachers

In this chapter, the authors describe two online programs that sought to impact teachers' content knowledge, pedagogical content knowledge, and instructional practices in K-12 classrooms. One program was a master's program for middle grades science and mathematics teachers, and the other was a yearlong professional development program for third- through fifth-grade general and special education teachers. They share the theoretical perspectives that informed the design and implementation of the programs and outcomes from each program. Examples of learning activities from each of the programs are provided. The authors contend that deliberate, theoretically-based design and implementation of online professional development programs with science and mathematics teachers is not only viable but also vital in supporting teachers' ongoing knowledge growth of learner-centered instruction.

scholarly journals Analisis Kompetensi Guru Sebagai Bagian Dari Pedagogical Content Knowledge Guru Dalam Menerapkan Pendekatan Saintifik Dalam Program PLPG

2020 ◽  
Vol 3 (1) ◽  
pp. 1-14
Author(s):  
Veronika Fitri Rianasari ◽  
Beni Utomo ◽  
Marcellynis Andy Rudhito
Keyword(s):  
High School ◽  
Pedagogical Content Knowledge ◽  
Content Knowledge ◽  
Mathematics Teachers ◽  
Junior High School ◽  
Research Method ◽  
Professional Training ◽  
Learning Material ◽  
Pedagogical Content ◽  
Scientific Approach

AbstractThe purpose of this research is to analyze the competence of teachers as part of the teachers’ pedagogical content knowledge in applying scientific approach in Mathematics PLPG (in-service teacher education and professional training) program rayon 138 Yogyakarta, Indonesia, in 2014. The research method used is descriptive with quantitative approach. The subjects of the study consisted of 23 mathematics teachers including mathematics teachers of junior high school, high school and vocational school from Kebumen, Purworejo, and Magelang. Data was collected by filling in a questionnaire at the beginning and end of the training, observing microteaching activities, and documenting the learning material arranged by PLPG participants. Based on the analysis, it can be concluded that PLPG especially PLPG rayon 138 Yogyakarta, Indonesia, in 2014 gives benefits for the development of teachers’ PCK, especially in terms of teachers’ competence in applying scientific approach. Based on the analysis of learning materials arranged by the teachers and analysis of learning videos, it is known that the majority of the teachers have been able to construct a learning material using scientific approach and implement it properly.  Keywords: teacher’s competence, pedagogical content knowledge, scientific approach, PLPG

Interactive Whiteboards

2015 ◽  
pp. 288-307
Author(s):  
Tracy Goodson-Espy ◽  
Lisa Poling
Keyword(s):  
Pedagogical Content Knowledge ◽  
Content Knowledge ◽  
Mathematics Teachers ◽  
Secondary Mathematics ◽  
Technological Pedagogical Content Knowledge ◽  
Interactive Whiteboards ◽  
Mathematical Tasks ◽  
Pedagogical Content ◽  
Secondary Mathematics Teachers ◽  
Critical Mathematics

This chapter examines the literature on the use of Interactive Whiteboards (IWBs) in secondary mathematics instruction and notes barriers and achievements. The chapter links the use of IWBs to models for teaching Technological Pedagogical Content Knowledge (TPACK). Specifically, it proposes ways in which pre-service secondary mathematics teachers can be prepared to use IWBs to help their students develop understanding of critical mathematics ideas while engaging with worthwhile mathematical tasks and engaging in meaningful discourse.

Do Future Mathematics Teachers Need the Course „Integration of Digital Technologies in Teaching Mathematics“, and if so, what exactly can it help them with?

2019 ◽  
pp. 193-198
Author(s):  
Irina Gurevich
Keyword(s):  
Student Teachers ◽  
Mathematics Teachers ◽  
Digital Technologies ◽  
Teaching Experience ◽  
Teaching Mathematics ◽  
Mathematical Software ◽  
Software Packages ◽  
Mathematics Student ◽  
Students Attitudes ◽  
Course Integration

In the current research we analysed our teaching experience in the course “Integration of digital technologies in teaching mathematics”. The students were mathematics student teachers. The main goal of the course was to demonstrate the potential of digital technologies in teaching mathematics and to provide the students with basic skills in the intellectual use of these technologies. During the course the students, after getting acquainted with various mathematical software packages, build and present their own teaching units. We were interested to analyse the students’ attitudes towards the course. A multiple-choice questioner was formulated, and the collected data were analysed. We observed that most of the students found the course being helpful for their future teaching. The obtained results indicated that the described course provided them a didactic model to emulate.

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