Reducing Stress of Inservice Teachers

Curley, Jeffrey R.

01 May 1989

A prototype treatment developed to significantly reduce symptoms of stress among inservice teachers was tested in this experiment. Thirty participants selected for high stress levels were randomly assigned to treatment and control groups. They were assessed on environmental, personality, and emotional variables, using self-report and expert-judge measures, both pre- and posttreatment. The experimental treatment was holistic, incorporating all processes previously found to be related to reducing teacher stress. At posttreatment, the treatment group averaged 1.02 standard deviations lower on the stress measures than the control group. Significant differences in the posttest means, favoring the experimental group, were found for 23 of the 39 variables measured on the three self-report instruments. As a group the participants demonstrated substantially lower stress levels than the control group after the treatment, with a substantial decrease from their pretreatment stress levels. Since the control group received no treatment, some of the difference nay be due to Hawthorne Effect.

stress

reduce

inservice teachers

Psychology

A Mixed-Methods Examination of Inservice Elementary School Teachers' Mathematics Mentoring Experiences in a Mathematics Master's Degree Program

Dumas, Hardray

16 May 2014

Elementary school teachers teach a variety of subjects requiring a range of content and pedagogical knowledge, and substantial professional development to support this knowledge often is lacking (Clements & Sarama, 2008). Mentoring, an important aspect of professional development, is particularly useful for developing content and pedagogical knowledge. However, content mentoring, i.e., mentoring support in a specific content area such as mathematics, has received little attention in research on elementary teachers. To address this gap in the research, this study examines support in a master’s program that provides mentoring specifically in mathematics for elementary school teachers. Using a sequential explanatory design, this mixed methods study employs the Mentoring for Effective Mathematics Teaching (MEMT) survey with twenty-six (26) graduates of the program. The 34-item Likert scale survey reveals perceptions of their mathematics mentoring experience. In order to obtain a deeper understanding of the perceptions, four (4) of the teachers participated in semi-structured interviews. This last data source provides additional insights into the role of school context in mentoring. The results reveal qualities of mentors that inservice elementary mathematics teachers found to be important beyond mathematics content knowledge, specifically, differences in school contexts that impact elementary mathematics teachers’ mentoring experiences. The results suggest direction for future research on mentoring for elementary school teachers who teach mathematics.

mentoring

elementary

mathematics education

inservice teachers

Inservice Professional Development for Educators in a Democracy: Moving From Theory to Practice

Wadham, Rachel Lynn

11 April 2024

This dissertation presents research that addresses the question of how professional development influences inservice teachers' professional identity. In three journal articles, specific inquiries address research questions drawn from this broader conversation. In article one, we answered the question of what unifying characteristics democratic educators exhibit in their pedagogies and methods. By conducting an integrative literature review, we find that those who indicate that they are democratic educators used four major pedagogical categories including inquiry methods, artistic methods, oral methods, and student-centered methods. In the second article, we addressed the question of how professional development influences teachers' professional civic identities. In an analysis of a qualitative descriptive survey, we found five major representative identity themes: innovative classroom practice, empathetic learning environments, relationships of trust, voices of confidence, and social connectedness. In the last article, we addressed the question of how affective identity may impact teacher practice. This qualitative exploratory study identified six potential intersections of affective outcomes and practice including gratitude and enhancing partnerships, empathy and building relationships, curiosity and focusing on improvements, excitement, and changes in classroom practice, hope and stronger advocacy, and passion and understanding diversity. By studying the lived experiences of teachers in a specific professional development program this dissertation captures aspects of inservice teachers' growth that can serve to influence the continued development of theory and research on professional identity growth and professional development programs.

professional development

democracy

professional identity

inservice teachers

Education

Enhancing Assistive Technology Service Delivery: Preservice and Inservice Teachers Learn Together Through a Service Learning Course

Marks, Lori J., Montgomery, D. J.

12 January 2002

No description available.

assistive technology

inservice teachers

preservice teachers

service learning

Special Education and Teaching

Technological Pedagogical Content Knowledge: Secondary School Mathematics Teachers’ Use of Technology

Stoilescu, Dorian

31 August 2011

Although the Technological Pedagogical Content Knowledge (TPACK) framework has shown a lot of promise as a theoretical perspective, researchers find it difficult to use it in particular environments because the requirements of the framework change in specific contexts. The purpose of this study was to explore and produce more flexible ways of using the TPACK for inservice mathematics secondary teachers. Three such teachers at an urban public school were observed in their classrooms and interviewed about their experiences of teaching mathematics and integrating computer technology in their day-to-day activities. Each participant had over 10 years experience in teaching mathematics in secondary schools in Ontario, and expertise in using computers in mathematics curriculum. The research questions were: 1) How do secondary school mathematics teachers describe their ways of integrating technology? 2) What difficulties do teachers have when they try to integrate technology into mathematics classrooms? The findings from the first research question show that teachers displayed a high degree of integration of technology. Their activities were very clearly designed, conferring clear roles to the use of integrating computer technology in mathematics classes. Teachers had specific approaches to integrate computer technology: a) to allow students opportunities to learn and experiment with their mathematical knowledge; b) to help them pass the content to the students in the process of teaching mathematics; and c) to assess and evaluate students’ work, and give them feedback. The findings from the second research question reveal that teachers had difficulties in purchasing and maintaining the computer equipment. They had some difficulties in trying to integrate new technologies as these required time, preparation, and dedication. In addition, teachers had some difficulties in making students use computers in a significant way. The implication for teacher education is that inservice teachers should have opportunities to update their computer and pedagogical skills, a long term perspective in integrating technology in mathematics education, and professional and technical support from teaching colleagues and administrators. Finally, the integration of computer technology in mathematics requires more intensive teamwork and collaboration between teachers, technical support staff, and administrators.

Secondary Mathematics Education

Inservice Teachers

0280

0533

0710

0727

Technological Pedagogical Content Knowledge: Secondary School Mathematics Teachers’ Use of Technology

Stoilescu, Dorian

31 August 2011

Although the Technological Pedagogical Content Knowledge (TPACK) framework has shown a lot of promise as a theoretical perspective, researchers find it difficult to use it in particular environments because the requirements of the framework change in specific contexts. The purpose of this study was to explore and produce more flexible ways of using the TPACK for inservice mathematics secondary teachers. Three such teachers at an urban public school were observed in their classrooms and interviewed about their experiences of teaching mathematics and integrating computer technology in their day-to-day activities. Each participant had over 10 years experience in teaching mathematics in secondary schools in Ontario, and expertise in using computers in mathematics curriculum. The research questions were: 1) How do secondary school mathematics teachers describe their ways of integrating technology? 2) What difficulties do teachers have when they try to integrate technology into mathematics classrooms? The findings from the first research question show that teachers displayed a high degree of integration of technology. Their activities were very clearly designed, conferring clear roles to the use of integrating computer technology in mathematics classes. Teachers had specific approaches to integrate computer technology: a) to allow students opportunities to learn and experiment with their mathematical knowledge; b) to help them pass the content to the students in the process of teaching mathematics; and c) to assess and evaluate students’ work, and give them feedback. The findings from the second research question reveal that teachers had difficulties in purchasing and maintaining the computer equipment. They had some difficulties in trying to integrate new technologies as these required time, preparation, and dedication. In addition, teachers had some difficulties in making students use computers in a significant way. The implication for teacher education is that inservice teachers should have opportunities to update their computer and pedagogical skills, a long term perspective in integrating technology in mathematics education, and professional and technical support from teaching colleagues and administrators. Finally, the integration of computer technology in mathematics requires more intensive teamwork and collaboration between teachers, technical support staff, and administrators.

Secondary Mathematics Education

Inservice Teachers

0280

0533

0710

0727

Thinking About Teaching: Does Mentoring a Student Teacher Cause a Cooperating Teacher to be More Reflective?

Laverick, Vincent T.

27 April 2016

No description available.

Education

Educational Theory

student teacher

cooperating teacher

reflection

metacognition

pre-service teachers

inservice teachers

teacher intern

reflective practices

Design and validation of a standards-based science teacher efficacy instrument

Kerr, Patricia Reda

14 September 2006

No description available.

Science Education Standards

Science Teacher Efficacy Beliefs

Beliefs about Student Achievement

Efficacy Beliefs

<b>Informing Educator Preparation Programs: Insights into Technology Integration</b>

Daniela Vilarinho Rezende Pereira (19192777)

22 July 2024

<p dir="ltr">The overarching purpose of this three-paper dissertation was to investigate the affordances of technology in educational settings and gain insight into how preservice and inservice teachers integrate technology as they design, develop, implement, and manage learning experiences. To meet this goal, three studies were conducted. In study 1 the purpose was to describe how preservice teachers identify educational problems and suggest solutions in which educational technology can be meaningfully implemented by using a problem-solving lens. Participated in this study 100 preservice teachers enrolled in an introductory educational technology course. Students’ technology integration activity was analyzed for this study. This activity, divided into three parts, required that students (1) shared and reflected on their best academic learning experience, (2) described how they could integrate technology into that learning experience, and (3) revisited their suggestions for technology integration, evaluated their ideas, and suggested revisions. Data were analyzed using an ill-structured problem-solving model synthesized from previous literature: identifying problems, generating solutions, making justifications, and monitoring. Results of this study indicated that preservice teachers had a simplistic understanding of technology integration, likely resulting from underdeveloped problem-solving skills. In study 2 the purpose was to identify the instructional strategies and technology affordances used while integrating technology that facilitated the development of student creativity by completing a systematic literature review about how technology (i.e., social media) is being used by educators to foster creativity. After the process of identification and screening, a total of 27 articles met the inclusion criteria and were selected for further analysis. The results indicated that, in most studies in which the use of technology was associated with promoting student creativity, a student-centered approach was used. Students had autonomy and flexibility to produce content, express their opinions, and share their experiences using social media. Also, participants used social media to create their own products, communicate with others, and collaborate virtually. In the studies, we identified that the social media affordances of ownership, association, and visibility lead to fostering student creativity. In conclusion, social media, when integrated with appropriate instructional strategies, can be successfully used as an educational tool to build an environment that promotes student creativity. In study 3 the purpose was to analyze the forms in which special education teachers design learning experiences that provide an environment for creativity development for students from special education and how their proposed technology integration plays a role in it across different settings (i.e., face-to-face, blended, and online learning). Three practicing teachers enrolled in an online graduate program in special education participated in this study. For the purpose of this study, the primary data source consisted of assignments (i.e., artifacts and reflections) submitted by students to the Technology Integration - Blended and Online Teaching (Ti-BOT) program, a licensure required as part of their Special Education program. Artifacts were analyzed through the lens of the existing literature on learning environments for creativity. Reflections were analyzed using a thematic analysis approach, applying a combination of inductive and deductive coding. The artifacts presented by the participants included elements of a creative environment and technology often facilitated the development of such an environment. However, the participants did not appear to explicitly and intentionally design activities to foster creativity, but to make modifications to learning activities and assessments that reflected the level of individualization and adaptations that are typically expected from special education teachers, described in individualized education plans (IEPs), and guided by Universal Design for Learning (UDL) principles. With the findings from this three-paper dissertation, the goal is to provide recommendations for how educator preparation programs can improve how they are approaching technology integration, gain deeper understanding of technology integration across diverse contexts and tools, and offer strategies for supporting the deeper consideration of how technologies can be meaningfully used.</p>

Technology Integration

Preservice and Inservice Teachers

Creativity

Educator Preparation Programs

Learning Environment

Special Education

Investigating the Effects of Cognitive Apprenticeship-Based Instructional Coaching on Science Teaching Efficacy Beliefs

Cooper, Teo O.H.

18 March 2015

The overall purpose of this collected papers dissertation was to examine the utility of a cognitive apprenticeship-based instructional coaching (CAIC) model for improving the science teaching efficacy beliefs (STEB) of preservice and inservice elementary teachers. Many of these teachers perceive science as a difficult subject and feel inadequately prepared to teach it. However, teacher efficacy beliefs have been noted as the strongest indicator of teacher quality, the variable most highly correlated with student achievement outcomes. The literature is scarce on strong, evidence-based theoretical models for improving STEB. This dissertation is comprised of two studies. STUDY #1 was a sequential explanatory mixed-methods study investigating the impact of a reformed CAIC elementary science methods course on the STEB of 26 preservice teachers. Data were collected using the Science Teaching Efficacy Belief Instrument (STEBI-B) and from six post-course interviews. A statistically significant increase in STEB was observed in the quantitative strand. The qualitative data suggested that the preservice teachers perceived all of the CAIC methods as influential, but the significance of each method depended on their unique needs and abilities. STUDY #2 was a participatory action research case study exploring the utility of a CAIC professional development program for improving the STEB of five Bahamian inservice teachers and their competency in implementing an inquiry-based curriculum. Data were collected from pre- and post-interviews and two focus group interviews. Overall, the inservice teachers perceived the intervention as highly effective. The scaffolding and coaching were the CAIC methods portrayed as most influential in developing their STEB, highlighting the importance of interpersonal relationship aspects in successful instructional coaching programs. The teachers also described the CAIC approach as integral in supporting their learning to implement the new inquiry-based curriculum. The overall findings hold important implications for science education reform, including its potential to influence how preservice teacher training and inservice teacher professional development in science are perceived and implemented. Additionally, given the noteworthy results obtained over the relatively short durations, CAIC interventions may also provide an effective means of achieving improvements in preservice and inservice teachers’ STEB more expeditiously than traditional approaches.

Science Teaching Efficacy Beliefs

Instructional Coaching

Science Education

Preservice Teachers

Science Education Reform

Science Teacher Professional Development

Inservice Teachers

Elementary Education and Teaching

Science and Mathematics Education