Zehavit Kohen scite author profile

Context-based learning (CBL), promoting students' scientific text comprehension, and fostering metacognitive skills, plays an important role in science education. Our study involves CBL through comprehension and analysis of adapted scientific articles. We developed a module which integrates metacognitive prompts for guiding students to monitor their understanding and improve their scientific text comprehension. We investigated the effect of these metacognitive prompts on scientific text comprehension as part of CBL in chemistry. About 670 high school chemistry students were randomly divided into three groups exposed to high-and low-intensity CBL. One of the high-intensity groups was also exposed to metacognitive prompts. Research tools included pre-and post-questionnaires aimed at measuring students' conceptual chemistry understanding and metacognitive knowledge in the context of reading strategies, before and after exposure to the CBL. Chemistry understanding was reflected by students' ability to identify the main subject of the adapted article and by explaining concepts both textually and visually. We found that high-intensity CBL combined with metacognitive prompts improved students' chemistry understanding of the adapted scientific articles and the ability to regulate their learning. Our study establishes that reading context-based adapted scientific articles advances students' conceptual chemistry understanding. These gains are strongly amplified by domain-specific metacognitive prompts. ARTICLE HISTORY

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Promoting preservice teachers’ dual self-regulation roles as learners and as teachers: effects of generic vs. specific prompts

Kramarski

Kohen

2016

Metacognition Learning

102

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Trends and perceptions of choosing chemistry as a major and a career

Avargil

Kohen

Dori

2020

Chem. Educ. Res. Pract.

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In many countries, the choice of a STEM career, especially in chemistry, is decreasing. A shortage of appropriately skilled workers can become a threat to any country's future achievements. Our research strives to understand behavioral trends and career choice factors related to personal and environmental themes. Building on the foundations of the Social Cognitive Career Theory, the research sheds light on prospective trends and retrospective perceptions of chemistry-related professionals in choosing chemistry in high school, as a career, and as a STEM occupation. To analyze the prospective trends in choosing chemistry, we used data curated by the Israel Central Bureau of Statistics on 545 778 high school graduates. For the retrospective perceptions of choosing a chemistry career, we investigated three research groups (N = 190): chemists and chemical engineers, chemistry teachers, and third year undergraduate chemistry students. We found that choosing chemistry as a major and profession decreases from high school to higher education. Women tend to choose chemistry more than men at high school and university levels, and minorities tend to choose it more in high school but less in higher education compared to non-minorities. Task-oriented self-efficacy was the factor which contributed the most to chemistry career choice in all three research groups. The theoretical contribution is the unique SCCT application through the integration of both the prospective views on the behavioral theme and the retrospective views on the personal and environmental themes. Furthermore, we present new chemistry-related factors within the personal theme of this theoretical framework that can extend the SCCT framework.

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Developing Self-Regulation by Using Reflective Support in a Video-Digital Microteaching Environment

Kohen

Kramarski

2012

Education Research International

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Recent research efforts have established that self-regulated learning (SRL) is necessary for teachers to attain successful professional development. Our study addresses two central questions: under what conditions in preservice teachers' education can SRL processes be enhanced to the optimum level, and how can we assess these processes? The participants of the study were ninety-seven preservice teachers, who were engaged in real-time teaching in a video-digital Microteaching environment. Each participant was randomly assigned to one of two groups: reflective support (RS) for SRL or no support (NS) for SRL. Participants in the RS group were explicitly exposed to SRL aspects and were directed to address these aspects in their reflective discussions of the teaching experience. The SRL process was measured as an online event during real-time teaching exercises, based on a coding scheme developed for this study to identify and assess the SRL skills by two major aspects: metacognition (planning, information management, monitoring, debugging, and evaluating) and motivation (interest and value, self-efficacy, and teaching anxiety). Results indicate that the RS group outperformed the NS group in all SRL measures. Implications for reflective support for SRL and event measures of real-time observations of preservice teachers' SRL are discussed.

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How to promote chemical literacy? On-line question posing and communicating with scientists

Kohen

Herscovitz

Dori

2020

Chem. Educ. Res. Pract.

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Facilitating students' chemical literacy is a focal point of current science education. This study examines views of chemists and chemistry teachers on chemical literacy and, more broadly, on scientific literacy of four kinds of stakeholders: scientists, teachers, STEM students, and the educated public. We explored the views of 347 participants, representing the four stakeholder groups with diversified scientific literacy, and an Ask-a-Scientist public website as a communication channel for facilitating chemical literacy through posing questions. Research tools included interviews, open-ended questionnaires, and questions retrieved from the website. We found that the questions posed on the website expressed a range of levels of chemical literacy that the students had constructed. The stakeholder groups expressed diverse perspectives of their experiences using various types of communication channels, arguing for the need to encourage students to pose questions and receive scientists' responses. Our study is placed in the larger context of scientific literacy and communication channels, as it takes the example of chemical literacy, with a focus on communications among scientists and chemistry teachers in the context of an Ask-a-Scientist website. It has established a link between responses of various stakeholders and the literature definitions regarding scientific literacy with focus on chemical literacy. From a practical viewpoint, the study presents a productive communication channel for posing questions in the context of chemistry and other sciences. Methodologically, this study includes the design of tools for analyzing both the views of different stakeholders and for evaluating the complexity level of chemistry questions, which might serve chemistry educators.

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Zehavit Kohen

Context-based learning and metacognitive prompts for enhancing scientific text comprehension

Promoting preservice teachers’ dual self-regulation roles as learners and as teachers: effects of generic vs. specific prompts

Trends and perceptions of choosing chemistry as a major and a career

Developing Self-Regulation by Using Reflective Support in a Video-Digital Microteaching Environment

How to promote chemical literacy? On-line question posing and communicating with scientists

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