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An appraisal of broad subject-matter areas in the pre-service preparation program of biology teachers in West Virginia /Adalis, Dorothy January 1965 (has links)
No description available.
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Verbal interaction patterns in the classrooms of selected science teachers : biology /Gold, Louis Lance January 1966 (has links)
No description available.
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An exploratory investigation of verbal and non-verbal behaviors of BSCS teachers and non-BSCS teachers /Balzer, A. LeVon January 1968 (has links)
No description available.
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Integrating an aboriginal perspective: issues and challenges faced by non-aboriginal biology teachersBlood, Tracy Unknown Date
No description available.
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Integrating an aboriginal perspective: issues and challenges faced by non-aboriginal biology teachersBlood, Tracy 11 1900 (has links)
This exploratory case study investigated the ways non-Aboriginal teachers of Biology conceive of incorporating Aboriginal perspectives into their delivery of the Biology curriculum in Alberta. The participants in this study were non-Aboriginal Biology teachers teaching in schools with predominantly non-Aboriginal students. Semi-structured interviews were conducted with each of the teacher participants and explored issues and challenges that they face infusing Aboriginal contexts into their teaching. The qualitative data generated were coded using themes developed from a conceptual framework for curriculum implementation. The majority of the teachers saw value in incorporating Aboriginal perspectives but shared concerns due to: unclear definitions of Aboriginal and Aboriginal perspectives; an inadequate knowledge base; and lack of material resources and professional development opportunities. Recommendations to help non-Aboriginal teachers include: better access to and targeted professional development and resources; greater clarification on the definitions of Aboriginal and Aboriginal perspectives; and greater amounts of administrative and governmental support.
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Evolution as represented through argumentation a qualitative study on reasoning and argumentation in high school biology teaching practices /Yalcinoglu, Pelin. January 2007 (has links)
Thesis (Ph. D.)--Ohio State University, 2007. / Full text release at OhioLINK's ETD Center delayed at author's request
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An Investigation of Technical Vocabulary Lists Among the High School Teachers of Biology in Northwestern OhioStevens, Robert E. January 1950 (has links)
No description available.
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Evaluating the impact of a Biology I professional development seriesSampsell, Jacquelyn Scipper, January 2005 (has links)
Thesis (Ed.D.) -- Mississippi State University. Department of Curriculum and Instruction. / Title from title screen. Includes bibliographical references.
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Life sciences teachers' understanding of the nature of science within the context of teaching evolution.Kirsten, Fadeela. 28 October 2014 (has links)
The introduction of evolution in the ‘new’ Grade 12 life sciences curriculum in 2008 has created many challenges for life sciences teachers. The curriculum requires teachers to integrate evolution in all aspects of their teachings. The literature reveals that many life sciences teachers teach the concept of evolution in isolation and fail to integrate the topic as the underlying principle of Biology. Various studies conclude that teachers’ understandings and beliefs about the NOS no doubt influence their classroom instruction. This study explores life sciences teachers’ understanding of the NOS when teaching the theory of evolution. The NOS is used as the framing concept of the study. My research is a case study of three experienced life sciences teachers. Data was obtained from questionnaires, classroom observations and interviews with the teachers. This data provided valuable insight into the teachers’ understanding of the NOS as well as the way in which this understanding influences their pedagogical practices. Furthermore I was able to develop some understanding of why teachers teach evolution in the way that they do. The instruments were analysed qualitatively. The findings were reported as narratives and reveal that the teachers have different levels of understanding of the NOS. These different understandings have a profound influence on their understanding of evolution, however their understanding of the NOS did not have the same effect on the manner in which they taught evolution. While all three teachers had some misunderstandings, two teachers were able to teach evolution without demonstrating these misconceptions, while one teacher was not. Furthermore, there are also a number of additional factors such as exam-driven approaches, teacher identity, controversy surrounding the theory of evolution, and finally, lack of resources that impact negatively on the way evolution is taught. In conclusion I offer strategies to improve life sciences teachers’ understanding of the NOS and evolution and highlights areas for further research. / M. Ed. University of KwaZulu-Natal, Durban 2013.
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Indiana high school biology teachers and evolutionary theory : acceptance and understandingRutledge, Michael L. January 1996 (has links)
The purpose of this dissertation was to explore the status of and relationships among the variables of teacher acceptance of evolutionary theory, teacher understanding of evolutionary theory, and teacher understanding of the nature of science among Indiana public high school biology teachers. The relationships between these variables and the emphasis evolution receives in the classroom and teacher academic variables were investigated. Teacher knowledge structure of the concept of evolution was also explored.To answer the questions and hypotheses delineated in the study, a 68-item questionnaire and concept mapping activity was administered to the population of 989 teachers. The response rate was 53%.The teachers exhibited only a moderate level of acceptance and a marginal level of understanding of evolutionary theory. Teacher understanding of the nature of science was moderately high. Evolution played only a minor role in the curriculum. While the teachers had completed considerable course work in biology, the vast majority lacked specific course work in evolution and the nature of science.The data revealed a significant relationship between teacher acceptance and teacher understanding of evolutionary theory and between teacher acceptance of evolutionary theory and teacher understanding of the nature of science. The data also revealed significant associations between teacher allocation of instructional time to evolution and teacher level of acceptance of evolutionary theory, teacher level of understanding of evolutionary theory, teacher level of understanding of the nature of science, and teacher completion of a course in evolution. Additionally, the data revealed significant associations between teacher level of understanding of evolutionary theory and teacher completion of a course in evolution and teacher academic background in biology. Significant associations were revealed between teacher level of acceptance of evolutionary theory and both teacher completion of a course in evolution and teacher completion of a course in the nature of science.A significant amount of the variance in teacher acceptance of evolutionary theory was explained by the other variables delineated. The concept mapping activity revealed that teacher acceptance and understanding of evolutionary theory was reflected in teacher knowledge structure of evolution and that teachers' knowledge structures were characterized by an unsophisticated organizational framework. / Department of Biology
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