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The Influence of High - School Home Economics and Science Courses Upon the Grades Earned by Home Economics Majors in CollegeJordan, Gladys Green 08 1900 (has links)
This study compared two groups of college home economics and science students in order to establish whether or not previous experience influences ability. One group received high school education in the two areas and the other did not.
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An Investigation into Instructional Support for Data Analysis in High School Science InquiryBaker-Lawrence, Anika Rae 13 December 2013 (has links)
The implementation of scientific inquiry in the high school classroom has proven to be not only relevant and exploratory, but challenging and engaging as well. This style of curriculum design has been recognized as a primary means of achieving the goals and objectives set by the National Resource Council (NRC, 1996). While much research has shown that science inquiry helps students to gain understanding of content knowledge, little research has been conducted to assess gains in higher order thinking skills, specifically those related to data analysis (Anderson, 2002; Germann and Aram, 1996; Hofstein, Navon, Kipnis, and Mamlok-Naaman, 2005; Miner, Levy, and Century, 2009; Windschitl, Thompson, and Braaten, 2008; Zohar and Dori, 2003). Through a better understanding of the scientific inquiry process as well as insights into students' struggles with data analysis, we can better understand how to effectively implement strategies in the classroom that encourage the higher order thinking skill of data analysis. This mixed methods, multiple-case study investigated teacher practice in eight high school science inquiry units in the Portland, Oregon metropolitan area and the data analyses that students produced in their accompanying work samples. The results of this study indicate that students struggle to produce proficient analysis and interpretations of data. The areas of student struggle were in the areas that required higher order thinking: analyzing results, drawing conclusions, and communicating results. Furthermore, this research discusses areas of data analysis instruction that may benefit from professional development opportunities.
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Ninth Grade Student Responses to Authentic Science InstructionEllison, Michael Steven 28 July 2015 (has links)
This mixed methods case study documents an effort to implement authentic science and engineering instruction in one teacher's ninth grade science classrooms in a science-focused public school. The research framework and methodology is a derivative of work developed and reported by Newmann and others (Newmann & Associates, 1996). Based on a working definition of authenticity, data were collected for eight months on the authenticity in the experienced teacher's pedagogy and in student performance. Authenticity was defined as the degree to which a classroom lesson, an assessment task, or an example of student performance demonstrates construction of knowledge through use of the meaning-making processes of science and engineering, and has some value to students beyond demonstrating success in school (Wehlage et al., 1996). Instruments adapted for this study produced a rich description of the authenticity of the teacher's instruction and student performance.
The pedagogical practices of the classroom teacher were measured as moderately authentic on average. However, the authenticity model revealed the teacher's strategy of interspersing relatively low authenticity instructional units focused on building science knowledge with much higher authenticity tasks requiring students to apply these concepts and skills. The authenticity of the construction of knowledge and science meaning-making processes components of authentic pedagogy were found to be greater, than the authenticity of affordances for students to find value in classroom activities beyond demonstrating success in school. Instruction frequently included one aspect of value beyond school, connections to the world outside the classroom, but students were infrequently afforded the opportunity to present their classwork to audiences beyond the teacher.
When the science instruction in the case was measured to afford a greater level of authentic intellectual work, a higher level of authentic student performance on science classwork was also measured. In addition, direct observation measures of student behavioral engagement showed that behavioral engagement was generally high, but not associated with the authenticity of the pedagogy. Direct observation measures of student self-regulation found evidence that when instruction focused on core science and engineering concepts and made stronger connections to the student's world beyond the classroom, student self-regulated learning was greater, and included evidence of student ownership.
In light of the alignment between the model of authenticity used in this study and the Next Generation Science Standards (NGSS), the results suggest that further research on the value beyond school component of the model could improve understanding of student engagement and performance in response to the implementation of the NGSS. In particular, it suggests a unique role environmental education can play in affording student success in K-12 science and a tool to measure that role.
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A comparative analysis of reforms in organizing curricula and methods of secondary science instruction in the United States during the last decades of the nineteenth and twentieth centuriesTurpin, Pamela C. 03 October 2007 (has links)
This study involved a comparative analysis of reforms in the organization and structure of curricula and instruction in science education in the United States during the last decades of the nineteenth and twentieth centuries. A review of literature of these periods revealed similar concerns and goals for science instructional reform in schools.
With the use of primary and secondary sources from these decades, a comparison of the conditions surrounding the reform movements was made. The author explored such concerns as educational norms, aims, values, customs, curricula content, instructional methods, psychological bases and their relationships with the technological and scientific cultures of the times. This comparison characterized common factors associated with the two reform movements.
A historical characterization of the two reform periods identified relationships and responses of science education reform to social, educational, scientific, technological, and economic influences. These relationships and responses represent some of the common factors that late-nineteenth century and late-twentieth century reform movements in science education share. The author determined that although the terms, phrases, and jargon used by late-nineteenth century science education reformers sound similar to those used today, the reform efforts are not as similar as they seem.
Different meanings of reform terminology used by educators of the two time periods resulted in science education means and goals that are distinct for each period, although the terminology used to describe these ideals sounds and appears very similar. This study shows how science education reforms in the late-nineteenth and late-twentieth centuries responded to the world of which they were a part, and how under apparent similar conditions, responses of reformers appear similar, but in reality are different. / Ph. D.
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Botswana student teachers' views on the nature of science and scientific method: a critical reflectionKadiyala, Aparna 30 June 2005 (has links)
The assumption of the present study is that teachers should possess an adequate understanding of the nature of science and scientific method and hence this aspect was investigated. The empirical research carried out with Secondary School teacher trainees at Botswana colleges of education showed the following:
Subjects possess an adequate understanding of some aspects of the nature of science and several aspects of the scientific method. They however do not have an adequate understanding on certain aspects of the nature of science. An association was found between the nature of science, type of educational institution attended, years of study and majoring in science. A positive association was found between scientific method and years spent studying. The present study recommended the inclusion of history, philosophy and sociology of science in the curriculum of teacher education. / Educational Studies / M. Ed. (with specialisation in Natural Science Education)
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Botswana student teachers' views on the nature of science and scientific method: a critical reflectionKadiyala, Aparna 30 June 2005 (has links)
The assumption of the present study is that teachers should possess an adequate understanding of the nature of science and scientific method and hence this aspect was investigated. The empirical research carried out with Secondary School teacher trainees at Botswana colleges of education showed the following:
Subjects possess an adequate understanding of some aspects of the nature of science and several aspects of the scientific method. They however do not have an adequate understanding on certain aspects of the nature of science. An association was found between the nature of science, type of educational institution attended, years of study and majoring in science. A positive association was found between scientific method and years spent studying. The present study recommended the inclusion of history, philosophy and sociology of science in the curriculum of teacher education. / Educational Studies / M. Ed. (with specialisation in Natural Science Education)
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Measure it!: Developing an electronic resource for scientific measurement skillsBerenato, Gregory 01 January 2005 (has links)
The purpose of the project was to develop an electronic resource that would provide a tutorial for students and offer opportunities for practice of measurement skills.
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An effective science education program can be a deterrent to the drop out of Hispanic femalesField, Sally Anne 01 January 2005 (has links)
The purpose of this study is to look at parallel factors between the Hispanic female dropout rate and possible resiliency methods such as retention through inquiry based science education. This type of educational program might provide insight into the many educational possibilities that are open to Hispanic females.
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Student discourse in a natural science classroom : a case study of high school teaching in SwazilandSitsebe, Vusi Friday 07 1900 (has links)
The aim of the study was to investigate classroom discourse among high school natural science students in Swaziland.
The research problem was:
Can student interactions tell us something about the negotiation of understanding during natural science teaching?
A qualitative approach was used, specifically, the observational case study style. The population comprised three Form 4 students and their natural science teacher, purposely selected. Data was collected using the non-participant observation and the standardised open-ended interview methods.
The collected data was analysed using the discourse analysis approach. The analysed data indicated that prevailing discourse patterns were teacher and student talk, as well as written work.
A conclusion was that student classroom discourse in the natural sciences should be encouraged among all students for improved understanding and meaning making. / Science and Technology Education / M. Ed. (Natural Science Education)
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Challenges of using English as a medium of science instruction in a South African context : a view from FET learners and educatorsZisanhi, Daniel 11 1900 (has links)
This study explores the challenges faced by high school science learners when they use English language as a medium of instruction in a South African context. Questionnaires were administered and focus group interviews were conducted with both science learners and science educators. Results indicated that learners are challenged in a number of ways when English is used to teach science especially if English is not their home language. Both learners and educators prefer to be taught and teach science respectively in English though ideally learners would like to be taught in their home languages. To overcome these challenges a home language scientific register should be drawn to cater for all learners’ home language, learners should also be proficient in English or language of science instruction. / Science and Technology Education / M. Ed. (Natural Science Education)
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