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An analysis of the teacher uses of the Progress report of the Elementary Science CommitteeWhitman, Joel Steven January 1968 (has links)
There is no abstract available for this dissertation.
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An investigation into how grade 9 Physical Science learners make meaning of the topic on acids and bases through exploring their prior everyday knowledge and experiiences: a case studyKambeyo, Linus January 2013 (has links)
This study was conducted at the school where I teach which is a semi-rural secondary school (Grade 8-12) situated in Omuthiya Town in Oshikoto region, Namibia. The new curriculum that has been implemented in Namibia, has posed challenges in how best to put the curriculum into practice at this school. It was this challenge that triggered my interest in doing a research study with the aim of improving my practice. Essentially, the study sought to gain insight into whether integrating learners’ prior everyday knowledge and experiences of acids and bases in conjunction with practical activities using easily accessible materials enabled or constrained meaning-making of this topic. This study is located within an interpretive paradigm. Within this paradigm, a qualitative case study approach was adopted with my Grade 9 class. Data were gathered using document analysis, videotaped lessons and observations by a critical friend, stimulated recall discussions while watching the videotaped lessons as well as focus group interviews with the learners. An inductive analysis to discover patterns and themes was applied during the data analysis process. The themes were further turned into analytical statements. Data sets were also analysed in relation to the research questions posed by this study. The validation process was achieved by using a variety of data gathering techniques. I watched the videotaped lessons with a teacher who observed the lessons and transcripts of the interviews and a summary of discussions were given back to the respondents to verify their responses and check for any misinterpretations, a process known as member checking. I also translated what the learners said in Oshiwambo, their home language, into English. The findings from the study revealed that the use of learners’ prior everyday knowledge and experiences of acids and bases facilitated meaningful learning during teaching and learning. Furthermore, linking learning to learners’ everyday experiences enabled them to learn scientific concepts in a relaxed and non-threatening environment. However, linking learners’ prior knowledge and experiences to conventional science (textbook science) proved to be a challenge. My recommendations are that teachers need support in their endeavors to incorporate learners’ real life experiences into their teaching and learning repertoires. Another aspect of my study that deserves further research is the role that language plays in implementing the curriculum.
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The role of student writing in learning in zoologyMoore, Robin Stanley January 1996 (has links)
In this study I attempt to develop a rationale for the role of student writing in advancing learning in Zoology. To this end, I use the informed and insightful voices of five academics from the University of Cape Town's Department of Zoology to present a picture of the goals of the discipline, how they view the role that student writing plays in advan~ing these goals, a sense of the tensions they face in dealing with student diversity, and the promise and challenges of innovative approaches. My interest in how staff view student writing stems from a belief that staff make use of student writing in different ways, depending on their assumptions about writing. I explore these assumptions by means of interviews with members of staff, in which I ask about how they understand the pursuit of science, the qualities a scientist needs to develop, the best ways to develop these qualities in students, and the part that student writing plays in this development. What emerges in this study is the understanding that the kinds of writing we ask students to do reflect the forms of educational practice that we sustain. On the one hand, certain forms of writing may support forms of transmission pedagogy that are viewed as being at odds with progressive science education. On the other hand, if we are to develop alternative teaching approaches which are in keeping with contemporary views of science and learning, then we need to develop new genres of student writing that give expression to these goals and methods. The study concludes with suggested avenues into curriculum review that would operationalise the insights developed by this study.
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A framework for validation of the use of performance assessment in scienceBartley, Anthony William 05 1900 (has links)
The assessment of learning in school science is important to the students,
educators, policy makers, and the general public. Changes in curriculum and instruction
in science have led to greater emphasis upon alternative modes of assessment. Most
significant of these newer approaches is “performance assessment”, where students
manipulate materials in experimental situations. Only recently has the development of
performance assessment procedures, and the appropriate strategies for interpreting their
results, received substantial research attention.
In this study, educational measurement and science education perspectives are
synthesized into an integrated analysis of the validity of procedures, inferences and
consequences arising from the use of performance assessment. The Student Performance
Component of the 1991 B.C. Science Assessment is offered as an example. A framework
for the design, implementation, and interpretation of hands-on assessment in school
science is presented, with validity and feasibility considered at every stage. Particular
attention is given to a discussion of the influence of construct labels upon assessment
design. A model for the description of performance assessment tasks is proposed. This
model has the advantage of including both the science content and the science skill
demands for each task. The model is then expanded to show how simultaneous
representation of multiple tasks enhances the ability to ensure adequate sampling from
appropriate content domains.
The main conclusion of this validation inquiry is that every aspect of performance
assessment in science is influenced by the perspective towards learning in science that
permeates the assessment, and that this influence must be considered at all times.
Recommendations are made for those carrying out practical assessments, as well as
suggestions of areas that invite further research. / Education, Faculty of / Curriculum and Pedagogy (EDCP), Department of / Graduate
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The status, scope and objectives of political science with general application to Kansas institutions of higher learningBooton, Carl Adelbert January 2011 (has links)
Digitized by Kansas State University Libraries
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The effect of research-based science instruction on the attitudes of students, by gender, towards science, scientists, and careers in science.Lockwood, Jeffrey Frank. January 1994 (has links)
Research-based curriculum is a system of instruction which uses an authentic learning, problem-solving, cooperative learning, hands-on, and inquiry-discovery approach, guided by a constructivist philosophy. Its usefulness has been recognized for many decades but "research in the classroom" has not been adopted as a teaching method by many. This study centers on research done by students in science classrooms. The primary purpose of this study was to measure, both quantitatively and qualitatively; (1) students' understanding, by gender, of the nature of science and, (2) student attitude changes, by gender, toward the nature of science, scientists, and careers in science before and after the completion of research projects. The gender equity problem in science classes is explored and improvements in four process skills were measured for both treatment and control groups. Also, different models of research-based science education are described. The Test of Science Related Attitudes (TOSRA) and the Nature of Science Scale (NOSS) were given pre and post to both groups. Several qualitative instruments were given and student journals were analyzed by gender. The results of TOSRA showed gains in positive attitude for students after they experience a research-based curriculum for six of the seven TOSRA scales. However, the control group had similar gains so the mixed design analysis of variance showed no statistically significant differences between control vs. treatment or male vs. female interactions. Much of the qualitative analysis revealed that students' understanding of the nature of science changes considerably after they "do" scientific research. The journal analysis and the "Research is...." question analysis show that students also have a significant affective response to the research experience. Quantitatively, the total NOSS score improvement for the treatment group was substantial (11.4 to 13.8) and better than the control, although it was not a statistically significant difference. Generally, treatment students showed greater improvement on all NOSS scales. Treatment students also had greater gains on the four different process skills measured in this study. Research-based curriculum is an effective way to change students' attitudes towards science and a sound way to increase student understanding about the nature of the research process.
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Attitudes in the culture of the learning environment in the International Science Classroom.Facciola, Peter Charles. January 1993 (has links)
This dissertation was a demonstration of a systemic approach to research about attitudes and the learning environment in a science classroom. It was based on a distinction between analytic and systemic research (Salomon, 1991). Analytic research focuses mainly on the causal effects of changes in the contents of one isolated factor on another. The systemic approach focuses on the patterns of structural relationships in an entire set of interdependent, transactionally defined factors. Therefore, classrooms were conceptualized as cultural systems to emphasize their mutually defining, transactional, aspects. On this basis, the systemic approach should raise different questions and new answers to educational issues. This distinction is critically important in science classrooms. Educators attempt to instill positive attitude change in their students by creating novel learning environments (DeBoer, 1991). Yet, researchers have examined only the effects of changes in isolated aspects of these new environments, in an analytic manner. Therefore, this dissertation demonstrated how students' attitudes were situated in the entire system of structural relationships in a classroom culture. Students (N = 162) participated in a novel curriculum called the International Science Classroom (ISC), which emphasized authentic, collaborative, interdisciplinary, and inquiry-based learning experiences. The contents of students' attitudinal, environmental, and cognitive perceptions, reported before and after the ISC, were analyzed with repeated MANOVA. The systemic relationships were analyzed with Small Space Analysis (SSA), a multidimensional scaling technique (Guttman, 1968). Students reported content changes which generally were consistent with past research: more favorable attitudes, greater achievement, and fewer gender differences. However, their more negative perceptions of the learning environment were unexpected. Students also reported changed structural perceptions of the ISC which were more tightly integrated, more dominated by mindful engagement, and more characterized by tightly clustered perceptions of attitudes and the learning environment. These results were discussed in reference to the unique insights afforded by the systemic analysis of the situation of attitudes in the classroom culture. The overarching conclusion was that analytic and systemic approaches offer complementary insights into science education, and therefore, must both be further developed.
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Malawian secondary school students' learning of science: historical background, performance and beliefs.Dzama, Emmanuel Nafe Novel January 2006 (has links)
<p>This study explored the problem of poor performance in science among students who are provided secondary school places on merit in Malawi. Existing studies of the problem are inconsistent suggesting that these studies may have shed light on some parts of a complex problem. Questionnaires, interviews and analysis of documents were used to obtain information concerning students&rsquo / conceptions of science, science learning and events that eventuated into the problem in the past. The population for this study was 89 government and governmentassisted secondary schools. From that population eighteen schools were randomly selected from each of the six education divisions in the country. One thousand five hundred secondary class 3 students drawn from randomly selected schools participated. The participating students completed a 31item learning beliefs and practices  / questionnaire with items drawn from the science education literature and adapted to the local situation and a selfefficacy and attribution of failure questionnaire. Forty students were interviewed about their concepts of science and science learning. Relevant documents found in the Malawi National Archives were analyzed to determine the origin of the problem.</p>
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An Exploration of Teacher-Child Relationships and Interactions in Elementary Science LessonsUnknown Date (has links)
This study examined the nature and quality of teacher-student interactions in a third grade science classroom and investigated how interactions and teacher-child relationships relate
to the learning of science concepts. The relationships between the three dimensions of teacher-student relationships (Closeness, Conflict, and Dependency) and teacher-student interactions
including the dimensions explaining the nature and the quality of teacher-student interactions were examined. The study also determined whether there was a relationship between students'
conceptual understanding of science and all variables of teacher-student interactions and the teacher-student relationships. First, data from the videotape and audiotape recordings were
transcribed, coded and analyzed to determine the appropriateness of the proposed interaction-types and their classification into the categories. The twelve teacher-student interaction
categories used in this study were able to capture all verbal teacher-student interactions in the classroom. Second, each teacher-student interaction was placed into the respective
dimension and group explaining the nature and quality of the interaction. Finally, Pearson Product Moment Correlations were computed to explore the possible relationships between the
teacher-student interactions and relationships and students' conceptual understanding of science. Teacher-student interaction scores were obtained through natural observations of eight- to
nine-year-old children. Students were rated by their teachers using the STRS in order to obtain teacher child relationship scores. Similarly, conceptual science understanding scores were
obtained through pre- and post-tests delivered at the beginning and end of the science unit. The findings of the study suggested a strong relationship between teacher's perception of her
relationships with the students and the teacher-student interactions in the classroom. It appears that classroom conversations mostly take place between the teacher and the students whom
the teacher perceived to have better relationships. However, it was clear from the observations that positive teacher-student relationships did not necessarily warrant for high quality
teacher-student interactions in the classroom. The quality of the teacher-student interactions during the science lessons appeared to be more moderate than high in quality. Students'
improvement in conceptual understanding of science was rather related to the positive classroom environment and the friendly classroom atmosphere created by the teacher and did not
significantly correlate with the student's individual interaction or relationship with the teacher. / A Dissertation submitted to the School of Teacher Education in partial fulfillment of the requirements for the degree of Doctor of Philosophy. / Fall Semester 2015. / November 09, 2015. / classroom discourse, classroom talk, elementary education, science education, teacher-student interactions, teacher-student relationships / Includes bibliographical references. / Ithel Jones, Professor Directing Dissertation; Robert Schwartz, University Representative; Diana Rice, Committee Member; Elizabeth Jakubowski, Committee
Member.
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Visual thinking networking promotes long-term meaningful learning and achievement for 9th grade earth science studentsLongo, Palma Joni January 2001 (has links)
An experimental and interview-based design was used to test the efficacy of visual thinking networking (VTN), a new generation of metacognitive learning strategies. Students constructed network diagrams using semantic and figural elements to represent knowledge relationships. The findings indicated the importance of using color in VTN strategies. The use of color promoted the encoding and reconstruction of earth science knowledge in memory and enhanced higher order thinking skills of problem solving. Fifty-six ninth grade earth science students (13-15 years of age) in a suburban school district outside New York City were randomly assigned to three classes with the same instructor. Five major positive findings emerged in the areas of problem solving achievement, organization of knowledge in memory, problem solving strategy dimensionality, conceptual understanding, and gender differences. A multi-covariate analysis was conducted on the pre-post gain scores of the AGI/NSTA Earth Science Examination (Part 1). Students who used the color VTN strategies had a significantly higher mean gain score on the problem solving criterion test items than students who used the black/white VTN (p = .003) and the writing strategies for learning science (p < .001). During a think-out-loud problem solving interview, students who used the color VTN strategies: (1) significantly recalled more earth science knowledge than students who used the black/white VTN (p = .021) and the writing strategies (p < .001); (2) significantly recalled more interrelated earth science knowledge than students who used black/white VTN strategies (p = .048) and the writing strategy (p < .001); (3) significantly used a greater number of action verbs than students who used the writing strategy (p = .033). a significantly higher mean number of conceptually accurate propositions than students who used the black/white VTN (p = .018) and the writing strategies (p = .010). Gender influenced the choice of VTN strategy. Females used significantly more color VTN strategies, while males used predominately black/white VTN strategies (p = .01). A neurocognitive model, the encoding activation theory of the anterior cingulate (ENACT-AC), is proposed as an explanation for these findings.
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