A study of the beliefs of science and non-science student teachers of a college of education on teaching primary science

Lee, Oi-lan, Anna., 李愛蘭.

January 1994

published_or_final_version / Education / Master / Master of Education

Science - Study and teaching (Primary)

Science teachers - Training of.

Science through the camera lens : some learners' perceptions of science.

Chelin, Vivienne.

January 2003

The role of science education is to pass on knowledge and understanding of science and its practices to learners. Learners' perceptions of science should therefore reflect those of the scientific community. The purpose of this study was to establish if learners in one South African school shared nature of science views common to the scientific community. Two key questions framed this study: What are learners' perceptions of the nature of science? and What are learners' perceptions of science within the context of their daily lives? Quantitative data was collected using a cartoon-style questionnaire to address the first research question. Qualitative data was collected from a photographic activity in which learners were asked to take photographs of science within the context of their daily lives and offer explanations of why the photographic images were representations of science. This qualitative data was used to address the second research question and map out more fully the complexity of learners' perceptions of the nature of science. The findings of this study point towards a blur between learners' perceptions of science and their perceptions of technology and provide evidence that learners' perceptions of the nature of science are inadequate. However, this study also provides evidence to suggest learners do share some nature of science views with the scientific community. The findings of this study also lend support to the argument that the learning of science should involve an explicit initiation into the culture of science. This study is a grassroots account of some attempts to include the nature of science construct within learning programs. It is simply a snapshot of what happened in one South African secondary school at the cusp of curriculum change, a collection of learners' perceptions of science captured on film and an insight into some learners' perceptions of the nature of science. / Thesis (M.Ed.)-University of Natal, Durban, 2003.

Theses--Education.

The Characteristics of National Science Foundation-Sponsored Science Programs in American Secondary Schools and Implications for Science Education in Kuwaiti Secondary Schools

Jarragh, Abdullah J. A.

05 1900

The purpose of this study is to describe and evaluate selected characteristics of the National Science Foundation-sponsored science curricular programs developed in the United States for use at the secondary school level, and to determine some curricular and instructional implications for Kuwaiti secondary school science programs. The study is designed to include a description and an evaluation of selected characteristics of four NSF-sponsored science curricular programs, namely Biological Sciences Curriculum Study (BSCS), Chemical Education Materials Study (CHEM Study), Earth Science Curriculum Project (ESCP), and Harvard Project Physics (HPP) programs. The study also includes a description and evaluation of selected characteristics of all Kuwaiti secondary school science programs in biology, chemistry, geology (earth science), and physics. The characteristics of science programs of both countries are described and evaluated, individually and collectively, by using Zorn's Criteria. Based on the results obtained, certain implications for Kuwaiti secondary school science programs are drawn, both individually and collectively. Recommendations to be considered in future revision and improvement of Kuwaiti science programs are presented. The results of the study reveal that the NSF-sponsored science programs are superior to Kuwaiti science programs in a variety of characteristics, such as the emphasis on active student involvement in inquiry-oriented activities, the inclusion of related information sources (bibliographies) in student textbooks, and the provision of extensive supplementary reading materials.

school science programs

Kuwait education

National Science Foundation

'n Kurrikulumteoretiese evaluering van die vakkurrikulum vir algemene wetenskap (Biologie) standerd twee tot vier

Van Niekerk, Walda

14 April 2014

M.Ed. (Curriculum Studies) / Please refer to full text to view abstract

Curriculum evaluation - South Africa

Science teachers' conceptions of scientific concepts

Sikkes, Ryan Timothy

16 December 2009

The purpose of this study was to examine practicing teachers' understandings of the use of misconceptions in building new scientific knowledge as well as their personal understandings of common scientific misconceptions. 91 participants from a non-random sample of teachers who teach science at the grades 5 through 8 levels completed a paper-based questionnaire of which 6 were subsequently interviewed. The data collected included demographic data (gender, age, teaching experience, and educational background), a self-assessment of personal content knowledge, a survey of classroom practices utilized, and a series of science ideas that were evaluated as either true or false by the participants. Various relationships between these data were identified. It was found that age and teaching experience had no effect on participants' abilities to identify misconceptions. In addition, participants with more scientific backgrounds were better able to identify misconceptions. Conclusions include the need for explicit instruction about the role of misconceptions in preservice teacher education and through improved professional development opportunities for science teachers.

science teachers

science study and teaching

middle school

British Columbia

'n Evaluering van 'n modulêre onderrigmodel in natuur- en skeikunde

Schoeman, Johan Willem

15 April 2014

M.Ed. (Curriculum Studies) / The problem whether competency based modular education (CBE) programs produce better results than conventional educational methods has been investigated and discussed in this report. A comprehensive literature study indicated that the upholders of the CBE program advocated better results than the conventional educational methods in most of the instances. Most research showed positive results. An empirical research on micro-level was launched to determine whether this was the case or not. The procedure was to use a group of standard eight pupils, at a TED school in the south of Johannesburg. They were about to complete a part of the syllabus on electricity as part of this research. An experimental group and a control group was selected at random. The experimental group was sUbjected to the CBE method and the control group to the conventional method of Science teaching.

Science and literature: An integrated model

Prows, Lisbeth S.

01 January 1991

No description available.

Reading (Elementary)

Language arts (Elementary)

Science and Mathematics Education

The implementation and evaluation of a constructivist intervention in secondary school Science teaching in Seychelles

Anyanwu, Raymond Ndubisi

31 August 2008

Recent studies on human cognition have presented credible evidence that learners are not tabula rasa as previously conceived by traditional theorists, rather they enter new lessons with some preconceptions, most of which are resistant to change in spite of teachers' efforts to assuage them. As such the challenges confronting science educators and educational psychologists are to understand the nature of learners' preconceptions, designing and implement appropriate instructional interventions that would enable the learners become aware of and reconcile their conceptions that are inconsistent with accepted views of science. Several perspectives have been advocated on how learners' preconceptions can be modified through instructions. While traditional theorists subscribe to substitution of inaccurate conceptions with accurate ones, the constructivists identify with giving the learners autonomy to inquire and re-evaluate their own ideas. The former has been confronted with widespread criticism and is becoming less and less tenable. This research identifies with the latter. Conceptual change entails restructuring of ideas. It is a cognitive process that involves change in attitude toward learning. Based on the theoretical assumption that learning is facilitated through teaching that give the learners autonomy search to new ideas, verify them, and restructure existing ideas, I developed a model of conceptual change from where I deduced the four sub variables of the conceptual change that this study explored. The sub variables include formulation of ideas, search for new ideas, review of meaning, and transfer of knowledge. My assumption was that conceptual change can be facilitated through instructions that engage learners in experiences relevant to the four sub variables that I have mentioned. This conceptual framework served as my reference point for the designing of the Constructivist Teaching Model that consists of four instructional phases. Judging that I was resident and working in Seychelles as a teacher trainer at a time I developed the Constructivist Teaching Model, I chose to implement and evaluate it first in Seychelles. Hence this study is titled `The implementation and evaluation of a constructivist intervention in secondary school science teaching in Seychelles'. The purpose of this study is to investigate the effect of the constructivist teaching model as an intervention to facilitate conceptual change. Basically, there are two main aims of this study. First, to investigate to what extent the constructivist teaching model facilitates conceptual change. Secondly, to investigate if the paradigms shift from the traditional method to the constructivist method of science teaching is welcomed in Seychelles. This study was carried out in two phases Pretest and Evaluation. Pretest was aimed at identifying the weaknesses of the initial version of my model of constructivist teaching with a view to eliminate those weaknesses to further strengthen the model. In a nutshell pretest was a step taken to enhance the validity of the model. Evaluation on the other hand was aimed at making a judgment whether a difference actually exists between the learners that received constructivist instruction and those that received traditional lecture instruction in terms of the four sub variables of conceptual change. To enable for this judgment necessitated an experiment. The experiment was conducted with a total of six secondary schools selected from the ten secondary schools on the island. The participants included 178 learners, 6 science teachers and 8 independent persons. The learners were constituted into three Bands; 1, 2 and 3. Each Band consisted of a Control group and an Experimental group. Altogether six groups were formed, with 3 Control groups and 3 Experimental groups. There were 59 learners in Band 1, comprising of 29 learners in the Control group and 30 learners in the Experimental group; Band 2 comprised a Control group of 25 learners and an Experimental group of 28 learners; and Band 3 consisted of 33 learners in each group. The learners in Band 1 were used for pretest that lasted for five week. The learners in Bands 2 and 3 were used in the evaluation that lasted for thirteen weeks. The groups were non-equivalent, suggesting that randomisation was not possible as the learners were in intact classes. Learners in the experimental groups received constructivist instruction while their counterparts in the control groups received traditional lecture instruction. Both groups were exposed to the same experimental conditions except in the methods of teaching. Data was collected through teacher interviews, independent observation, measurement of learners' achievement, and analysis of documents. Quantitative data was analysed using descriptive and inferential statistics. Qualitative data was analysed on the basis of content or meaning of the information given by the respondents. Following the design of this study the performance and achievements of learners that received constructivist instruction were compared with their counterparts who received traditional instruction. Guiding this study are two main assumptions. The first is the assumption of equality of the variance, and the second is the assumption of normality of the distribution. The results of Levene's test of equality of variances indicated a violation of the assumption of homogeneity of the variances of TI and CI groups while the results of test of skewness and kurtosis give the indication of normality of distribution of scores in both groups. The results of descriptive statistics analysis showed that the learners who received constructivist instruction performed better than the learners that received traditional instruction in terms of formulation of ideas, search for new ideas, review of meaning, and transfer of knowledge. The results of inferential statistics showed that the difference in the means of the two groups on each of the sub variables of conceptual change is significant. This evidence indicates that my model of constructivist teaching produced an effect measuring 0.86 and a power of 0.85 based on Cohen's Blueprint, and a reliability of 0.72 based on Cronbach's test of internal consistency. Besides statistical evidence, analysis of the opinions of science teachers who implemented the Constructivist Teaching Model in their respective classes and the independent persons who observed teaching and learning in both the experimental and control groups showed a preference for the constructivist approach over the traditional approach. On the grounds of the evidence gathered through observation and measurement this study concludes that the constructivist approach to science teaching is more effective than traditional lecture approach in facilitating the ability of secondary school learners in Seychelles to reconstruct ideas. This study also found that science educationists in Seychelles welcome the paradigm shift from the traditional approach to the constructivist approach. / Educational Studies / D. Educ. (Psychology of Education)

Constructivist teaching method

traditional teaching method

conceptual change

formulation of ideas

search for new ideas

review of meaning

transfer of knowledge

507.109696

Constructivism (Education)

A standards-based content analysis of selected biological science websites

Unknown Date

The purpose of this study was to analyze the biology content, instructional strategies, and assessment methods of 100 biological science websites that were appropriate for Grade 12 educational purposes. For the analysis of each website, an instrument, developed from the National Science Education Standards (NSES) for Grade 12 Life Science coupled with criteria derived from the Web-based Inquiry (WBI) for Learning Science instrument (Bodzin, 2005) and other pertinent published educational literature, was utilized. The analysis focused on elucidating the appropriateness of the biology content, instructional strategies, and assessment tools of selected websites for facilitating the biological science education of Grade 12 students. Frequencies of agreement and disagreement of the content of each selected website with criteria included in the data collection instrument were used for alignment determination of the content of each website with the NSES. Chi-square tests were performed by Microsoft Excel to determine the statistical significance of differences of actual and expected 85% frequencies of alignment of the analyzed website parameters with indicators of alignment to NSES. Chi-square tests indicated that at a 0.05 level of significance there was an overall difference between the actual and expected 85% frequencies of alignment of biology content, instructional strategies and assessment methods with website indicators of alignment with the NSES (p < 0.05). Chi-square tests also indicated that there was a significant difference between the actual and expected frequencies of alignment of analyzed categories (biology content, instructional strategies, and assessment methods) of the sampled websites with website indicators of alignment with the NSES (p < 0.05). / Major findings of this study indicated that 3 out of 4 of the analyzed content attributes, 12 out of 13 of the instructional strategies, and all the assessment methods of the researched biological science websites were less than 85% aligned with the NSES. Only 11 out of 80 (13.75%) of the analyzed websites had collective biology content, instructional strategies, and assessment methods attributes that were 85% or more aligned with the NSES. Appropriately sequenced content that fostered acquisition of fundamental biology knowledge was the only content attribute with significantly more than 85% alignment with the NSES. Provision of illustrative examples to enhance understanding of facts and/or ideas in the context of a conceptual framework was the only instructional strategies attribute that was significantly more than 85% aligned with the NSES. Alignment of website attributes with the NSES has the potential to enhance the educational value of science websites. It is hoped that the findings of this study will motivate science website designers to comply with the NSES. Hope also exists that educators will be motivated to engage in standards-based reform measures for promoting scientific literacy among students. / by Joy E. Stewart. / Vita. / Thesis (Ed.D.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web.

Internet in education--Standards

Web sites--Standards

Web sites--Standards--United States

The implementation and evaluation of a constructivist intervention in secondary school Science teaching in Seychelles

Anyanwu, Raymond Ndubisi

31 August 2008

Recent studies on human cognition have presented credible evidence that learners are not tabula rasa as previously conceived by traditional theorists, rather they enter new lessons with some preconceptions, most of which are resistant to change in spite of teachers' efforts to assuage them. As such the challenges confronting science educators and educational psychologists are to understand the nature of learners' preconceptions, designing and implement appropriate instructional interventions that would enable the learners become aware of and reconcile their conceptions that are inconsistent with accepted views of science. Several perspectives have been advocated on how learners' preconceptions can be modified through instructions. While traditional theorists subscribe to substitution of inaccurate conceptions with accurate ones, the constructivists identify with giving the learners autonomy to inquire and re-evaluate their own ideas. The former has been confronted with widespread criticism and is becoming less and less tenable. This research identifies with the latter. Conceptual change entails restructuring of ideas. It is a cognitive process that involves change in attitude toward learning. Based on the theoretical assumption that learning is facilitated through teaching that give the learners autonomy search to new ideas, verify them, and restructure existing ideas, I developed a model of conceptual change from where I deduced the four sub variables of the conceptual change that this study explored. The sub variables include formulation of ideas, search for new ideas, review of meaning, and transfer of knowledge. My assumption was that conceptual change can be facilitated through instructions that engage learners in experiences relevant to the four sub variables that I have mentioned. This conceptual framework served as my reference point for the designing of the Constructivist Teaching Model that consists of four instructional phases. Judging that I was resident and working in Seychelles as a teacher trainer at a time I developed the Constructivist Teaching Model, I chose to implement and evaluate it first in Seychelles. Hence this study is titled `The implementation and evaluation of a constructivist intervention in secondary school science teaching in Seychelles'. The purpose of this study is to investigate the effect of the constructivist teaching model as an intervention to facilitate conceptual change. Basically, there are two main aims of this study. First, to investigate to what extent the constructivist teaching model facilitates conceptual change. Secondly, to investigate if the paradigms shift from the traditional method to the constructivist method of science teaching is welcomed in Seychelles. This study was carried out in two phases Pretest and Evaluation. Pretest was aimed at identifying the weaknesses of the initial version of my model of constructivist teaching with a view to eliminate those weaknesses to further strengthen the model. In a nutshell pretest was a step taken to enhance the validity of the model. Evaluation on the other hand was aimed at making a judgment whether a difference actually exists between the learners that received constructivist instruction and those that received traditional lecture instruction in terms of the four sub variables of conceptual change. To enable for this judgment necessitated an experiment. The experiment was conducted with a total of six secondary schools selected from the ten secondary schools on the island. The participants included 178 learners, 6 science teachers and 8 independent persons. The learners were constituted into three Bands; 1, 2 and 3. Each Band consisted of a Control group and an Experimental group. Altogether six groups were formed, with 3 Control groups and 3 Experimental groups. There were 59 learners in Band 1, comprising of 29 learners in the Control group and 30 learners in the Experimental group; Band 2 comprised a Control group of 25 learners and an Experimental group of 28 learners; and Band 3 consisted of 33 learners in each group. The learners in Band 1 were used for pretest that lasted for five week. The learners in Bands 2 and 3 were used in the evaluation that lasted for thirteen weeks. The groups were non-equivalent, suggesting that randomisation was not possible as the learners were in intact classes. Learners in the experimental groups received constructivist instruction while their counterparts in the control groups received traditional lecture instruction. Both groups were exposed to the same experimental conditions except in the methods of teaching. Data was collected through teacher interviews, independent observation, measurement of learners' achievement, and analysis of documents. Quantitative data was analysed using descriptive and inferential statistics. Qualitative data was analysed on the basis of content or meaning of the information given by the respondents. Following the design of this study the performance and achievements of learners that received constructivist instruction were compared with their counterparts who received traditional instruction. Guiding this study are two main assumptions. The first is the assumption of equality of the variance, and the second is the assumption of normality of the distribution. The results of Levene's test of equality of variances indicated a violation of the assumption of homogeneity of the variances of TI and CI groups while the results of test of skewness and kurtosis give the indication of normality of distribution of scores in both groups. The results of descriptive statistics analysis showed that the learners who received constructivist instruction performed better than the learners that received traditional instruction in terms of formulation of ideas, search for new ideas, review of meaning, and transfer of knowledge. The results of inferential statistics showed that the difference in the means of the two groups on each of the sub variables of conceptual change is significant. This evidence indicates that my model of constructivist teaching produced an effect measuring 0.86 and a power of 0.85 based on Cohen's Blueprint, and a reliability of 0.72 based on Cronbach's test of internal consistency. Besides statistical evidence, analysis of the opinions of science teachers who implemented the Constructivist Teaching Model in their respective classes and the independent persons who observed teaching and learning in both the experimental and control groups showed a preference for the constructivist approach over the traditional approach. On the grounds of the evidence gathered through observation and measurement this study concludes that the constructivist approach to science teaching is more effective than traditional lecture approach in facilitating the ability of secondary school learners in Seychelles to reconstruct ideas. This study also found that science educationists in Seychelles welcome the paradigm shift from the traditional approach to the constructivist approach. / Educational Studies / D. Educ. (Psychology of Education)

Constructivist teaching method

traditional teaching method

conceptual change

formulation of ideas

search for new ideas

review of meaning

transfer of knowledge

507.109696

Constructivism (Education)