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1.
Brian L. Jones 《Research in Science Education》1990,20(1):161-170
The term ‘concept’ is used in different ways within educational literature and has at least two different, although related,
referents in relation to science knowledge, namely, public knowledge and private understandings. A taxonomic structure for
‘science concepts’ (public knowledge) has been developed to provide a rationale for the choice of phenomena to be used in
the investigation of students’ ‘concepts’ and also to act as a frame of reference for generating insights about the data to
be collected. Furthermore, it may be a useful heuristic to predict other science concepts likely to be highly problematic
in school teaching situations and thus worthy of detailed research. The taxonomy, called a ‘Scale of Empirical Distance’ (SED),
enables science concepts to be mapped according to their degree of closeness to concrete realities. The scale shows a recognition
of the empirical basis of science concepts and the role of human senses in the perception of the material world even though
“absolute objectivity of observation is not a possible ideal of science” as Harre (1972) has noted. The scale uses two binary
variables, namely, ‘visual’ and ‘tactile’, to generate four categories of science concepts ranging on a continuum from concrete
to abstract. Some concepts related to ‘matter’ will be classified and discussed.
Specializations: science teacher education, primary science curriculum and methods, students’ personal meanings of phenomena. 相似文献
2.
Selahattin G?nen 《Journal of Science Education and Technology》2008,17(1):70-81
The aims of this study were considered under three headings. The first was to elicit misconception that science and physics
student teachers (pre-service teachers) had about the terms, ‘‘inertial mass’’, ‘‘gravitational mass’’, ‘‘gravity’’, ‘‘gravitational
force’’ and “weight”. The second was to understand how prior learning affected their misconceptions, and whether teachers’
misconceptions affected their students’ learning. The third was to determine the differences between science and physics student
teachers’ understanding levels related to mass and gravity, and between their logical thinking ability levels and their attitudes
toward physics lessons. A total of 267 science and physics student teachers participated in the study. Data collection instruments
included the physics concept test, the logical thinking ability test and physics attitude scale. All instruments were administered
to the participants at the end of the 3rd semester of their university years. The physics test consisting of paper and pencil
test involving 16 questions was designed, but only four questions were related to mass and gravity; the second test consisted
of 10 questions with two stages. The third test however, consisted of 15 likert type items. As a result of the analysis undertaken,
it was found that student teachers had serious misconceptions about inertia, gravity, gravitational acceleration, gravitational
force and weight concepts. The results also revealed that student teachers generally had positive attitudes toward physics
lessons, and their logical thinking level was fairly good. 相似文献
3.
This study explored the effects that the incorporation of nature of science (NoS) activities in the primary science classroom
had on children’s perceptions and understanding of science. We compared children’s ideas in four classes by inviting them
to talk, draw and write about what science meant to them: two of the classes were taught by ‘NoS’ teachers who had completed
an elective nature of science (NoS) course in the final year of their Bachelor of Education (B.Ed) degree. The ‘non-NoS’ teachers
who did not attend this course taught the other two classes. All four teachers had graduated from the same initial teacher
education institution with similar teaching grades and all had carried out the same science methods course during their B.Ed
programme. We found that children taught by the teachers who had been NoS-trained developed more elaborate notions of nature
of science, as might be expected. More importantly, their reflections on science and their science lessons evidenced a more
in-depth and sophisticated articulation of the scientific process in terms of scientists “trying their best” and “sometimes
getting it wrong” as well as “getting different answers”. Unlike children from non-NoS classes, those who had engaged in and
reflected on NoS activities talked about their own science lessons in the sense of ‘doing science’. These children also expressed
more positive attitudes about their science lessons than those from non-NoS classes. We therefore suggest that there is added value in including NoS activities in the primary science curriculum in that they seem to help children make sense of science and
the scientific process, which could lead to improved attitudes towards school science. We argue that as opposed to considering
the relevance of school science only in terms of children’s experience, relevance should include relevance to the world of
science, and NoS activities can help children to link school science to science itself. 相似文献
4.
Advocates of constructivist science recommend that school science begins with children’s own constructions of reality. This
notion of the way in which students’ knowledge of science grows is closely paralleled by recent research on teachers’ knowledge.
This paper draws on case study evidence of teachers’ work to show how two experienced teachers’ attempts to develop alternative
ways of teaching science involved reframing their previous patterns of understanding and practice. Two alternative interpretations
of the case study evidence are offered. One interpretation, which focuses on identifying gaps in the teachers’ knowledge of
science teaching, leads to theconstructivist paradox. The second interpretation explores theconstructivist parallel, an approach which treats the process of teachers’ knowledge growth with the same respect as constructivists treat students’
learning of science. This approach, the authors argue, is not only more epistemologically consistent but also opens up the
possibilities of helping teachers lead students towards a constructivist school science.
Specializations: Teachers’ knowledge and culture, educational change, qualitative research methodology.
Specializations: Teachers’ knowledge, imagery and teachers’ work, teacher collegiality, supervision of teachers’ work. 相似文献
5.
Elizabeth Warren 《Educational Studies in Mathematics》2006,62(2):169-189
This paper examines the change in young children’s understanding of ‘equal’, ‘more’, ‘less’, and ‘between’, words commonly
used in equivalent and non-equivalent situations, over a 3-year period. Seventy-six children participated in the longitudinal
study. Each year they were asked to share their understanding of these four words. Past research has indicated that many children
have limited understanding of ‘equal’ as quantitative sameness. The results of this research suggested that many children
also have limited understanding of ‘more’ and ‘less’ and that these understandings did not significantly change over the 3-year
period. 相似文献
6.
Mehmet Erdogan Murat Özel Muhammet Uşak Pavol Prokop 《Journal of Science Education and Technology》2009,18(3):255-264
The impact of biotechnologies on peoples’ everyday lives continuously increases. Measuring young peoples’ attitudes toward
biotechnologies is therefore very important and its results are useful not only for science curriculum developers and policy
makers, but also for producers and distributors of genetically modified products. Despite of substantial number of instruments
which focused on measuring student attitudes toward biotechnology, a majority of them were not rigorously validated. This
study deals with the development and validation of an attitude questionnaire toward biotechnology. Detailed information on
development and validation process of the instrument is provided. Data gathered from 326 university students provided evidence
for the validity and reliability of the new instrument which consists of 28 attitude items on a five point likert type scale.
It is believed that the instrument will serve as a valuable tool for both instructors and researchers in science education
to assess students’ biotechnology attitudes. 相似文献
7.
This paper reports on a national study that explored primary pupils’ attitudes towards and experiences of school science in
the Republic of Ireland. The study focussed on collecting data from children and in doing so recognises the importance of
children’s views as an essential part of reviewing curriculum implementation. The findings of this large-scale study are based
on an analysis of data gathered from observations of 15 primary classrooms, 1,149 children’s questionnaires and 11 group interviews.
In this paper the findings regarding the extent to which the children appear to be engaging in ‘deductive’ (didactic) and
‘inductive’ (inquiry-based) approaches in their science classes, and their attitudes towards school science are presented.
Encouragingly, evidence from all parts of the study revealed that in general Irish children are very positive towards learning
science in school and are being provided with some opportunities to engage in hands-on inquiry in science, commonly via group
work. However, there were also indications that, for some pupils, hands-on science experiences were infrequent, and for a
few did not appear to be happening at all. It was not especially evident that pupils were being afforded opportunities to
lead their own scientific investigations. Teacher explanation, teacher demonstration, reading and writing featured frequently
in pupils’ responses and while the pupils expressed mixed feelings about these methodologies, one thing was apparent: hands-on
inquiry based approaches to science had far greater appeal to the children. The significance of the findings of this study
are considered in light of the findings and recommendations from recent national and international reports on inquiry-based
approaches in science education. 相似文献
8.
Julia Atkin 《Research in Science Education》1984,14(1):223-229
Concluding comments An an ‘action research’ project, science curriculum development at St Columba's is ongoing as is the total school curriculum
development. An outline of the development in science has been presented here to:invite comment from science educators in order to help define future directions in curriculum development; tostimulate further research in the area of curriculum development for a ‘Science for All’, and tostimulate debate about what school science, especially junior secondary science, should be. 相似文献
9.
Dr Campbell J. McRobbie Dr Geoffrey J. Giddings Dr Barry J. Fraser 《Research in Science Education》1990,20(1):200-209
Existing instruments for assessing student or teacher perceptions of characteristics of actual or preferred classroom psychosocial
environment are unsuitable for one of the most important settings in science teaching, namely, the science laboratory class.
Consequently, the Science Laboratory Environment Inventory (SLEI), was designed to assess student or teacher perceptions of
seven scales:Teacher Supportiveness, Student Cohesiveness, Open-Endedness, Integration, Organization, Rule Clarity andMaterial Environment. An important feature of the design of the study was that the new instrument was field tested simultaneously in six countries:
Australia, USA, Canada, England, Nigeria and Israel. This paper is based on a sample of 4643 students in 225 individual laboratory
classes, together with the teachers of most of these classes. Preliminary analyses were used to shed light on various important
research questions including the differences between Actual and Preferred environments, gender differences in perceptions
of Actual and Preferred environment, the relationship between the science laboratory environment and attitude towards science
laboratory work, differences between school and university laboratory classes, differences between teachers’ and students’
perceptions of the same laboratory classes, and differences between laboratory classes in different science subjects (Physics,
Chemistry, Biology).
Specializations: Science education, educational evaluation.
Specializations: Curriculum, science education, science laboratory teaching.
Specializations: Learning environments, science education, educational evaluation, curriculum. 相似文献
10.
Ali Balc? Murat ?zdemir ?i?dem Apayd?n Fatmanur ?zen 《Asia Pacific Education Review》2012,13(1):137-146
The aim of this study is to analyse organizational corruption and to determine its level of relation to attitude towards work,
work ethics and organizational culture. The data in study have been collected from 441 public high school teachers employed
in the central districts of Ankara in the school year of 2008–2009. Data have been collected through ‘Scale for Organizational
Corruption’, ‘Scale for Attitude towards Work’, ‘Scale for Work Ethics’ and ‘Scale for Organizational Culture’, all of which
were developed by the researchers in this study. Correlation and regression analysis techniques have been used in analysing
the data. It is concluded from the study that there is a significant, though at an average level, relation between organizational
corruption, organizational culture and work ethics and that there is a negative significant relation, though at a low level,
between organizational corruption and attitude towards work. It is also concluded that the variables for attitude towards
work, work ethics and organizational culture explain 38% of the variation in organizational corruption. 相似文献
11.
Huey-Por Chang Chin-Chang Chen Gwo-Jen Guo Yeong-Jin Cheng Chen-Yung Lin Tsung-Hau Jen 《International Journal of Science and Mathematics Education》2011,9(5):1213-1233
The objective of this study was to develop an instrument to measure school students’ competence in learning science as part
of a large research project in Taiwan. The instrument consisted of 29 self-report, Likert-type items divided into 2 scales:
Competence in Scientific Inquiry and Competence in Communication. The Competence in Scientific Inquiry scale contained 4 subscales:
presenting questions and hypothesis, planning, experimenting and data gathering, and data analyzing, interpreting, and concluding.
The Competence in Communication scale contained 4 subscales: expressing, evaluating, responding, and negotiating. Students
were recruited randomly from primary, junior, and senior high schools in different regions of Taiwan to validate the instrument
and establish its reliability and validity. The results of the analyses indicate that the instrument, scales, and subscales
have reasonable internal consistency; that the theoretical structure was supported by empirical data; and that the subscales
are homogeneous. These results indicate that it is an appropriate tool for measuring students’ competence in learning science.
Implications and suggestions for further studies are included. 相似文献
12.
Marilyn Fleer 《Research in Science Education》2009,39(2):281-306
In recent times there has been an enormous interest in Vygotsky’s writing on conceptual development, particularly his insights
on the differences between everyday and scientific thinking. In drawing upon cultural–historical theory, this paper seeks
to examine the relations between everyday concepts and scientific concepts within playful contexts, such as preschools, with
a view to better understanding how very young children develop conceptual understandings in science. This paper presents an
overview of a study which sought to map the transformation and appropriation of scientific concepts within two early childhood
settings. Approximately ten weeks of data gathering took place, with video recordings, field notes, photographic documentation,
and child and teacher interviews for recording child concept formation within these naturalistic settings. The findings indicate
that when teacher programs are more oriented towards concepts rather than materials, children’s play is focused on conceptual
connections. Importantly, the study showed that: It was possible to map the multiple and dynamic levels or stratas of thinking
that a child or group of children may exhibit within play-based contexts; An analysis of ‘unorganised heaps’ and ‘complexive
thinking’ evident in conceptually or materially oriented play-based programs can be determined; the dialectical relations
between everyday concepts and scientific concepts in play-based programs can be understood; and greater understanding about
the nature of concept formation in situated playful contexts have been possible. 相似文献
13.
Perry den Brok Sibel Telli Jale Cakiroglu Ruurd Taconis Ceren Tekkaya 《Learning Environments Research》2010,13(3):187-204
The purposes of this study were to examine how Turkish students perceived their biology classroom environment, how their perceptions
compared to those of students in other countries, and what classroom learning environment profiles could be discerned in Turkish
high school biology classrooms. Data were gathered from 1,474 high school students in four inner city schools, in Bursa, Turkey.
A total of 11 biology teachers participated in the study with 52 of their classes. Data on students’ perceptions of their
learning environment were collected with the What Is Happening In this Class? (WIHIC) questionnaire. Results indicated that
Turkish classrooms were perceived as being low in terms of Teacher Support and high in terms of Task Orientation. Six distinct
classroom learning environment profiles were found: the ‘self-directed learning classroom’, ‘task-oriented cooperative learning
classroom’, ‘mainstream classroom’, ‘task-oriented individualised classroom’, ‘low-effective learning classroom’ and ‘high-effective
learning classroom’. The most common profile was the ‘mainstream classroom’ for which all WIHIC scales had medium–high scores. 相似文献
14.
This article focuses on educational enterprises outside the formal sector, such as museums, botanical gardens and interactive
science centres. International research is drawn on to illuminate how design, culture, educational strategies and settings
combine to affect the way in which young people respond to experiences on offer, leading to analysis of the impact of such
settings in promoting learning, and the likely implications for those who staff such venues. Aikenhead’s concept of the educator
as ‘culture broker’ is developed to suggest ways in which learning might be best supported. It envisages a shift from ‘delivery’
strategies targeted at large groups towards approaches which focus on what learners choose to know about using dialogue between
children and ‘known and trusted people’. Analysis of observed responses in various settings is undertaken from a sociocultural
perspective using the notion of communities of practice. Implications for the roles of education managers and their staff
in further research are developed. 相似文献
15.
Vasilios Grammatikopoulos Nikolaos Tsigilis Athanasios Koustelios Yannis Theodorakis 《International Review of Education/Internationale Zeitschrift für Erziehungswissenschaft/Revue internationale l'éducation》2005,40(5):427-438
The aim of this study was to develop an instrument for evaluating how an education program has been implemented. Such evaluation
can provide insight into the effectiveness of a program. Examined here was the Olympic Education Program used in Greek schools
since 2000. In it, students learn the history of the Olympic games and the importance of exercise for health along with the
principles and values of sports and volunteerism. The evaluation instrument underlying this study addressed the following
six factors: ‘facilities’, ‘administration’, ‘educational material’, ‘student–teacher relationships’, ‘educational procedures’,
and ‘training’. Results indicate that the instrument, while adequate for assessing effectiveness, should be combined with
advanced statistical methods. 相似文献
16.
Most studies indicate primary students’ attitudes towards and interest in science decline as they progress into the secondary
years. Longitudinal qualitative research exploring this phenomenon is rare as is research which focuses on the students’ voice
as they cross the interface. In this study multiple qualitative data sources, supported by a ‘science interest’ composite
scale, followed 20 students over 2 years. In contrast to baseline data on their peers these students, in general, maintained
their interest in science. Apart from identifying the teacher’s pedagogical approach and classroom environment as two key
issues in understanding these students’ journeys, the importance of listening to and heeding the students’ voice may be an
even more critical concern in addressing the decline in students’ attitudes and interest in science. 相似文献
17.
A Study on Teaching Gases to Prospective Primary Science Teachers Through Problem-Based Learning 总被引:1,自引:0,他引:1
Erdal Senocak Yavuz Taskesenligil Mustafa Sozbilir 《Research in Science Education》2007,37(3):279-290
The aim of this study was to compare the achievement of prospective primary science teachers in a problem-based curriculum
with those in a conventional primary science teacher preparation program with regard to success in learning about gases and
developing positive attitudes towards chemistry. The subjects of the study were 101 first year undergraduate students, who
were in two different classes and who were taught by the same lecturer. One of the classes was randomly selected as the intervention
group in which problem-based learning (PBL) was used, and the other as the control in which conventional teaching methods
were used. The data were obtained through use of the gases diagnostic test (GDT), the chemistry attitude scale (CAS), and
scales specific to students’ evaluation of PBL such as the peer evaluation scale (PES), self evaluation scale (SES), tutor’s
performance evaluation scale (TPES) and students’ evaluation of PBL scale (SEPBLS). Data were analysed using SPSS 10.0 (Statistical
Package for Social Sciences). In order to find out the effect of the intervention (PBL) on students’ learning of gases, independent
sample t-tests and ANCOVA (analysis of co-variance) were used. The results obtained from the study showed that there was a statistically
significant difference between the experimental and control groups in terms of students’ GDT total mean scores and, their
attitude towards chemistry, as well as PBL has a significant effect on the development of students’ skills such as self-directed
learning, cooperative learning and critical thinking. 相似文献
18.
19.
Unattended science and technology exhibits of both static and operational types have been an integral part of museum displays
for many years. More recently interactive exhibits in which observers are encouraged to become part of the system of exhibits
have become more common. A study was commenced to explore the impact and potential of low cost, unattended, interactive exhibitsset up singly in a normal school classroom without the distractions of a multiplicity of activities as is common in ‘science museums’. Three small groups of Grade 5/6
primary school children interacted with a ‘Falling Towers’ exhibit and their voluntary activities were recorded on videotape
for later analysis. Children appeared to state the results of their activity in ways consistent with their expectations rather
than with their most recent experience with the exhibit. The responses of girls, boys and mixed groups are reported.
Specializations: primary mathematics and science education, teaching strategies.
Specializations: science education, students' understandings of phenomena in science. 相似文献