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1.
Jacob N. Burgoon Mandy L. Heddle Emilio Duran 《Journal of Science Teacher Education》2011,22(2):101-114
There is a large body of research that has explored students’ misconceptions about science phenomena. Less research, however,
has been devoted to identifying teachers’ misconceptions, but the results of the few existing studies demonstrate that teachers
and students possess similar misconceptions. This study explored the physical science conceptions of 103 elementary science
teachers to determine whether, after three decades of misconception research, teachers still possess conceptions similar to
those held by students. We found that our teachers expressed misconceptions regarding gravity, magnetism, gases, and temperature
that were similar to common student misconceptions. Suggestions for improving science professional development programs are
discussed. 相似文献
2.
Joseph E. Ireland James J. Watters Jo Brownlee Mandy Lupton 《Journal of Science Teacher Education》2012,23(2):159-175
This study explored practicing elementary school teacher’s conceptions of teaching in ways that foster inquiry-based learning
in the science curriculum (inquiry teaching). The advocacy for inquiry-based learning in contemporary curricula assumes the
principle that students learn in their own way by drawing on direct experience fostered by the teacher. That students should
be able to discover answers themselves through active engagement with new experiences was central to the thinking of eminent
educators such as Pestalozzi, Dewey and Montessori. However, even after many years of research and practice, inquiry learning
as a referent for teaching still struggles to find expression in the average teachers’ pedagogy. This study drew on interview
data from 20 elementary teachers. A phenomenographic analysis revealed three conceptions of teaching for inquiry learning
in science in the elementary years of schooling: (a) The Experience-centered conception where teachers focused on providing
interesting sensory experiences to students; (b) The Problem-centered conception where teachers focused on engaging students
with challenging problems; and (c) The Question-centered conception where teachers focused on helping students to ask and
answer their own questions. Understanding teachers’ conceptions has implications for both the enactment of inquiry teaching
in the classroom as well as the uptake of new teaching behaviors during professional development, with enhanced outcomes for
engaging students in Science. 相似文献
3.
Kristina Andersson 《Research in Science Education》2012,42(2):281-302
This study illuminates teachers’ conceptions of gender and science and possibilities to challenge these conceptions. Since
2005, a group of teachers (K-6) in Sweden have met approximately once a month in two-hour seminars to discuss and develop
their instruction in science and technology based on a gender perspective. The present data consist mainly of audio-recordings
of the teacher seminars and video-recordings of science activities with students. Analysis of the empirical data has been
carried out in several stages and was inspired by thematic analysis, the theoretical framework of which is based on Hirdman’s
and Beauvoir’s theories of gender. The results show that the teachers’ ideas about gender/equity and science exist on several
levels, within which various conceptions are represented. On the one hand, “reasoning around similarity”, where teachers consider
that both girls and boys should have the same prerequisites for working with science. In contrast, stereotypical conceptions
of girls and boys occur when the teachers evaluate their activities with students, and condescending attitudes toward girls
are also observed. The girls’ ways of working with science are not as highly valued as the boys’, and this outlook on children
can ultimately have consequences for girls’ attitudes towards the subject. When teachers are allowed to read their own statements
about the girls, they get “a glimpse of themselves”, and their condescending ideas about girls are made visible. In this way,
the teachers can begin their active work towards change, which may lead to new outlooks on and attitudes towards students. 相似文献
4.
The purpose of this study was to investigate prospective mathematics teachers’ knowledge of common conceptions and misconceptions
that sixth and seventh grade students had about multiplication of fractions. In addition, prospective teachers’ knowledge
of the sources of these misconceptions and strategies they knew to overcome these misconceptions was examined. Data were collected
from 17 Turkish prospective teachers at the end of the spring semester of the 2004–2005 academic year. A case study design
was used in which data were collected through the Multiplication of Fractions Questionnaire and semi-structured interviews.
The prospective teachers suggested many difficulties that elementary grade level students may have and stated that these difficulties
stemmed from students’ lack of formal knowledge and rote memorization of the algorithms. In addition, the prospective teachers
suggested many strategies that could be used to overcome these misconceptions or difficulties. These strategies could be grouped
under three headings: strategies based on teaching methods, strategies based on formal knowledge of fractions, and strategies
based on psychological constructs. 相似文献
5.
In this study, we investigated distinctions among the diversity of religious traditions represented by Lebanese and Egyptian
Muslim high school students regarding their understanding and acceptance of biological evolution and how they relate the science
to their religious beliefs. We explored secondary students’ conceptions of evolution among members of three Muslim sects—Sunni,
Shiite, and Druze—in two cultural contexts; one in which the overwhelming majority of the population is Muslim (Egypt) and
another in which there is a sizable Christian community (Lebanon). Data were collected via surveys that examined students’
scientific and religious understandings of evolution among 162 Egyptian students (all Sunni Muslims; 63% females and 37% males)
and 629 Lebanese students (38.5% Sunni, 38% Shiite, and 23.5% Druze; 49% females and 51% males). Additional data were collected
via semi-structured interviews with 30 Lebanese students to allow triangulation of data for accuracy and authenticity. Results
indicate that many Egyptian and Lebanese Muslim students have misconceptions about evolution and the nature of science which
often lead to rejection of evolution. Also, Lebanese Sunni and Shiite students and Egyptian Sunni students tend to exhibit
high levels of religiosity, and these students report that their religious beliefs influence their positions regarding evolution.
Finally, Sunni and Shiite Lebanese students have religious beliefs, conceptions of evolution, and positions regarding evolution
similar to those of Sunni Egyptian students. These conceptions and positions, however, are substantially different from those
of Druze Lebanese students. 相似文献
6.
Valarie L. Akerson Theresa A. Cullen Deborah L. Hanson 《Journal of Science Teacher Education》2010,21(6):723-745
This study explored the nature of science (NOS) assessments K-4 classroom teachers developed for measuring students’ understandings
of NOS elements. We used the Views of Nature of Science Questionnaire-Form VNOS-D2 (Views of Nature of Science Elementary
School Version 2) and interviews to verify that teachers’ conceptions of NOS were sufficient to enable them to teach and assess
NOS. We collected copies of teachers’ action research designs, lesson plans, and assessment tools, conducted classroom observations
and made field notes of their science instruction and assessments. We videotaped conversations at monthly workshops to note
discussion surrounding teaching and assessing NOS in K-4 classrooms. We found that experienced teachers designed a variety
of strategies for assessing NOS conceptions that differed by grade level. 相似文献
7.
Teaching students how to conduct authentic scientific inquiry is an essential aspect of recent science education reform efforts.
Our National Science Foundation-funded GK-12 program paired science graduate students—fellows—with secondary science teachers
in order to enhance inquiry-based instruction. This research examined the roles of the fellows, teachers, and school culture
in the implementation of inquiry and the fellows’ conceptions of classroom inquiry versus that in their own research. Qualitative
data were collected for two academic years. Overall, the classrooms shifted toward a more inquiry-oriented approach over the
academic year. Several aspects of school culture influenced inquiry implementation. Fellows described their research as similar
in overall structure but less constrained by known concepts, less guided by mentors, and more in-depth than that of secondary
school students. The teacher-fellow scientist partnership is a potentially effective professional development model to create
positive and lasting change within the science classroom. 相似文献
8.
Valarie L. Akerson Cary A. Buzzelli Jennifer L. Eastwood 《Journal of Science Teacher Education》2012,23(2):133-157
This study explored preservice teachers’ views of their own cultural values, the cultural values they believed scientists
hold, and the relationships of these views to their conceptions of nature of science (NOS). Parallel assignments in a foundations
of early childhood education and a science methods course required preservice teachers to explore their own cultural backgrounds
and their perceptions of the cultural backgrounds of scientists. The Schwartz Values Inventory was used to measure preservice teachers’ personal cultural values and those they perceived of scientists. The Views of Nature of Science version B questionnaire and interviews assessed teachers’ conceptions of NOS. Copies of student work were collected and sought for
themes indicating how preservice teachers perceived scientists’ cultural values and how those perceptions changed over time.
We found that from the beginning to the end of the semester, preservice teachers perceived fewer differences between their
own cultural values and those they perceived scientists held, though they did not change their own cultural values. We found
that preservice teachers’ NOS conceptions improved, and that they were related to both their cultural values and those they
perceived scientists held. Preservice teachers who indicated the fewest differences between their own cultural values and
those they perceived scientists held the most informed conceptions of NOS. 相似文献
9.
The purpose of this study was to diagnose the misconceptions held by pre-service physics teachers about force and motion.
The secondary aim of the study was to detect whether misconceptions vary according to gender, educational level, and culture.
The study was conducted with 79 student-teachers attending to one of the largest faculties of education in Turkey. Force Concept
Inventory (FCI) was used to diagnose student-teachers’ misconceptions. FCI is a conceptual test consisting of 29 multiple
choice items. Each wrong choice for each question reflects a specific misconception about the force and motion concepts. Data
from the study was analyzed by using frequencies, t-test, and ANOVA for making comparisons according to gender and years of education. Results of the study showed that student-teachers
of physics hold very strong misconceptions about impetus and active force. No significant differences were found between male
and female students’ scores on the concept test. The results also showed that misconceptions about force and motion decreased
through the years of education. However, they did not disappear completely. Findings of the study are very similar to the
other research findings conducted on the subject in other countries. Student-teachers’ conceptions about Newton’s Third Law,
on the other hand, were significantly better than those observed in other research done in other countries such as the US
and Finland. 相似文献
10.
The main purpose of this study was to concurrently investigate Taiwanese high-school students' and their science teachers' conceptions of learning science (COLS) and conceptions of science assessment (COSA). A total of 1,048 Taiwanese high-school students and their 59 science teachers were invited to fill out two questionnaires assessing their COSA and COLS. The main results indicated that, first, although a handful of different patterns occurred, students and teachers were found to have similar COLS–COSA patterns. In general, students and teachers with COSA as reproducing knowledge and rehearsing tended to possess lower-level COLS, such as learning science as memorizing, testing, and calculating and practicing. In contrast, if students and teachers viewed science assessment as improving learning and problem-solving, they would be prone to regard science learning as increase of knowledge, applying, and understanding and seeing in a new way. However, the students' conceptions did not align with those of the teachers' in certain aspects. The students tended to regard science learning and assessment at a superficial level (COLS as ‘memorizing’, ‘testing’, and ‘calculating and practicing’ and COSA as ‘reproducing knowledge’), while the teachers’ conceptions were at a more sophisticated level (COLS as ‘application’ and ‘understanding and seeing in a new way’ and COSA as ‘improving learning’). It is evident that a dissonance exists between the students' and teachers' COLS and COSA. Based on the results, practical implications and suggestions for future research are discussed. 相似文献
11.
In Uganda, curbing the spread of HIV/AIDS has largely depended on public and private media messages about the disease. Media
campaigns based on Uganda’s cultural norms of communication are metaphorical, analogical and simile-like. The topic of HIV/AIDS
has been introduced into the Senior Three (Grade 11) biology curriculum in Uganda. To what extent do students’ pre-conceptions
of the disease, based on these media messages influence students’ development of conceptual understanding of the disease,
its transmission and prevention? Of significant importance is the impact the conceptions students have developed from the
indirect media messages on classroom instruction on HIV/AIDS. The study is based in a theoretical framework of conceptual
change in science learning. An interpretive case study to determine the impact of Ugandan students’ conceptions or perceptions
on classroom instruction about HIV/AIDS, involving 160 students aged 15–17, was conducted in four different Ugandan high schools:
girls boarding, boys boarding, mixed boarding, and mixed day. Using questionnaires, focus group discussions, recorded biology
lessons and informal interviews, students’ preconceptions of HIV/AIDS and how these impact lessons on HIV/AIDS were discerned.
These preconceptions fall into four main categories: religious, political, conspiracy and traditional African worldviews.
Results of data analysis suggest that students’ prior knowledge is persistent even after biology instructions. This has implications
for current teaching approaches, which are mostly teacher-centred in Ugandan schools. A rethinking of the curriculum with
the intent of offering science education programs that promote understanding of the science of HIV/AIDS as opposed to what
is happening now—insensitivity to misconceptions about the disease—is needed. 相似文献
12.
13.
Rose M. Pringle 《Journal of Science Teacher Education》2006,17(3):291-307
Investigation involving children’s understandings of scientific concepts have been a dominant area of research in science
education over the last 2 1/2 decades. One fruitful outcome of these studies is to alert teachers to difficulties in learning
science. Although this information is commendable in highlighting their existence, not much is presented on how to deal with
the alternative conceptions. It is generally believed that teachers tend to teach the way they were taught, and breaking this
cycle requires different emphasis on pedagogy in teacher education. The focus of this article is on preservice teachers’ experiences
in a science education course as they explore the importance of children’s alternative conceptions and in using such knowledge
to make decisions about teaching. 相似文献
14.
Miyoung Hong Nam-Hwa Kang 《International Journal of Science and Mathematics Education》2010,8(5):821-843
This study examined science teachers’ conceptions of creativity in science education, pedagogical ideas, and contextual factors
perceived as constraints on teaching for creativity and any differences in the conceptions of teachers from South Korea and
the United States. Participants in the study consisted of 44 South Korean and 21 US secondary science teachers. Data was collected
from open-ended and Likert-type questionnaires. Results indicated that each individual teacher’s conception was considerably
limited, but the teachers’ conceptions of creativity as a whole group were consistent with the literature. In terms of teaching
methods for creativity, the teachers commonly emphasized problem-based or project-based inquiry which was consistent with
the literature. The South Korean teachers tended to consider ethics as a more important criterion for judging creativity than
the US teachers and emphasized providing thinking opportunity for fostering creativity, while the US teachers emphasized environmental
or emotional support. Possible sources of these differences were discussed. The commonly mentioned constraints included pressure
of content coverage for high-stakes tests, difficulties in assessing creativity, and class size. Suggestions for professional
development of teachers and further research questions were made based on the findings. 相似文献
15.
ABSTRACTThe present research tested the hypothesis that the reading of science text can create new misconceptions in students with incongruent prior knowledge, and that these new misconceptions will be similar to the fragmented and synthetic conceptions obtained in prior developmental research. Ninety-nine third- and fifth-grade children read and recalled one of two texts that provided scientific or phenomenal explanations of the day/night cycle. All the participants gave explanations of the phenomenon in question prior to reading one of the texts and after they read it. The results showed that the participants who provided explanations of the day/night cycle at pretest incongruent with the scientific explanation recalled less information and generated more invalid inferences. An analysis of the participants’ posttest explanations indicated that these readers formed new misconceptions similar to the fragmented and synthetic conceptions obtained in developmental research. The implications of the above for text comprehension and science education research are discussed. 相似文献
16.
Karen Goodnough 《Research in Science Education》2010,40(2):239-265
In this study, the author implemented a problem-based learning (PBL) experience that allowed students in an advanced science
methodology course to explore differentiated instruction. Through working systematically in small, collaborative groups, students
explored the nature of differentiated instruction. The objective of the study was to examine pre-service teachers’ developing
conceptions of differentiated instruction (DI) as a way to teach for diversity. The author adopted action research as a strategy
to explore students’ perceptions of DI in the context of science teaching and learning. Several data collection methods and
sources were adopted in the study, including student-generated products, student interviews, classroom observation, and journal
writing. Outcomes report on students’ perceptions of both the potential and challenges associated with adopting a DI approach
to science teaching and learning. 相似文献
17.
Learners’ Responses to the Demands of Conceptual Change: Considerations for Effective Nature of Science Instruction 总被引:1,自引:5,他引:1
Michael P. Clough 《Science & Education》2006,15(5):463-494
Much has been written about how effective nature of science instruction must have a significant explicit and reflective character.
However, while explicitly drawing students’ attention to NOS issues is crucial, learning and teaching the NOS are essentially
matters of conceptual change. In this article, how people learn and learners’ responses to the demands of conceptual change
are used to explain how students may exit from instruction with fundamental NOS misconceptions left intact or only slightly
altered, despite being explicitly and reflectively attended to more accurate ideas. The purpose of this concept paper is to
set within a theoretical framework of learning, and bring some coherence to, what has rapidly become a large body of empirical
research regarding effective NOS instruction. Toward these two ends, this article: (1) illustrates how a conceptual change
framework can be used to account for learners’ responses to NOS instruction and what teachers might do to promote understanding
NOS and transferring it to new contexts; (2) characterizes popularly advocated NOS instructional approaches along a continuum
marked by increasing connection to the workings of science, and decreased ability to dismiss NOS lessons as extraneous to
authentic science; and (3) proposes that NOS instruction would likely be more effective if teachers deliberately scaffolded
classroom experiences and students’ developing NOS understanding back and forth along the continuum. 相似文献
18.
Hezekiah Ukegbu Emereole 《International Journal of Science and Mathematics Education》2009,7(5):1033-1056
The conceptual knowledge of science processes possessed by University of Botswana science students and senior secondary school
science teachers was sought through a three-part questionnaire. One part requested demographic data of subjects, the second
part asked them to select their level of familiarity with the processes, and the third part probed their conceptual definitions
of the science processes. The definitions were scored as incorrect, partially correct and correct on an ordinal scale. Statistical
analysis was done using Spearman rho correlation and one sample t test. The findings revealed that the science teachers did
not have sufficient conceptual knowledge of science processes to help their students to understand in a meaningful way; both
students’ and teachers’ views of their familiarity of science processes did not corroborate their demonstrated ability to
provide acceptable conceptual definitions of the processes; there was no association between students’ and teachers’ conceptions
of the science processes; and if conceptual knowledge of science processes was demanded, the entering students, who were the
immediate graduates of the senior secondary schools, might not have enough to pursue tertiary level science courses. It is
suggested that both conceptual and operational knowledge of science processes be required at secondary and tertiary levels
of science education. 相似文献
19.
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
20.
Vicente Mellado María Luisa Bermejo Lorenzo J. Blanco Constantino Ruiz 《International Journal of Science and Mathematics Education》2008,6(1):37-62
We describe research carried out with a prospective secondary biology teacher, whom we shall call Miguel. The teacher’s conceptions
of the nature of science and of learning and teaching science were analyzed and compared with his classroom practice when
teaching science lessons. The data gathering procedures were interviews analyzed by means of cognitive maps and classroom
observations. The results reflected Miguel’s relativist conceptions of the nature of science that were consistent with his
constructivist orientation in learning and teaching. In the classroom, however, he followed a strategy of transmission of
external knowledge based exclusively on teacher explanations, the students being regarded as mere passive receptors of that
knowledge. Miguel’s classroom behavior was completely contrary to his conceptions, which were to reinforce the students’ alternative
ideas through debate, and not by means of teacher explanation. 相似文献