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1.
Components of Conceptual Ecologies 总被引:1,自引:0,他引:1
Hyun Ju Park 《Research in Science Education》2007,37(2):217-237
The theory of conceptual change is criticized because it focuses only on supposed underlying logical structures and rational
process processes, and lacks attention to affective aspects as well as motivational constructs in students’ learning science.
This is a vast underestimation of the complexity and diversity of one’s change of conceptions. The notion of conceptual ecology
provides a context for understanding individuals’ conceptual change learning, as it is the environment through which all information
is interpreted. This research investigated how high school students’ statements, made in answering questions, reflect selected
components of their conceptual ecologies. Data for this study was collected from six interviews in which seven students took
part. The data also include the science teacher’s profiles of each student, the students’ personal journals, their assignments,
and their examinations and answers in class. The analysis presented will here include only those components that were represented
in the discourse of the seven high school students who were interviewed. When students were asked questions, there was evidence
of the engagement of the various components of conceptual ecologies. These components include: epistemological commitments,
metaphysical beliefs, the affective domain and emotional aspects, the nature of knowledge, the nature of learning, the nature
of conceptions, and past experience. Evidence from this study suggests that these components might function as constraints
to learning. This study contributes to the field by expanding our knowledge of the components of high school students’ conceptual
ecologies through its definition of the categories and themes associated with those components. In examining across the range
of components, the study illustrates the variety and sources of science conceptions within high school students’ conceptual
ecologies. 相似文献
2.
Keating Thomas Barnett Michael Barab Sasha A. Hay Kenneth E. 《Journal of Science Education and Technology》2002,11(3):261-275
The Virtual Solar System (VSS) course described in this paper is one of the first attempts to integrate three-dimensional (3D) computer modeling as a central component of an introductory undergraduate astronomy course. Specifically, this study assessed the changes in undergraduate university students' understanding of astronomy concepts as a result of participating in an experimental introductory astronomy course in which the students constructed 3D models of different astronomical phenomena. In this study, we examined students' conceptual understanding concerning three foundational astronomical phenomena: the causes of lunar and solar eclipses, the causes of the Moon's phases, and the reasons for the Earth's seasons. Student interviews conducted prior to the course identified a range of student alternative conceptions previously identified in the literature regarding the dynamics and mechanics of the Solar System. A previously undocumented alternative conception to explain lunar eclipses is identified in this paper. The interviews were repeated at the end of the course in order to quantitatively and qualitatively assess any changes in student conceptual understanding. Generally, the results of this study revealed that 3D computer modeling can be a powerful tool in supporting student conceptualization of abstract scientific phenomena. Specifically, 3D computer modeling afforded students the ability to visualize abstract 3D concepts such as the line of nodes and transform them into conceptual tools, which in turn, supported the development of scientifically sophisticated conceptual understandings of many basic astronomical topics. However, there were instances where students' conceptual understanding was incomplete and frequently hybridized with their existing conceptions. These findings have significant bearing on when and in what domains 3D computer modeling can be used to support student conceptual understanding of astronomy concepts. 相似文献
3.
Toward a durable prevalence of scientific conceptions: Tracking the effects of two interfering misconceptions about buoyancy from preschoolers to science teachers 
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下载免费PDF全文 《科学教学研究杂志》2017,54(9):1121-1142
4.
Muammer Çalık Alipaşa Ayas Jazlin V. Ebenezer 《Research in Science & Technological Education》2013,31(3):283-308
The study aims to demonstrate evidence of (a) students’ conceptual change on solution rates; (b) students’ sub‐microscopic explanations of dissolution; and (c) retention of the concepts of solution rates. The sample consists of 44 Grade 9 students (18 boys and 26 girls) drawn purposively from two different classes (22 each) in the city of Trabzon, Turkey. The current study incorporates multiple methods of data collection: items from a solution concept test, clinical interviews and examination of students’ self‐assessment tasks. The results reveal that there is a statistically significant difference between scores in pre‐test and post‐test and between pre‐test and delayed test (p < 0.05). This research indicates that the intervention has improved students’ understanding of the conceptual relationship between solution rates and the sub‐microscopic explanation of dissolution. It has also helped in overcoming students’ alternative conceptions to some extent. However, alternative conceptions have not been eliminated completely. In the light of the results, this current study suggests that a simple model such as the four‐step constructivist teaching (4E) is efficient. 相似文献
5.
Mansoor Niaz 《Interchange》2006,37(1-2):129-150
Historians and philosophers of science have recognized the importance of controversies in the progress of science. The objective
of this study was to facilitate in-service chemistry teachers’ understanding of conceptual change based on alternative philosophical
interpretations (controversies). Selected controversies formed part of the chemistry curriculum both at secondary and university
freshman level. The study is based on 17 in-service teachers who had registered for all week course on “Investigation in the
Teaching of Chemistry” as part of their Master’s degree program. The course is based on 17 readings drawing on a history and
philosophy of science perspective with special reference to controversial episodes. Course activities included written reports,
class room discussions based on participants’ presentations, and written exams. A major finding of this study is that most
teachers went through an experience that involved: inconsistencies, conflicts, contradictions, and finally some degree of
conceptual change. A few of the participants resisted any change, but still raised important issues with respect to conceptual
change. Some of the educational implications are: a) Similar to a scientist, a student can live with two rival theories simultaneously
and as the student enriches his cognitive repertoire the conflict can perhaps be resolved; b) Resolution of a conflict may
not follow a logical pattern of reasoning but rather a slow process (based on motivational, intuitive, and affective factors)
in which the hardcore of beliefs slowly crumbles; c) In science there is no absolute truth, nor a scientific method and consequently
there cannot be rules, methods, algorithms, or pre-determined steps for introducing conceptual change; d) Teachers’ epistemological
outlook is crucial in order to facilitate conceptual change. 相似文献
6.
Mustafa Baser 《Journal of Science Education and Technology》2006,15(5-6):367-381
The objective of this research is to investigate the effects of simulations based on conceptual change conditions (CCS) and traditional confirmatory simulations (TCS) on pre-service elementary school teachers’ understanding of direct current electric circuits. The data was collected from a sample consisting of 89 students; 48 students in the experimental group who were taught simulations based on CCS, and 41 students in control group who followed the TCS. Subjects in both groups used open source software (Qucs) to simulate electric circuits. All students were administered Electric Circuits Concepts Test (DIRECT), Science Process Skills Test, Physics Attitude Scale, and Computer Attitude Scale before the treatment. Pre-test analyses revealed that there is no significant difference between experimental and control groups in terms of understanding of direct current electricity. After completing 3 weeks treatment, all students received the DIRECT again as a post-test. Analysis of covariance was used. Science process skills and attitudes toward computers were taken as covariates. The results showed that the conceptual change based simulations caused significantly better acquisition of conceptual change of direct current electricity concepts than the confirmatory simulation. While science process skills and attitudes towards computer made significant contributions to the variations in achievement, gender differences and interactions between gender and treatment did not. Eleven weeks later, the DIRECT was reapplied to the students in both groups. Eleven weeks delayed post-test results showed that the experimental group outperformed the control group in understanding of direct current electric concepts. 相似文献
7.
Bayram Co&#;tu Alipa&#;a Ayas Mansoor Niaz Suat ünal Muammer ?alik 《Journal of Science Education and Technology》2007,16(6):524-536
The objective of this study was to construct a teaching strategy for facilitating students’ conceptual understanding of the
boiling concept. The study is based on 52 freshman students in the primary science education department. Students’ ideas were
elicited by a test consisting of nine questions. Conceptual change strategy was designed based on students’ alternative conceptions.
Conceptual change in students’ understanding of boiling was evaluated by administering a pre-, post- and delayed post-test.
The test scores were analysed both by qualitative and quantitative methods. Statistical analysis using one-way ANOVA of student
test scores pointed to statistically significant differences in the tests and total scores (p < 0.05). Quantitative analysis of students’ responses on each test revealed different schema about changing their knowledge
system. Both qualitative and quantitative analyses suggest that the teaching activities facilitated students’ conceptual understanding.
No statistically significant differences were found between post-test and delayed post-test scores, suggesting that the teaching
strategy enabled students to retain their new conceptions in the long-term memory. 相似文献
8.
Nada Chatila Afra Iman Osta Wassim Zoubeir 《International Journal of Science and Mathematics Education》2009,7(1):103-132
This study attempted to investigate the alternative conceptions that a group of 12 Lebanese students in a grade 9 class hold
about electricity. It also attempted to evaluate learning outcomes of implementing in that class an inquiry-based module for
the acquisition of conceptual understanding of basic concepts in electricity. Fourteen mostly subjective tests were administered
throughout the implementation phase of the inquiry-based module to assess the evolution of participants’ conceptions. The
instrument DIRECT (Version 1.0) focusing on conceptual understanding was used as a post-instructional test to measure acquisition
of understanding. The findings revealed that most of the alternative conceptions reported in literature were found amongst
the participants. Results of the post-testing showed that the implemented inquiry-based approach was successful in enhancing
participants’ conceptual understanding of the targeted DC circuit concepts. 相似文献
9.
Sevgi Aydin Nurdane Aydemir Yezdan Boz Ayla Cetin-Dindar Oktay Bektas 《Journal of Science Education and Technology》2009,18(6):518-534
The present study aimed to evaluate whether a chemistry laboratory course called “Laboratory Experiments in Science Education”
based on constructivist instruction accompanied with concept mapping enhanced pre-service chemistry teachers’ conceptual understanding.
Data were collected from five pre-service chemistry teachers at a university in Ankara by means of a concept test and semi-structured
interviews. Results showed that pre-service teachers had some alternative conceptions about chemistry topics. Moreover, using
constructivist instruction accompanied with concept maps as an instructional tool was effective to promote conceptual understanding.
Participants thought that concept maps were useful especially in recognizing the relation between different chemistry concepts. 相似文献
10.
Muammer ?al&#;k Alipa&#;a Ayas Richard K. Coll Suat ünal Bayram Co&#;tu 《Journal of Science Education and Technology》2007,16(3):257-270
The research presented in this paper consisted of an investigation of the effectiveness of a four-step constructivist-based
teaching activity on student understanding of how pressure and temperature influence the dissolution of a gas in a liquid.
Some 44 Grade 9 students (18 boys and 26 girls) selected purposively from two school classes in the city of Trabzon, Turkey
participated in the study. Students’ understanding were evaluated from examination of two items from a purpose-designed solution
concept test, face-to-face semi-structured interviews and examination of students’ self-assessment exercises. Statistical
analysis using two-way ANOVA of student test scores point to statistically-significant differences in test and total scores
(p < 0.05) suggesting that the teaching activities employed help students achieve better conceptual understanding. Further,
no statistically significant differences were seen between post-test and delayed test scores, suggesting that teaching the
activities enable students to retain their new conceptions in their long-term memory. However, in a few instances the activities
resulted in the development of new alternative conceptions, suggesting teachers need to be conscious of the positive and negative
effects of any teaching intervention. 相似文献
11.
Integrating History of Science in Science Education through Historical Microworlds to Promote Conceptual Change 总被引:1,自引:0,他引:1
This paper proposes a new way to integrate history of science in science education to promote conceptual change by introducing the notion of historical microworld, which is a computer-based interactive learning environment respecting historic conceptions. In this definition, “interactive” means that the user can act upon the virtual environment by changing some parameters to see what ensues. “Environment respecting historic conceptions” means that the “world” has been programmed to respect the conceptions of past scientists or philosophers. Three historical microworlds in the field of mechanics are presented in this article: an Aristotelian microworld respecting Aristotle’s conceptions about movement, a Buridanian microworld respecting the theory of impetus and, finally, a Newtonian microworld respecting Galileo’s conceptions and Newton’s laws of movement. 相似文献
12.
王芳 《青岛大学师范学院学报》2010,27(3):22-26
当前幼儿园教学实践中存在的"知识虚化"现象凸显着幼儿园概念转变教学的必要性。关注幼儿在日常生活中形成的用以认识和解释世界的前概念,并采用适宜的策略促进其向科学概念转变,能在一定程度上克服幼儿园教学脱离知识的传授和学习,片面强调态度、情感和价值观的培养,片面强调教学方式的改革的弊端。 相似文献
13.
Irene Poh‐Ai Cheong David Treagust Iorhemen J. Kyeleve Peck‐Yoke Oh 《International Journal of Science Education》2013,35(18):2497-2519
In this study, a two‐tier diagnostic test for understanding malaria was developed and administered to 314 Bruneian students in Year 12 and in a nursing diploma course. The validity, reliability, difficulty level, discriminant indices, and reading ability of the test were examined and found to be acceptable in terms of measuring students' understanding and identifying alternative conceptions with respect to malaria. Results showed that students' understanding of malaria was high for content, low for reasons, and limited and superficial for both content and reasons. The instrument revealed several common alternative conceptual understandings students' hold about malaria. The MalariaTT2 instrument developed could be used in classroom lessons for challenging alternative conceptions and enhancing conceptions of malaria. 相似文献
14.
The purpose of this study was to investigate the effect of conceptual change texts accompanied with concept mapping instruction, compared to traditional instruction (TI), on 8th grade students understanding of solution concepts and their attitudes toward science as a school subject. Solution Concept Test was developed as a result of examination of related literature and interviews with teachers regarding their observations of students difficulties. The test was administered to a total of 64 eighth grade students from two classes of a general science course, taught by the same teacher. The experimental group received the conceptual change texts accompanied with concept mapping in a lecture by the teacher. This instruction explicitly dealt with students misconceptions. It was designed to suggest conditions in which misconceptions could be replaced by scientific conceptions and new conceptions could be integrated with existing conceptions. The control group received TI in which the teacher provided instruction through lecture and discussion methods. The results showed that conceptual change text accompanied with concept mapping instruction caused a significantly better acquisition of scientific conceptions related to solution concept and produced significantly higher positive attitudes toward science as a school subject than the TI. In addition, logical thinking ability and prior learning were strong predictors for the concept learning related to solution. 相似文献
15.
Recently, cognitive load theory has been considered within conceptual change research. Although the effectiveness of refutation texts (RT) has been proven, the conceptual change process involved and the influencing factors remain unclear. To contribute to this research, we investigate the efficiency of pupils working with a modified RT design in which the alternative and scientific conceptions are not explicitly contrasted, and we examine the level of learner expertise as a possible influencing factor. We investigated the efficiency based on the scientific conceptions learned and the mental effort invested (reflecting cognitive load) during instruction (N = 195, 9th graders). Only pupils with high prior knowledge (experts) showed low efficiency and higher mental effort when dealing with alternative conceptions. Our results indicate that the experts did not profit from the mental effort they invested in the learning process, whereas the novices seemed to profit from their invested mental effort. 相似文献
16.
ABSTRACTThis study investigated how studying a refutational map, a type of argument map, affected conceptual change. Refutational maps visually display both correct and alternative conceptions. Participants (N?=?120) were randomly assigned to (1) a refutational map condition, (2) a refutational text condition, and (3) a non-refutational text condition. The post-test results showed that studying the refutational map led to better performance on free recall and learning transfer measures. Specifically, participants who studied the refutational map performed significantly better than others on a free recall test, and they significantly outperformed the non-refutational text group on a short-answer transfer test. The multiple-choice test, another transfer measure, failed to detect any differences among the three groups. The research also found that individual differences in need for cognition and logical thinking ability interacted with the type of study materials. Participants scoring lower on logical thinking ability gained more from studying the refutational map. 相似文献
17.
《The Journal of educational research》2012,105(1):7-18
ABSTRACT A hands-on instructional approach with medium-achieving 10th-grade students (N = 294) successfully demonstrated the achievement of a conceptual change. Two teaching variations were applied (I-1, I-2), both dealing with a hands-on gene technology lesson in an out-of-school laboratory. I-2 additionally confronted the participants with alternative conceptions to some of the central issues involved in gene technology following a constructivist teaching model. The authors monitored the percentage of alternative conceptions by pretest, posttest, and delayed posttest. In the long term, I-2 abandoned more of students’ alternative conceptions in favor of the orthodox scientific view. Furthermore, a gender effect appeared: In the short term, more young men within I-2 were forced to shift to more scientific conceptions. Young women filed their alternative conceptions also in the long term, independently of the applied instructional method. 相似文献
18.
This article reports research from a 3 year digital learning project to unite conceptual change and scientific reasoning in
the learning unit of combustion. One group of students had completed the course combining conceptual change and scientific
reasoning. The other group of students received conventional instruction. In addition to the quantitative data, six students
from each group were interviewed to evaluate their conceptual change, correct concepts and scientific reasoning. Results indicate
that the experimental group’s students significantly outperformed the conventional group on the Combustion Achievement Test
(CAT), Scientific Reasoning Test (SRT) and Combustion Dependent Reasoning Test (CDRT). Moreover, the experimental group’s
students use higher levels of scientific reasoning more frequently and changed their alternative concepts more successfully
than did the conventional group. Furthermore, once the experimental group’s students’ successfully changed their conceptions,
their concepts tended to be more stable than the conventional group’s students, even after the 6th week of learning. These
results demonstrate that combining conceptual change and scientific reasoning indeed improves students’ conceptual change
and scientific reasoning ability more effectively than conventional instruction. 相似文献
19.
《学习科学杂志》2013,22(1):91-142
Starting from the premise that understanding conceptual change requires studying it while it occurs, this article describes a new research methodology in which students' knowledge is assessed in the context of mediated learning situations that attempt to foster conceptual change. The methodology builds on two ideas: that conceptual change in science is a matter of appropriation by individuals of culturally based knowledge (of the scientific community), and that understanding such change requires a mediated context in which the students' activity (actions and thinking) is shaped by a more experienced other who reflects the cultural norms or ideals of the scientific community that facilitate knowledge production. Specific assessments developed with these ideas in mind, which we call dynamic science assessments (DSAs), function to determine students' potential to change their understanding and as a result inform us about the process of conceptual change toward scientific knowledge. Results of a DSA about electricity that we conducted with upper elementary school children (n = 28) indicated that it was possible to foster conceptual change and to discriminate children with respect to their potential to develop scientifically accurate conceptions of current and resistance. These findings indicate the promise of using mediated learning situations, such as a DSA to study conceptual change in science, and we discuss the direction of future work given the conservative mediation in the assessments conducted in this particular instance. 相似文献
20.
Basri Atasoy Huseyin Akkus Hakki Kadayifci 《Research in Science & Technological Education》2013,31(3):267-282
The purpose of this study was to compare the effects of a conceptual change approach over traditional instruction on tenth‐grade students’ conceptual achievement in understanding chemical equilibrium. The study was conducted in two classes of the same teacher with participation of a total of 44 tenth‐grade students. In this study, a pre‐test/post‐test control group semi‐experimental design pattern was used. During teaching the topic of chemical equilibrium concepts in the chemistry curriculum, a conceptual change approach was applied in the experimental group whereas traditional instruction was followed in the control group. Data were analysed with an independent samples t‐test, and an analysis of covariance using the pre‐test scores as the covariate. The results showed that the conceptual change approach was statistically more effective than traditional instruction in terms of students’ conceptual understanding. After the six‐week intervention, interviews were conducted with 18 selected students in the study. In the interviews a prevailing alternative conception was detected beside many alternative conceptions. When they were asked to compare equilibrium constants of two different reactions they mostly responded to mean that ‘the bigger the mol number of the products, the bigger the equilibrium constant’ without considering what proportions the reactants were transformed into products in a reaction. Also, in this study a two‐tier multiple choice test was developed related to chemical equilibrium to detect students’ concepts and alternative concepts. 相似文献