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1.
This study aimed to investigate the comparative value of experimenting with physical manipulatives (PM) in a sequential combination with virtual manipulatives (VM), with the use of PM preceding the use of VM, and of experimenting with PM alone, with respect to changes in students' conceptual understanding in the domain of heat and temperature. A pre–post‐comparison study design was used which involved 62 undergraduate students that attended an introductory course in physics. The participants were randomly assigned to one experimental and one control group. Both groups used the same inquiry‐oriented curriculum materials. Participants in the control group used PM to conduct the experiments, whereas, participants in the experimental group used first PM and then VM. VM differed from PM in that it could provide the possibility of faster manipulation, whereas, it retained any other features and interactions of the study's subject domain identical to the PM condition. Conceptual tests were administered to assess students' understanding before, during, and after the study's treatments. Results indicated that experimenting with the combination of PM and VM enhanced students' conceptual understanding more than experimenting with PM alone. The use of VM was identified as the cause of this differentiation. © 2008 Wiley Periodicals, Inc. J Res Sci Teach 45: 1021–1035, 2008 相似文献
2.
Adnan Baki Temel Kosa Bulent Guven 《British journal of educational technology : journal of the Council for Educational Technology》2011,42(2):291-310
The study compared the effects of dynamic geometry software and physical manipulatives on the spatial visualisation skills of first‐year pre‐service mathematics teachers. A pre‐ and post‐test quasi‐experimental design was used. The Purdue Spatial Visualisation Test (PSVT) was used for the pre‐ and post‐test. There were three treatment groups. The first group (n = 34) used Dynamic Geometry Software (DGS) Cabri 3D as a virtual manipulative and the second group (n = 32) used physical manipulatives. In the control group (n = 30), the students received traditional instruction. The results of the study showed that physical manipulatives and DGS‐based types of instruction are more effective in developing the students' spatial visualisation skills than traditional instruction. In addition, students in the DGS‐based group performed better than the physical manipulative‐based group in the views section of the PSVT. 相似文献
3.
Tzu-Ling Wang Yi-Kuan Tseng 《International Journal of Science and Mathematics Education》2018,16(2):203-219
The purpose of this study was to investigate the relative effectiveness of experimenting with physical manipulatives alone, virtual manipulatives alone, and virtual preceding physical manipulatives (combination environment) on third-grade students’ science achievement and conceptual understanding in the domain of state changes of water, focusing on the concepts of evaporation and condensation. A pretest-posttest design was used that involved 208 third-grade students assigned to the three learning conditions. A science achievement test and a two-tier conceptual test were administered to students before and after a teaching intervention. The results revealed that using virtual preceding physical manipulatives and virtual manipulatives alone enhanced students’ knowledge gains about evaporation and condensation greater than the use of physical laboratory activities alone. It was also found that the combination environment promoted students’ knowledge gains about these concepts equally well as the use of virtual laboratory activities alone. On the other hand, the results showed that using virtual preceding physical manipulatives promoted students’ conceptual understanding most efficiently compared to the use of either physical or virtual manipulatives alone; in contrast, experimenting with physical manipulatives alone was least influential for students’ conceptual understanding compared to the other manipulatives. 相似文献
4.
Zeynel Kablan 《教育心理学》2016,36(2):277-296
The current study investigates the influence of manipulatives used in combination with traditional approaches to mathematics education and how varying amounts of time spent on manipulative use influence student achievement across different learning styles. Three learning environments were created that incorporated varying proportions of traditional teaching approaches and manipulative methods. In one of the learning environments, the teacher used strictly lecture- and exercise-based teaching activities, which are more conducive to abstract learning. Abstract learners showed higher academic performance compared with concrete learners in the environment where only traditional methods were used. For the other two environments, which utilised varying combinations of manipulative tools and traditional methods, the differences in the mathematics achievement levels among students of varying learning styles were not statistically significant. The study also showed that concrete learners demonstrated higher performance in mathematics when manipulatives were used than did their counterparts in the environment where only abstract activities were used; however, in the third learning environment, increasing the amount of manipulative use did not provide an extra benefit to concrete learners. 相似文献
5.
We conducted a two-part study to examine how the use of different manipulatives, levels of instructional guidance, and collaboration among college-aged students influenced their mathematics performance and perseverance. In Study 1, we manipulated different types of manipulatives (no manipulative, bland, and perceptually rich), and different contextual factors of instructional guidance (high vs. low) to identify how they influenced students’ ability to complete mathematical problems as well as impact students’ perseverance. Findings showed that participants’ use of bland manipulatives positively impacts their ability to complete word problems. Study 2, grounded in findings from Study 1, incorporated collaborative learning to lessen the negative effects of using perceptually rich manipulatives and enhance students’ perseverance in mathematics. The results from Study 2 aligned with the findings from Study 1 concerning the negative effect of perceptual richness for problem-solving and perseverance. Moreover, the collaboration of participants had a positive effect on students’ perseverance during problem-solving as students who collaborated with perceptually rich manipulatives persevered as much as those who collaborated with bland manipulatives as well as those who worked individually with bland manipulatives. 相似文献
6.
Many researchers have found that for reasoning and reaching a reasoned conclusion, particularly when the process of induction is required, deaf and hard-of-hearing children have unusual difficulty. The purpose of this study was to investigate whether the practice of rotating virtual reality (VR) three-dimensional (3D) objects will have a positive effect on the ability of deaf and hard-of-hearing children to use inductive processes when dealing with shapes. Three groups were involved in the study: (1) experimental group, which included 21 deaf and hard-of-hearing children, who played a VR 3D game; (2) control group I, which included 23 deaf and hard-of-hearing children, who played a similar two-dimensional (2D) game (not VR game); and (3) control group II of 16 hearing children for whom no intervention was introduced. The results clearly indicate that practicing with VR 3D spatial rotations significantly improved inductive thinking used by the experimental group for shapes as compared with the first control group, who did not significantly improve their performance. Also, prior to the VR 3D experience, the deaf and hard-of-hearing children attained lower scores in inductive abilities than the children with normal hearing, (control group II). The results for the experimental group, after the VR 3D experience, improved to the extent that there was no noticeable difference between them and the children with normal hearing. 相似文献
7.
Katie A. Gilligan-Lee Zachary C. K. Hawes Ashley Y. Williams Emily K. Farran Kelly S. Mix 《Child development》2023,94(5):1205-1221
Studies show that spatial interventions lead to improvements in mathematics. However, outcomes vary based on whether physical manipulatives (embodied action) are used during training. This study compares the effects of embodied and non-embodied spatial interventions on spatial and mathematics outcomes. The study has a randomized, controlled, pre-post, follow-up, training design (N = 182; mean age 8 years; 49% female; 83.5% White). We show that both embodied and non-embodied spatial training approaches improve spatial skills compared to control. However, we conclude that embodied spatial training using physical manipulatives leads to larger, more consistent gains in mathematics and greater depth of spatial processing than non-embodied training. These findings highlight the potential of spatial activities, particularly those that use physical materials, for improving children's mathematics skills. 相似文献
8.
Nesrin Destan Manuela A. Spiess Anique de Bruin Mariëtte van Loon Claudia M. Roebers 《Metacognition and Learning》2017,12(3):315-336
The current study investigated kindergarteners and second graders’ ability to monitor and evaluate their own and a virtual peer’s performance in a paired-associate learning task. Participants provided confidence judgments (CJs) for their own responses and performance-based judgments (judgments provided after receiving feedback on their performance) for both their own and a virtual peer’s responses. For the performance-based judgments, children were confronted with their own or the peer’s answer as well as the correct answer. Additionally, participants were asked to credit their own and the peer’s correct and incorrect answers while facing feedback. Results indicate an age-related progression in metacognitive monitoring skills, with second graders differentiating more strongly in their confidence judgments between correct and incorrect responses compared to kindergarteners. Regarding performance-based judgments, children of both age groups provided higher judgments for correctly compared to incorrectly recognized items as well as for their own responses in comparison to the responses of the unknown child. Similarly, when crediting, participants of both age groups gave more credits for correct recognition than for incorrect recognition and for their own responses than for the peer’s responses. The significant interaction between age group and recognition accuracy for the crediting shows that second graders gave more credits for correctly recognized items while kindergarteners gave more credits for incorrect answers than the older children – primarily for their own incorrect answers. In conclusion, the study provides new insights into 6- and 8-year-olds’ evaluations of their own and an unknown child’s performance in a paired-associate learning task by showing that children of both age groups generally judged and credited responses in their own favor. These results add to our understanding of biases in children’s performance evaluations, including metacognitive judgments and judgments provided after receiving feedback. 相似文献
9.
The focus of this paper is on the contribution that active touch sensory feedback offered through physical or virtual (with haptic feedback) manipulatives, makes to students' learning through science experimentation. Both theoretical perspectives and empirical evidence are presented. The theoretical perspectives were drawn from two types of theories, namely embodied cognition and additional (touch) sensory channel, which were associated with the use of physical and virtual manipulatives for learning purposes. The empirical evidence was drawn from two different lines of research. The first line of research involves studies that have focused on comparing physical manipulatives and virtual manipulatives (without the provision of haptic feedback), whereas the second involves studies that have focused on comparing virtual manipulatives with and without the provision of touch sensory (haptic) feedback. Both theories supply strong arguments for providing touch sensory feedback during science experimentation, whereas the empirical research outcomes show that providing touch sensory feedback is not always a prerequisite for learning science through experimentation. Those instances for which touch sensory feedback does appear to be a necessity for learning science through experimentation are identified. However, science education studies are limited within the aforementioned research areas. In addition, their findings are inconsistent, especially for the research focused on comparing virtual manipulatives with and without haptic feedback. The latter makes it difficult to arrive at a solid framework that depicts when and how touch sensory feedback should be offered to students for learning science through experimentation. The article concludes with suggestions for future research that would contribute towards development of such a framework. 相似文献
10.
The studies regarding how the comprehension of geometric shapes evolves in childhood are largely based on the assessment of children's responses during the course of tasks linked to the recognition, classification or explanation of prototypes and models. Little attention has been granted to the issue as to what extent the geometric shape turns out to be an expressive tool that young children spontaneously use in their pictorial productions and also, whether or not methodological research approaches aimed at the examination of unprompted usage of geometric shapes in childhood may be useful regarding the study of the development of geometric thinking. This evidence provided by this study is coherent with the assumption that before starting primary education, internal representation of closed curves, quadrilaterals and triangles should have been developed by a significant number of children and, more interestingly, that young children’s graphical expressivity appears liaised to their skill to depict two-dimensional geometric shapes. 相似文献
11.
《Africa Education Review》2013,10(3):361-380
ABSTRACTMultiple Intelligence Theory suggests that individuals perceive knowledge in eight different ways. This article reports on a study that explored the role of manipulatives in the teaching and learning of trigonometric ratios in grade 10. The approach attempts in addressing three domains of the Multiple Intelligence Theory (linguistic/verbal intelligence, logical/mathematical intelligence and spatial intelligence). The foundation of this research was a case study contained in the interpretative paradigm involving five grade 10 mathematics pupils at a high school in South Africa. The data was collected from: (1) activity sheet containing written responses of pupils; (2) observations; and (3) semi-structured interviews. The data was analysed and it was found that the use of manipulatives in teaching and learning mathematics played a positive role in leaners understanding of trigonometric ratios at grade 10 level. In general the findings of this study supported other research findings that confirm that manipulatives were important mediating tools in the development of conceptual and procedural understanding of mathematical concepts. Besides these pedagogical implications the study proved that the manipulatives effectively consolidated the features of Lesh's model. 相似文献
12.
The purpose of this study is to examine the effect of creative drama-based instruction on seventh graders’ science achievements
in the ecology and matter cycles unit and their attitudes toward science. The study is an experimental study carried out in
one of the public elementary schools in Turkey during 2005–2006 schooling year. An ecological concept achievement test was
developed and administered to 45 students in two classes (as control and experimental group) of an elementary school before
and after the treatment. The experimental group received creative drama-based instruction and the control group received traditional
instruction. A guiding instruction material which contains six lesson plans in the subject was constructed for the teacher
to administer creative drama-based instruction. The topics of ecosystems and matter cycles were taught to the both of groups
for 3 weeks. A science attitude test was administered to both groups before and after the treatment. The results revealed
a statistically significant difference between the mean scores of the both groups with respect to achievement in the ecology
concepts and median of the attitudes toward science in favour of the experimental group after the treatment. 相似文献
13.
The effects of two teaching strategies utilizing manipulatives on the development of logical thought
Herbert G. Cohen 《科学教学研究杂志》1984,21(8):769-778
Scientific literacy has many components: concept/content knowledge; science process ability; and reasoning ability. This latter component permits an individual to understand the content. According to Piaget, experience is one of the factors mediating the development of reasoning. Therefore, the primary purpose of this study was to investigate what effects two different teaching strategies would have on the development of logical structures. A secondary purpose was to examine the effects of gender on logical development. Four intact classes took part in this study; two (Control) classes receiving instruction involving working at desks and manipulation of materials based on predetermined behaviors and not children's interests; while the other two (Experimental) classes received instruction encouraging them to work on the floor and to examine whatever phenomenon they were exploring by moving about and/or moving and manipulating the apparatus, and to use them in a variety of ways dependent on their own interests. Data were collected using a battery of six Piagetian-type tasks. The chi-square one-sample procedure was used to determine if there was any direct treatment effect and also to see if gender had any effect on the development of reasoning. It was determined that gender had no effect, while treatment did effect the development of reasoning, experimental subjects outperformed control subjects. It was concluded that teachers must take an active role when their students are using manipulatives; they should act as guides encouraging students to examine materials from many vantage points and to utilize materials in ways which seem appropriate to the students' interests and level of understanding. 相似文献
14.
This study explored gender differences in the relationship between young people's mathematics attitudes and their perceptions
toward virtual manipulatives. Seven hundred eighty junior high school adolescents who participated in the problem-solving
activity using virtual manipulatives were selected for examination. The study found the male adolescents' views on motivation
and enjoyment of mathematics could explain many aspects of their perceptions toward virtual manipulatives. The female adolescents'
views on the importance of mathematics and freedom from fear of mathematics could explain many aspects of their perceptions
toward virtual manipulatives. However, motivation, enjoyment, and importance of mathematics were more prominent than freedom
from fear of mathematics in predicting male adolescents' perceptions toward virtual manipulatives, and freedom from fear and
importance of mathematics were more prominent than enjoyment and motivation of mathematics in predicting female adolescents'
perceptions toward virtual manipulatives. Two implications can be drawn from this study. First, teachers could provide males
with appealing problem contexts not only to be used to remove the fear of mathematics, but also to be used for enjoyment and
as motivation to see the importance of mathematics. Then male students could be encouraged to have more confirmed positive
perceptions toward virtual manipulatives when engaging in the activities of computer-based mathematics. Second, teachers could
provide females with interesting teaching activities, not only to be used for motivation and the enjoyment of mathematics,
but also to be used to remove the fear of mathematics and for experiencing the importance of mathematics. Then female students
could have positive perceptions toward virtual manipulatives when technology was integrated into the classroom to enhance
learning and to support effective mathematics teaching. 相似文献
15.
Reading with Orthographic and Segmented Speech (ROSS) programs use talking computers to deal with deficits in word recognition and phonological awareness. With ROSS, children
read stories on a computer screen. Whenever they encounter a word they find difficult, they can request assistance by targeting
the word with a mouse. The program highlights the word in segments and then pronounces the segments in order. In previous
studies, children improved in reading, but children with relatively lower initial phonological awareness (PA) gained less
than the others. In order to maximize the benefits from ROSS for all children, the current study aimed to improve PA before
and while reading with ROSS, by using some programs based on theAuditory Discrimination in Depth method (Lindamood and Lindamood 1975), and others focusing on phoneme manipulation with speech feedback for all responses.
The study compared the effects of this training with training in Comprehension Strategies (CS) based on Reciprocal Teaching
techniques (Palincsar and Brown 1984), among second- to fifth-grade students with problems in word recognition. While both
groups received equal instructional time in small-groups and with the computer, the groups differed in how much time they
spent reading words in context. Whereas PA children spent half their computer time on PA exercises involving individual words
and half reading words in context with ROSS, the CS group spent all their computer time reading words in context with ROSS.
Both groups made significant gains in decoding, word recognition, and comprehension; however the PA groups gained significantly
more than the CS group on all untimed tests of phoneme awareness, word recognition, and nonsense word reading. The CS children
performed better on a test of time-limited word recognition; they also achieved higher comprehension scores, although only
while reading with a trainer. The PA children’s improved decoding skill led to greater accuracy, but slower responses with
difficult words, after one semester’s training. 相似文献
16.
Dimitris Koliopoulos Yannis Hadzigeorgiou 《International Journal of Science Education》2013,35(8):997-1007
The objective of this study was to investigate the effect of a socio‐cognitive teaching strategy on young children. It tests their understanding of the factors that friction depends on when an object is projected across a horizontal surface. The study was conducted in three phases: pre‐test, teaching intervention, and post‐test. The sample consisted of 68 preschool children who were assigned to two groups according to age and cognitive ability, based on their responses to a pre‐test. The children in the experimental group participated in activities that were approached from a socio‐cognitive perspective while the children in the control group participated in the same activities but from a Piagetian perspective. A statistically significant difference was found (Mann–Whitney U‐test), between the pre‐test and the post‐test, providing evidence for the effect of the socio‐cognitive strategy on children's understanding of a ‘precursor model’ for the concept of friction. 相似文献
17.
Megan Foulkes Francesco Sella Theresa Elise Wege Camilla Gilmore 《Mind, Brain, and Education》2023,17(3):185-196
There is mixed evidence as to whether concrete manipulatives (e.g., toy animals) are better than abstract manipulatives (e.g., counters) for teaching mathematical concepts to children. Concreteness is defined as the amount of extraneous information a manipulative provides, and in this study we aimed to unpick which dimensions of concreteness influence manipulative choice. Researchers, teachers, and parents completed a comparative judgment task comparing images of manipulatives varying in different dimensions of concreteness, selecting which they would choose to teach arithmetic to children. The findings indicated homogeneous, 3-dimensional manipulatives were the most preferred across all groups to teach arithmetic to children, regardless of more extraneous features. This contradicts research recommendations to minimize the use of concrete manipulatives due to their distractive qualities. Instead, it suggests that some concrete features may be preferred in more naturalistic contexts. More research is required to investigate how different dimensions of concreteness influence learning outcomes for children both in artificial research contexts and in practice. 相似文献
18.
The aim of the present study was to investigate the effect of the “Visual Awareness Education Programme” developed to support the visual literacy skills of preschool children. The study group comprised 40 children (20 children in the experimental group and 20 children in the control group) attending preschool in the 2014–2015 school year. The pre-test post-test experimental model was used in the study. The “Visual Literacy Inventory for Preschool Children” and the “Children’s Visual Literacy Rating Inventory for Parents” were used to determine visual literacy level of children. Study results revealed significant differences in favour of the experimental group children in the sub-dimensions and the post-test scores of the “Visual Literacy Inventory for Preschool Children” and the post-test scores of the “Children’s Visual Literacy Rating Inventory for Parents”. 相似文献
19.
陈学东 《渭南师范学院学报》2007,22(5):80-81
运用文献资料法、数理统计法、实验法,将实验对象分为两组,实验组在普通选项课教学中进行一定时间的素质训练,对照组采用正常的教学方法,通过10周的教学后发现:虽然两组的选项课成绩没有明显差异,但两组的身体素质出现了一定的差异,实验组好于对照组,结果表明在普通教学中进行系统的素质练习是可行的. 相似文献
20.
Nuwar Mawlawi Diab Author vitae 《Assessing Writing》2011,16(4):274-292
This paper reports on a quasi-experimental study comparing the effects of peer-editing to self-editing on improving students’ revised drafts. The study involved two intact classes (experimental and control groups) of an English course. The experimental group practiced peer-editing while the control group engaged in self-editing. After receiving sufficient training in their respective type of editing, both groups wrote a graded argumentative essay in two drafts. Results of a MANCOVA test carried out on the graded essay written by the two groups showed a statistically significant difference in revised writing in favour of peer-editing. A random sample of seven peer-edited and self-edited essays was analyzed to determine the differences between peer-editors’ and self-editors’ ability to notice errors, revise, and improve them. Results revealed that while peer-editors and self-editors had more or less the same noticing ability, writers who engaged in self-editing revised more errors than writers who received peer-feedback. In contrast, writers who engaged in peer-editing improved their revised drafts more than self-editors did. Differences in revised writing performance between the two groups are attributed to the use of language learning strategies, peer interaction, and engagement with language. The paper concludes with implications for classroom teaching/learning and recommendations for future research. 相似文献