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1.
Teaching Chemical Equilibrium with the Jigsaw Technique   总被引:2,自引:0,他引:2  
This study investigates the effect of cooperative learning (jigsaw) versus individual learning methods on students’ understanding of chemical equilibrium in a first-year general chemistry course. This study was carried out in two different classes in the department of primary science education during the 2005–2006 academic year. One of the classes was randomly assigned as the non-jigsaw group (control) and other as the jigsaw group (cooperative). Students participating in the jigsaw group were divided into four “home groups” since the topic chemical equilibrium is divided into four subtopics (Modules A, B, C and D). Each of these home groups contained four students. The groups were as follows: (1) Home Group A (HGA), representing the equilibrium state and quantitative aspects of equilibrium (Module A), (2) Home Group B (HGB), representing the equilibrium constant and relationships involving equilibrium constants (Module B), (3) Home Group C (HGC), representing Altering Equilibrium Conditions: Le Chatelier’s principle (Module C), and (4) Home Group D (HGD), representing calculations with equilibrium constants (Module D). The home groups then broke apart, like pieces of a jigsaw puzzle, and the students moved into jigsaw groups consisting of members from the other home groups who were assigned the same portion of the material. The jigsaw groups were then in charge of teaching their specific subtopic to the rest of the students in their learning group. The main data collection tool was a Chemical Equilibrium Achievement Test (CEAT), which was applied to both the jigsaw and non-jigsaw groups The results indicated that the jigsaw group was more successful than the non-jigsaw group (individual learning method).  相似文献   

2.
This study evaluates a cooperative learning approach for teaching anatomy to health science students incorporating small group and peer instruction based on the jigsaw method first described in the 1970's. Fifty-three volunteers participated in abdominal anatomy workshops. Students were given time to become an “expert” in one of four segments of the topic (sub-topics) by allocating groups to work-stations with learning resources: axial computerized tomography (CT) of abdominal structures, axial CT of abdominal blood vessels, angiograms and venograms of abdominal blood vessels and structures located within abdominal quadrants. In the second part of workshop, students were redistributed into “jigsaw” learning groups with at least one “expert” at each workstation. The “jigsaw” learning groups then circulated between workstations learning all sub-topics with the “expert” teaching others in their group. To assess abdominal anatomy knowledge, students completed a quiz pre- and post- workshop. Students increased their knowledge with significant improvements in quiz scores irrespective of prior exposure to lectures or practical classes related to the workshop topic. The evidence for long-term retention of knowledge, assessed by comparing end-semester examination performance of workshop participants with workshop nonparticipants, was less convincing. Workshop participants rated the jigsaw workshop highly for both educational value and enjoyment and felt the teaching approach would improve their course performance. The jigsaw method improved anatomy knowledge in the short-term by engaging students in group work and peer-led learning, with minimal supervision required. Reported outcomes suggest that cooperative learning approaches can lead to gains in student performance and motivation to learn. Anat Sci Educ 00: 000–000. © 2018 American Association of Anatomists.  相似文献   

3.
ABSTRACT

Sixty-one elementary school students who had never participated in cooperative learning lessons before were included in this study. Students were randomly assigned to the conditions of cooperative learning with and without group processing and participated to 5 instructional sessions during a period of approximately 15 instructional days. Results on achievement show that by the end of the study students assigned to group processing condition achieved higher than did students assigned to no processing condition. Results on perception of peer academic and personal support and teacher academic and personal support do not show significant differences between the experimental groups.  相似文献   

4.
Cooperative learning is an active learning approach in which students work together in small groups to complete an assigned task. Students commonly find the subject of ‘physical and chemical changes’ difficult and abstract, and thus they generally have many misconceptions about it.

Purpose

This study aimed to investigate the effects of jigsaw cooperative learning activities developed by the researchers on sixth grade students’ understanding of physical and chemical changes.

Sample

Participants in the study were 61 sixth grade students in a public elementary school in Izmir, Turkey.

Design and methods

A pre-test and post-test experimental design with a control group was used, and students were randomly assigned to the experimental and control groups. Instruction of the subject was conducted via jigsaw cooperative learning in the experimental group and via teacher-centered instruction in the control group. During the jigsaw process, experimental group students studied the subjects of changes of state, changes in shape and molecular solubility from physical changes, and acid–base reactions, combustion reactions and changes depending on heating from chemical changes in their jigsaw groups.

Results

The concept test results showed that jigsaw cooperative learning instruction yielded significantly better acquisition of scientific concepts related to physical and chemical changes, compared to traditional learning. Students in the experimental group had a lower proportion of misconceptions than those in the control group, and some misconceptions in the control group were identified for the first time in this study.

Conclusions

Jigsaw cooperative learning is an effective teaching technique for challenging sixth grade students’ misconceptions in the context of physical and chemical changes, and enhancing their motivation, learning achievements, self-confidence and willingness in the science and technology lesson. This technique could be applied to other chemistry subjects and other grade levels.  相似文献   

5.
The purpose of this study was to investigate the effect of cooperative learning and the need for affiliation on performance, time on task, and satisfaction. Subjects used either a cooperative or individual learning strategy while receiving information, examples, practice, and feedback from an instructional television lesson. Results indicated that subjects who worked cooperatively spent more time working on practice exercises and reported greater satisfaction than those who worked individually. In addition, results revealed an interaction between instructional method and the need for affiliation. Performance of subjects with a high need for affiliation who worked alone was lower than that of all other groups when subjects were asked to apply what they had learned from the lesson. Implications for employing cooperative groups in settings that were originally designed for individual learning are provided.  相似文献   

6.
Two studies were conducted to investigate the effects of cooperative learning on second‐graders’ motivation and learning from text. In Study 1, students (n = 160) in cooperative learning groups were compared with their counterparts (n = 107) in traditional instruction groups. The results revealed a statistically significant difference between the two groups, with more favourable perceptions of teachers’ instructional practices and better reading comprehension in the instructional intervention groups than in the traditional instruction groups. In Study 2, 51 second‐graders participated in the instructional intervention programme. The results showed that students’ positive cooperative behaviour and attitudes were related to their motivation and reading comprehension. When students perceived that their peers were willing to help each other and were committed to the group, they tended to be more motivated and performed better in reading comprehension.  相似文献   

7.
We assessed the impact of expert students' instructional quality on the academic performance of novice students in 12th-grade physics classes organized in an expert model of cooperative learning (‘jigsaw classroom’). The instructional quality of 129 expert students was measured by a newly developed rating system. As expected, when aggregating across all four subtopics taught, regression analysis revealed that academic performance of novice students increases with the quality of expert students' instruction. The difficulty of subtopics, however, moderates this effect: higher instructional quality of more difficult subtopics did not lead to better academic performance of novice students. We interpret this finding in the light of Cognitive Load Theory. Demanding tasks cause high intrinsic cognitive load and hindered the novice students' learning.  相似文献   

8.
The use of student-centred learning environments in education has increased. This study investigated student teachers’ instructional preferences for these learning environments and how these preferences are related to their approaches to learning. Participants were professional Bachelor students in teacher education. Instructional preferences and approaches to learning were measured by means of questionnaires. Results showed that most students preferred teacher direction, cooperative learning and knowledge construction, and adopted a deep approach. Moreover, significant correlations were found between approaches to learning and instructional preferences. Students adopting a deep approach preferred knowledge construction and cooperative learning, while students adopting a surface approach had a preference for teacher direction and passive learning.  相似文献   

9.
Teaching chemical bonding through jigsaw cooperative learning   总被引:1,自引:1,他引:0  
This study examined the effectiveness of jigsaw cooperative learning in teaching chemical bonding at tertiary level. This study was carried out in two different classes in the Department of Primary Science Education of Atatürk University during the 2005–2006 academic year. One of the classes was the non‐jigsaw group (control) and the other was the jigsaw group (experimental). Students in the jigsaw group were divided into four ‘home groups’ since chemical bonding is divided into four subtopics (Modules A, B, C and D). Each of these home groups consisted of four students. The subjects covered were ionic bonding (Module A), covalent bonding (Module B), hydrogen bonding and van der Waals (Module C) and basic concepts about bonds (Module D). The main instrument for obtaining data was the Chemical Bonding Achievement Test (CBAT), which was applied to both groups. The CBAT was divided into four modules (A, B, C and D), in which each module consisted of five questions (four multiple‐choice and one open‐ended). The data obtained indicated that the students in the jigsaw group were more successful than those in the non‐jigsaw group.  相似文献   

10.
Teamwork skills such as conflict resolution and communication strategies are challenging to teach. The use of stories may help develop these complex skills. Although engagement is generally seen as a key component of learning environments, what constitutes engagement has not been fully explored. The purpose of this study was to examine how graduate instructional design students engage with and learn from stories in an online environment. This WisdomTools Scenario (Scenario) was designed specifically to facilitate the development of teamwork skills. Students followed the experiences of two fictitious student teams and discussed what happened asynchronously with small dialogue groups. Through a qualitative case study analysis, four themes emerged which captured how students engaged with and learned from this environment. First, engagement was evident through students’ emotional reactions to the characters. Second, this engagement was affected by perceived credibility and relevance of the scenes. Third, students often reflected on their prior experiences and demonstrated an increased awareness of teamwork issues. Fourth, students reported various degrees of application of what they learned to their team practice. Implications for the design of story-based learning environments are explored.  相似文献   

11.
Problem-Based Learning: What and How Do Students Learn?   总被引:22,自引:0,他引:22  
Problem-based approaches to learning have a long history of advocating experience-based education. Psychological research and theory suggests that by having students learn through the experience of solving problems, they can learn both content and thinking strategies. Problem-based learning (PBL) is an instructional method in which students learn through facilitated problem solving. In PBL, student learning centers on a complex problem that does not have a single correct answer. Students work in collaborative groups to identify what they need to learn in order to solve a problem. They engage in self-directed learning (SDL) and then apply their new knowledge to the problem and reflect on what they learned and the effectiveness of the strategies employed. The teacher acts to facilitate the learning process rather than to provide knowledge. The goals of PBL include helping students develop 1) flexible knowledge, 2) effective problem-solving skills, 3) SDL skills, 4) effective collaboration skills, and 5) intrinsic motivation. This article discusses the nature of learning in PBL and examines the empirical evidence supporting it. There is considerable research on the first 3 goals of PBL but little on the last 2. Moreover, minimal research has been conducted outside medical and gifted education. Understanding how these goals are achieved with less skilled learners is an important part of a research agenda for PBL. The evidence suggests that PBL is an instructional approach that offers the potential to help students develop flexible understanding and lifelong learning skills.  相似文献   

12.
Research indicates that cooperative learning with teacher‐guided instruction is more effective in helping young children to learn than cooperative learning with minimal guidance. In the present study, two different cooperative learning activities (jigsaw and drama) and a control condition (a traditional teacher‐led approach) were compared. The participants were 279 Grade 5 Hong Kong students located in nine classrooms. The two experimental conditions emphasised teachers' cognitive support in helping students to understand a text through both teacher‐led and student‐led activities. Post‐test data included a reading comprehension test and three questionnaires that investigated students' goal orientations, initial level of relative autonomy and perceptions of instructional practices. Findings indicate that students in the jigsaw group outperformed students in both the drama group and the control group in the reading comprehension test. The implications of conducting cooperative learning activities with well‐planned teacher guidance are discussed.  相似文献   

13.
Researchers have identified three approaches to learning—surface, strategic, and deep. These approaches are influenced by various contextual and student factors, including teaching methods, assessments, and relevance to future career. The global objective of this study was to explore the influence of course elements and students’ emotional connection to section content on students’ approaches to learning in an introductory Food Science and Human Nutrition course. Students completed two questionnaires for the Nutrition and Health (NH) and Composition and Chemistry (CC) course sections: (a) Entwistle's ASSIST Inventory and (b) a questionnaire developed to assess students’ perceived usefulness of assignments, learning resources, and emotional connection to section content. Students’ approaches to learning did not significantly differ between NH and CC sections, with the majority reporting use of strategic or deep approaches. Generally, positive correlations were obtained for learners who used the deep and strategic approaches and their perceived usefulness of assignments and learning resources. In stark contrast, negative correlations were identified for learners who used the surface approach and their perceived usefulness of learning resources and assignments. Regarding emotional connection to section content, compared to learners who used the deep and strategic approaches, learners who used the surface approach did not enjoy and felt anxious about learning the content in both sections. Furthermore, based on regression analysis, the surface learning approach was a predictor for low exam scores in both sections. Based on these findings, instructors should implement practices in course design, instructional methods, and assessment strategies that help students choose deep and strategic approaches to learning, while minimizing surface approaches.  相似文献   

14.
Postgraduate taught provision in Anglophone higher education contexts is becoming increasingly populated by cohorts of students from a wide range of linguistic, cultural and educational backgrounds. However, the voices of these students on their learning experiences remain largely unheard. Little previous research exists on the experiences of higher degree students as they participate in group work in multi-cultural settings. This study investigates the perspectives of students from a variety of educational backgrounds on their experiences of cooperative learning in multi-national groups on a Masters programme at a UK university. Seven focus groups were conducted with students from a range of countries including Confucian Heritage Cultures (CHC) and non-CHC backgrounds. Students perceived group work as often lacking adequate structure, leading to feelings of confusion and insecurity. While it was apparent that a complex interplay of cultural, cognitive, and linguistic factors impacted on the functioning of collaborative learning, the data highlighted the need to provide students with more structure and guidance for cooperative learning environments and the importance of creating intercultural learning opportunities for students to better understand the impact of cultural backgrounds on approaches to cooperative learning in multi-national situations.  相似文献   

15.
The present study aimed to compare the effectiveness of two types of cooperative learning groups used in reciprocal teaching (RT) classes (i.e. high-structured vs. low-structured groups) for enhancing students’ reading comprehension. The participants were 235 Hong Kong Chinese Grade 6 students in nine classes. Reading comprehension tests and questionnaires were used to investigate students’ reading comprehension, teachers’ cognitive support and perceptions of cooperative learning. The findings indicate that high achievers from the low-structured RT group significantly outperformed high achievers from the high-structured RT group in post-test reading comprehension, whereas low achievers from the high-structured RT group significantly outperformed low achievers from the low-structured RT group in follow-up reading comprehension. Students from the high-structured RT group reported higher scores for their perceptions of cooperative learning than students from the low-structured RT group.  相似文献   

16.
Abstract

The effects on student performance and student attitudes of varying the instructional locus of control between students and teachers were investigated. A 2 X 2 factorial design was used that included either teacher regulation or student regulation of 1) the setting of weekly learning goals, and 2) the evaluation of weekly work. After a 4-week period, a mathematics achievement test and a student attitude survey were administered. Results indicated that although teachers set more individual learning goals for students, students who set their own learning goals attained more of them. Students tended to evaluate their work more favorably than teachers, and work evaluations from both teachers and students were higher for students who initially set their own learning goals. In addition, students who were given the opportunity to set their own learning goals reported better goal-setting ability than those for whom goals were externally imposed by the teacher. As predicted, the self-regulated goal setting and evaluation were found to be significantly related to attitudes, but not to mathematics achievement.  相似文献   

17.
Although there has been considerable research into knowledge transfer for over a century, there remains a need for specific, validated techniques for teaching for transfer. This article reports on classroom-based research in which students learned about complex systems and climate change with agent-based computer models using two different instructional approaches based on productive failure (PF). In both PF approaches, students initially explored a problem space on their own and then received teacher-led instruction. One treatment group used climate computer models whereas the other group engaged in analogical comparisons between the same climate computer models and complexity computer models in different domains. The study found both groups demonstrated significant learning gains by posttest on assessments of declarative and explanatory knowledge and on within domain near transfer. However, students in the two models treatment group performed at a significantly higher level on an across domain far transfer problem solving task. Theoretical and practical implications are considered.  相似文献   

18.
ABSTRACT

The author examined whether mathematics instruction provided by kindergarten teachers is related to children's mathematics learning during the kindergarten year based on the children's socioeconomic status and race. Hierarchical linear modeling was employed using a large sample of kindergarten students to estimate relationships between the teacher's instructional approach (e.g., concrete-spatial, interpersonal, linguistic) and children's mathematics skills. Results showed that the teacher's instructional approach was selectively related to children's mathematics learning. Students in classrooms where teachers frequently employed a concrete-spatial instructional approach learned more during the kindergarten year. Students from lower socioeconomic backgrounds benefitted more from teachers who often employed an interpersonal approach, and Black/African American students benefitted less from classrooms where teachers relied more on a linguistic approach. The findings suggest that kindergarten teachers’ instruction needs to employ varied methods that take into account students’ mathematics skills and background characteristics.  相似文献   

19.
This study investigated the effect of jigsaw cooperative learning and animation versus traditional teaching methods on students’ understanding of electrochemistry in a first-year general chemistry course. This study was carried out in three different classes in the department of primary science education during the 2007–2008 academic year. The first class was randomly assigned as the jigsaw group, the second as the animation group, and the third as the control group. Students participating in the jigsaw group were divided into five “home groups” since the topic electrochemistry is divided into five subtopics. Each of these home groups contained four students. The groups were as follows: (1) Home Group A (HGA), representing the fundamental concepts of electrochemistry, (2) Home Group B (HGB), representing the electrochemical cell and energy source, (3) Home Group C (HGC), representing electrolysis, (4) Home Group D (HGD), representing Faraday’s laws, and (5) Home Group E (HGE), representing corrosion. The home groups broke apart, like pieces of a jigsaw puzzle, and the students moved into jigsaw groups consisting of members from the other home groups, who were each assigned a subtopic. For students in the animation group, their lesson focused on explaining the step-by-step process of electrochemistry through a computer-animated presentation. The main data collection tools were the Test of Scientific Reasoning and the Particulate Nature of Matter Evaluation Test. The results indicated that the jigsaw and animation groups achieved better results than the control group.  相似文献   

20.
It is complicated to design a computer simulation that adapts to students with different characteristics. This study documented cases that show how college students’ prior chemistry knowledge level affected their interaction with peers and their approach to solving problems with the use of computer simulations that were designed to learn electrochemistry. Students with different prior knowledge levels were found to use different approaches to solving problems with the use of computer simulations. In particular, the cases showed that students with a high level of prior knowledge tended to use the equations and formulas to accomplish the learning tasks and then use the computer simulations to confirm their predictions. Students with a low level of prior chemistry knowledge used the computer simulations as the main resources to accomplish their tasks. Considerations of individual differences and the integration of learning materials were suggested for further research on instructional use of computer simulations.  相似文献   

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