The impact of cooperative learning on self-directed learning abilities in the computer applications technology class

ABSTRACT

This article reports on an explorative study into the relationship between the implementation of cooperative learning strategies and students’ self-directedness in learning. Participants in this study were first-year Computer Applications Technology student teachers. Students completed a self-directed learning questionnaire at the beginning of the module and again after completion of the module. We used cooperative learning strategies during contact sessions over 12 weeks. After completion of the module, interviews were also conducted with randomly selected students. We concluded that the cooperative learning experiences in the Computer Applications Technology class appear to have an effect on students’ perceived readiness for self-directed learning only in cases where students do not have perceived high self-directed learning skills.     

Making inquiry-based science learning visible: the influence of CVS and cognitive skills on content knowledge learning in guided inquiry

ABSTRACT

Many science curricula and standards emphasise that students should learn both scientific knowledge and the skills associated with the construction of this knowledge. One way to achieve this goal is to use inquiry-learning activities that embed the use of science process skills. We investigated the influence of scientific reasoning skills (i.e. conceptual and procedural knowledge of the control-of-variables strategy) on students’ conceptual learning gains in physics during an inquiry-learning activity. Eighth graders (n?=?189) answered research questions about variables that influence the force of electromagnets and the brightness of light bulbs by designing, running, and interpreting experiments. We measured knowledge of electricity and electromagnets, scientific reasoning skills, and cognitive skills (analogical reasoning and reading ability). Using structural equation modelling we found no direct effects of cognitive skills on students’ content knowledge learning gains; however, there were direct effects of scientific reasoning skills on content knowledge learning gains. Our results show that cognitive skills are not sufficient; students require specific scientific reasoning skills to learn science content from inquiry activities. Furthermore, our findings illustrate that what students learn during guided inquiry activities becomes visible when we examine both the skills used during inquiry learning and the process of knowledge construction. The implications of these findings for science teaching and research are discussed.     

Cooperative learning on an international masters

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.     

A jigsaw cooperative learning application in elementary science and technology lessons: physical and chemical changes

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.     

Using blended learning and out-of-school visits: pedagogies for effective science teaching in the twenty-first century

Background: Recent research and curriculum reforms have indicated the need for diversifying teaching approaches by drawing upon student interest and engagement in ways which makes learning science meaningful. Purpose: This study examines the integration of informal/free choice learning which occurred during learning experiences outside school (LEOS) with classroom learning using digital technologies. Specifically, the digital technologies comprised a learning management system (LMS), Moodle, which fits well with students’ lived experiences and their digital world. Design and Method: This study examines three out-of-school visits to Informal Science Institutes (ISI) using a digitally integrated fieldtrip inventory (DIFI) Model. Research questions were analysed using thematic approach emerging along with semi-structured interviews, before, during and after the visit, and assessing students’ learning experiences. Data comprised photographs, field notes, and unobtrusive observations of the classroom, wiki postings, student work books and teacher planning diaries. Results: We argue, that pre- and post-visit planning using the DIFI Model is more likely to engage learners, and the use of a digital learning platform was even more likely to encourage collaborative learning. The conclusion can also be drawn that students’ level of motivation for collaborative learning positively correlates with their improvement in academic achievement.     

‘I wouldn’t have been culturally safe’: health science students’ experiences of transformative learning within Indigenous Studies

ABSTRACT

Despite a significant body of literature espousing the transformative impacts of Australian Indigenous Studies curriculum upon students, there remains a limited body of work related to how these students experience and learn within this complex environment. This is particularly notable for research aligned with Mezirow’s transformative learning theory. Reporting on a qualitative study, this paper offers a perspective into students’ transformative experiences within a tertiary first-year Indigenous Studies health course. Thirteen non-Indigenous students were interviewed about their learning experiences within this context. Explicitly framed by Mezirow’s transformative learning theory, thematic analysis findings suggest students consistently experience precursor steps to transformative learning including disorienting dilemmas, self-examination with guilt or shame, critical reflection on assumptions, exploration of new roles, and trying on new roles. The manifestation of these steps highlights the ways in which students experience learning in this space, and a range of elements influencing this – from students’ own positioning and approaches to learning, to the nature of the curricular and pedagogical approaches. This study offers nuanced insight into the complexity of students’ transformative learning experiences, suggesting students hold a range of contradictory perspectives at any one time. If curricular models are to be effective for the broader student body, we propose that (1) the complex intersection of students’ identity development, need for group belonging, learning approach, limitations in existing knowledge and capacity for complex thought requires further consideration in this context, and (2) greater institutional investment is necessary in both the development of educators in this space, and educational opportunities beyond first-year, lest we risk reinforcing extant beliefs and paradigms held by non-Indigenous Australians about Indigenous Australians, and a continuation of the health disparities these curricular offerings are designed to alleviate.     

Understanding collaborative language learning in novice-level foreign language classrooms: perceptions of teachers and students

This study explored the congruence and disparities among three groups of foreign language (Chinese, French, and German) students’ and teachers’ perceptions of collaborative/cooperative language learning (CLL) strategies in novice-level classroom contexts. A total of 168 participants from a university in the USA took part in this mixed-method study. The quantitative findings from a 10-item CLL questionnaire suggested that while the students’ and teachers’ perceptions of CLL strategies were generally consistent and positive, some disparities emerged in terms of their perceptions towards pair work, 3–6 as a group work, interview, and role playing. The qualitative findings from interviews and classroom observations provided some possible explanations to the differences discovered. The quantitative findings also revealed that foreign language type was not a factor differentiating students’ and teachers’ perceptions of CLL strategies. Some practical implications are provided for the effective implementation of CLL strategies in novice-level foreign language classrooms.     

Relationships among informal learning environments,teaching procedures and scientific reasoning ability

Informal learning experiences have risen to the forefront of science education as being beneficial to students' learning. However, it is not clear in what ways such experiences may be beneficial to students; nor how informal learning experiences may interface with classroom science instruction. This study aims to acquire a better understanding of these issues by investigating one aspect of science learning, scientific reasoning ability, with respect to the students' informal learning experiences and classroom science instruction. Specifically, the purpose of this study was to investigate possible differences in students' scientific reasoning abilities relative to their informal learning environments (impoverished, enriched), classroom teaching experiences (non-inquiry, inquiry) and the interaction of these variables. The results of two-way ANOVAs indicated that informal learning environments and classroom science teaching procedures showed significant main effects on students' scientific reasoning abilities. Students with enriched informal learning environments had significantly higher scientific reasoning abilities compared to those with impoverished informal learning environments. Likewise, students in inquirybased science classrooms showed higher scientific reasoning abilities compared to those in non-inquiry science classrooms. There were no significant interaction effects. These results indicate the need for increased emphases on both informal learning opportunities and inquiry-based instruction in science.     

Effects of Cooperative Learning on Achievement and Attitude Among Students of Color

Abstract

The author examined the effects of cooperative learning on the achievement in and attitudes toward mathematics of a group of 5th-grade students of color in a culture different from the United States (i.e., Bermuda). Students participated in 12 weeks of R. Slavin's (1978) Student Teams Achievement Division method of cooperative learning in mathematics during the fall semester. Students completed 2 measures: the computation and application sections of the California Achievement Test (1985) Form E (Level 14) and Penelope Peterson's Attitude Toward Mathematics Scale for Grades 4-6 Students at 4 different intervals. The measures were completed as pretests at the beginning of the semester (before students were exposed to cooperative learning) and as posttests at the end of Weeks 5, 9, and 13. Data were analyzed with a 1-factor (4 levels) repeated measures analysis of variance design to ascertain whether there were significant differences among the pre- and posttest scores. Results suggest that there were positive gains in attitudes and achievement.     

Cooperative Learning: A Motivational Tool to Enhance Student Persistence,Self‐Regulation,and Efforts to Please Teachers and Parents

ABSTRACT

The effects of cooperative group learning on students’ persistence, self‐regulation, and efforts to please teachers and parents were examined. Eighty‐one high school geometry students were randomly assigned to either a cooperative learning or traditional lecture group. Twenty‐seven students received cooperative group instruction for nine weeks and then received traditional classroom instruction for nine weeks. Twenty‐five students received traditional instruction for nine weeks and then received cooperative group instruction for nine weeks. Twenty nine students received traditional classroom instruction for 18 weeks. Participants completed pre, post, and post‐posttest motivation questionnaires at each phase of the project. Students in the cooperative group classrooms exhibited significantly greater gains in persistence, self‐regulation, and efforts to please their parents and teacher. The implications of these findings for motivation theory and cooperative group structures are discussed.     

A quasi-experimental study comparing learning gains associated with serious educational gameplay and hands-on science in elementary classrooms

Serious educational gameplay continues to gain traction in K-12 educational settings, as access to novel technologies increases. Increased access to computers and other devices has shifted the landscape of the classroom, increasing students' screen-time, as technology infused lessons replace other learning experiences. Amid this context, our research team created a serious educational game (SEG) designed for elementary science learners. Previous studies have linked serious gameplay to learning gains and changes in attitudes, yet the rigor of the studies often underwhelms, as the studies lack an adequate sample size, detailed student data, or quality comparison groups. These limitations are compounded in the study of science learning in elementary schools, due to structural difficulties and student variability that impede the implementation of this type of experimentation. This research attends to this knowledge gap, as our team conducted two quasi-experimental studies to explore the learning gains associated with Virtual Vet, a SEG designed to address the fundamental science concepts associated with the human body systems and the subsequent effect of diabetes and obesity related illnesses on the given body systems. In Study 1, students (n = 232) were randomly assigned to play Virtual Vet or participate in guided inquiry lessons that addressed the same objectives. Our study found that students in the game condition outperformed the non-game condition. Based on this finding, we designed Study 2 to compare learning outcomes associated with two conditions: students play only Virtual Vet or students play Virtual Vet and they participate in the guided inquiry activities, which doubled the instructional time for this group. Students (n = 166) were assigned to one of the conditions and we found no significant increase in learning gains for the students who participated in both activities. These results indicate that well-designed SEGs powerfully facilitate and support science learning in elementary settings.     

Writing for Social Scientists: How to Start and Finish Tour Thesis,Book, or Article.

Underlined by the belief that teachers' critical awareness of their actions is a vital issue in education, this study examines the insights that evolved from a long-term collaboration among seven doctoral students. To prepare for our comprehensive examinations, we collaborated as a study group for one and one-half years. Adopting the dual roles of listener-researcher and narrator-participant, we engaged in dialogue and narrative to convey to each other the meaning of our collaborative experiences. From grounded theory analysis, four elements of collaboration emerged: logistics, social dynamics, empowerment, and change. In order to convey the meaning of our experiences, we create a multiplicity of meanings based on our diverse and lived personal narratives. Finally, our collaborative process challenges academic administrations to examine how well their current policies encourage personal autonomy and cooperative learning approaches for students involved in preparing for their comprehensive examinations.     

Are low achievers disliked in a cooperative situation? A test of rival theories in a mixed ethnic situation

The effect of cooperative and individualistic learning experiences within which majority students worked with lower-achieving minority peers were compared. A number of theories predict that when white students collaborate with lower-achieving minority students prejudice and rejection will increase. These theories were tested against a counter position that working collaboratively promotes liking regardless of differences in achievement. Forty-eight students (20 minority and 28 white) were assigned to conditions on a stratified random basis controlling for ethnic membership, sex, social class, and ability level. They participated in the study for 55 min a day for 15 instructional days. The results indicate that cooperative learning experiences, compared with individualistic ones, promoted higher achievement for minority students, more cross-ethnic interaction aimed at supporting and regulating efforts to learn and ensuring the active involvement of all students, and greater cross-ethnic interpersonal attraction. The results do not support the theories that posit equal achievement levels are necessary for successful integration and do support the position that cooperative experiences result in liking regardless of the ethnic membership or achievement level of collaborators.     

Perceptions of challenge in science learning

Prior research has indicated that decisions made by students about their learning are influenced by perceptions of various factors related to the task and classroom context. This influence seems to be mediated by the extent to which the learner perceives personal challenge in what is done. This concept of personal challenge comprises both cognitive (demand) and affective (motivation) components. In the current paper, response trends of almost 4000 secondary science students to a questionnaire structured according to factors associated with challenge are considered by school, year level and gender. These trends indicate that challenge in science diminishes as students move from Years 7 to 10, due to increasingly negative perceptions of many of these factors. Results also indicate however that, through purposeful change in teaching perspectives and practices, teachers can establish and sustain students’ sense of challenge in classroom learning.     

Crossing the ‘bridges’ and navigating the ‘learning gaps’: Chinese students learning across two systems in a transnational higher education programme

ABSTRACT

Chinese universities are actively pursuing cross-border collaborations in the form of transnational higher education programmes. Our study captures the experiences of Chinese students to illuminate how they navigate their learning journeys in a China-Australia articulation programme. To communicate the complexity of learning in modern transnational higher education programmes, we employed activity theory as the theoretical framework to explore cross-cultural contradictions shaping students’ experiences of learning. Assessment, programme rules, teaching strategies, and class and campus settings created contradictions that students had to negotiate as in-between learning spaces. We argue that cross-system contradictions play important roles in transnational higher education programmes. Therefore, instead of seeking to eliminate these contradictions or smooth cross-educational differences, these contradictions should be leveraged as learning opportunities to enrich transnational higher education programmes.     

Gifted learning disabled students

Abstract

Up to 30 per cent of gifted students display a learning disability, with 10 per cent reading at two or more years below their grade level. They are referred to as being ‐gifted learning disabled’ or as having the dual exceptionalities of giftedness and learning disabilities. For these students, their learning disability is more likely to be recognised and targeted in teaching than their gifted ability.

The present study reviews their learning characteristics and explains these in terms of an information processing model of learning. Nine characteristics are addressed: their superior general intellectual ability in at least some domains of knowledge, a global wholistic preference in thinking, a negative academic self‐concept, low resilience in learning, patterns in motivation to learn orientation, their use of metacognifion, their ability to show what they know, their uneven rates of development, their high standards and goals, and the quality of their interpersonal interactions.

The paper uses these characteristics to recommend a set of procedures for identifying these students. It examines the influence that a learning disability can have on the display of gifted knowledge and describes how dynamic assessment procedures can be used to obtain a more accurate diagnosis. It describes the two main types of general ability profiles that emerge. Procedures for assessing creativity and divergent thinking, a learning disability, aptitude in particular areas, an intrinsic motivation to learn, self‐concept, metacognition and self management of learning are discussed.

To his teachers, Adam was a conundrum. He was a very quick thinker, but not in the ways that would help him excel academically. He had excellent knowledge of a range of subjects but this didn't seem to help him achieve academic success. His answers to questions were unexpected, although, when analysed, creative. On excursions he could be relied on to see ways around obstacles that arose; his teachers valued his ‘native intelligence’ on these occasions. It was less valued in classroom contexts in which they were developing a topic with a group and Adam would interject with ideas and questions that were either ‘marginally relevant’ or ‘further down the track’. They wished he would put his energy more into improving his spelling and writing ability, that were extremely low, and bis recall of the times tables.

Ann, an eight year old, was also perplexing to her teachers. In class she was ‘off task’ and daydreamed a lot. She did not finish most tasks, frequently lost her place and made many careless errors. Her distractability meant that she was frequently disruptive. As a consequence, her level of academic achievement was low. Her teacher interpreted her inattention and impulsivity as a lack of interest in learning and her preference to avoid tasks. As well, however, her teacher noticed her comparatively high level reading ability and her advanced oral language capacity and had difficulty reconciling the two sets of observations.     

The effectiveness of problem-based learning on teaching the first law of thermodynamics

Background: Problem-based learning (PBL) is a teaching approach working in cooperation with self-learning and involving research to solve real problems. The first law of thermodynamics states that energy can neither be created nor destroyed, but that energy is conserved. Students had difficulty learning or misconceptions about this law. This study is related to the teaching of the first law of thermodynamics within a PBL environment.

Purpose: This study examined the effectiveness of PBL on candidate science teachers’ understanding of the first law of thermodynamics and their science process skills. This study also examined their opinions about PBL.

Sample: The sample consists of 48 third-grade university students from the Department of Science Education in one of the public universities in Turkey.

Design and methods: A one-group pretest–posttest experimental design was used. Data collection tools included the Achievement Test, Science Process Skill Test, Constructivist Learning Environment Survey and an interview with open-ended questions. Paired samples t-test was conducted to examine differences in pre/post tests.

Results: The PBL approach has a positive effect on the students’ learning abilities and science process skills. The students thought that the PBL environment supports effective and permanent learning, and self-learning planning skills. On the other hand, some students think that the limited time and unfamiliarity of the approach impede learning.

Conclusions: The PBL is an active learning approach supporting students in the process of learning. But there are still many practical disadvantages that could reduce the effectiveness of the PBL. To prevent the alienation of the students, simple PBL activities should be applied from the primary school level. In order to overcome time limitations, education researchers should examine short-term and effective PBL activities.     

Learning analytics to uncover inequality in behavioural engagement and academic attainment in a distance learning setting

Abstract

Although the attainment gap between black and minority ethnic (BME) students and white students has persisted for decades, the potential causes of these disparities are highly debated. The emergence of learning analytics allows researchers to understand how students engage in learning activities based on their digital traces in a naturalistic setting. This study investigates the attainment gap by analysing the differences in behavioural engagement between different ethnic groups. Using multilevel models of academic performance, demographics, and online traces of 149,672 students enrolled in 401 modules in a distance learning setting, we confirmed the existing attainment gap. After controlling for other demographics, module characteristics and engagement, BME students were between 19% and 79% less likely to complete, pass or achieve an excellent grade compared to white students. Given the same academic performance, BME students spent 4-12% more time on studying than white students. While the attainment gap remained persistent after controlling for academic engagement, our study further highlighted the inequality of attainment between BME and white students.     

A multidimensional approach to examine student interdisciplinary learning in science and engineering in higher education

Preparing science and engineering students to work in interdisciplinary teams necessitates research on teaching and learning of interdisciplinary thinking. A multidimensional approach was taken to examine student interdisciplinary learning in a master course on food quality management. The collected 615 student experiences were analysed for the cognitive, emotional, and social learning dimensions using the learning theory of Illeris. Of these 615 experiences, the analysis showed that students reported 214, 194, and 207 times on, respectively, the emotional, the cognitive, and the social dimension. Per learning dimension, key learning experiences featuring interdisciplinary learning were identified such as ‘frustrations in selecting and matching disciplinary knowledge to complex problems’ (emotional), ‘understanding how to apply theoretical models or concepts to real-world situations’ (cognitive), and ‘socially engaging with peers to recognise similarities in perceptions and experiences’ (social). Furthermore, the results showed that students appreciated the cognitive dimension relatively more than the emotional and social dimensions.     

Combining formal education and citizen science: a case study on students’ perceptions of learning and interest in an urban rat project

Abstract

Citizen science is a valuable tool in environmental and formal education in creating scientific knowledge for the researchers and facilitating learning and fostering a positive relationship toward the environment and study species. We present a case study on the Helsinki Urban Rat Project in which students surveyed rat occurrence in their own near environments. According to our results, experientiality, involvement, meaningfulness, freedom to choose, ease of participation, and the rats themselves contributed to students’ increased interest in participation. Furthermore, students described diverse factual, conceptual, procedural, and metacognitive knowledge that they acquired during their participation. In general, students described negative attitudes toward rats, but they less negative views on rats after participation. We reflect on the success of the citizen science project and implications of planning a future citizen science project and incorporating citizen science in formal education.