A study of the relationship between learning styles and cognitive abilities in engineering students     

E. Hames  M. Baker 《European Journal of Engineering Education》2015,40(2):167-185

Learning preferences have been indirectly linked to student success in engineering programmes, without a significant body of research to connect learning preferences with cognitive abilities. A better understanding of the relationship between learning styles and cognitive abilities will allow educators to optimise the classroom experience for students. The goal of this study was to determine whether relationships exist between student learning styles, as determined by the Felder-Soloman Inventory of Learning Styles (FSILS), and their cognitive performance. Three tests were used to assess student's cognitive abilities: a matrix reasoning task, a Tower of London task, and a mental rotation task. Statistical t-tests and correlation coefficients were used to quantify the results. Results indicated that the global–sequential, active–referential, and visual–verbal FSILS learning styles scales are related to performance on cognitive tasks. Most of these relationships were found in response times, not accuracy. Differences in task performance between gender groups (male and female) were more notable than differences between learning styles groups.  相似文献   

Does naturally occurring comprehension strategies instruction make a difference when students read expository text?     

Ivar Bråten  Øistein Anmarkrud 《Journal of Research in Reading》2013,36(1):42-57

  相似文献   

Perceptions of challenge in science learning     

John R. Baird  Christopher Penna 《International Journal of Science Education》2013,35(10):1195-1209

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.  相似文献   

Cognitive mode and classroom behavior     

John Stellern  Mike Marlowe  Ace Cossairt 《Psychology in the schools》1984,21(1):103-111

The present study investigated the relationship between cognitive mode and classroom behavior. Seventy-six randomly selected elementary students were administered the Adapted Children's Form of Your Style of Learning and Thinking (SOLAT) to obtain their left, right, and integrated hemisphere cognitive mode scores, and were also rated by their classroom teachers on the Walker Problem Behavior Identification Checklist (WPBIC) and an informal learning/behavior problem checklist. Subjects determined to have a predominant right hemisphere cognitive mode (N = 38) scored significantly higher on the learning/behavior problem checklist and the WPBIC measures of acting-out, withdrawal, distractibility, and total scale score than did subjects with a predominant left hemisphere cognitive mode (N = 25) or a predominant integrated hemisphere cognitive mode (N = 13). Correlations between the cognitive mode scores and the behavior rating measures revealed that the right hemisphere cognitive mode scores correlated positively and significantly with the learning/behavior problem checklist and WPBIC measures of acting-out and distractibility, while integrated hemisphere cognitive mode scores correlated negatively and significantly with the learning/behavior problem checklist and the WPBIC measure of acting-out. Implications of the findings are discussed relative to the left-brained instructional practices of our educational system and the consequent learning/behavior problems experienced by students witha predominant right hemisphere cognitive mode.  相似文献   

Toward an Understanding of Authentic Learning: Student Perceptions of an Authentic Classroom   总被引：1，自引：0，他引：1  

Nicaise  Molly  Gibney  Terresa  Crane  Michael 《Journal of Science Education and Technology》2000,9(1):79-94

Advocates of educational reform often describe classroom instruction as inauthentic. That is, most classroom learning activities are structured around artificial contexts for learning, and students only engage in tasks and remember information at superficial levels. Some teachers are attempting to break traditional classroom practices by creating authentic contexts for learning. To date, most of the research on authentic classrooms has described the processes teachers have used to develop the classroom environment (learning activities, resources, etc.); however, few have examined authentic classrooms from the students' perspective: “What do students think about authentic classrooms?” The purpose of this qualitative study was to examine a unique learning environment at a large, Midwest high school to understand how students perceived that environment. Most of the students reported a positive experience and described the classroom as fun and exciting with real-world relevance. However, there were several students who did not share these views, and many students were not successful.

  相似文献   

The Effects of Different On-line Searching Activities on High School Students’ Cognitive Structures and Informal Reasoning Regarding a Socio-scientific Issue     

Ying-Tien Wu  Chin-Chung Tsai 《Research in Science Education》2011,41(5):771-785

Learners’ ability in dealing with socio-scientific issues has been highlighted in contemporary science education. This study explored the effects of different on-line searching activities on high school students’ cognitive structure outcomes and informal reasoning outcomes. By using a quasi-experimental research approach, thirty-three students were assigned to a “guided searching task group”, while thirty-five students were assigned to an “unguided searching task group”. The treatments of this study were two different on-line searching activities. All the participants were asked to search relevant information regarding nuclear power usage on the Internet during the period of two classes (100 min). However, the students in the un-guided searching task group were asked to search freely, while those in the guided searching task group were provided with a searching guideline. The participants’ cognitive structures outcomes as well as their informal reasoning outcomes regarding nuclear power usage were assessed before and after the conduct of on-line searching tasks. The results of ANCOVA revealed that the students in the guided on-line searching task group significantly outperformed their counterparts in the extent (p < 0.01) and the richness of their cognitive structures (p < 0.01). Also, they significantly outperformed their counterparts in the usage of the two information processing strategies, “comparing” (p < 0.05) and “inferring or explaining” (p < 0.05). Moreover, it was also found that the students in the guided on-line searching task group only outperformed their counterparts in their supportive argument construction (p < 0.05). In other words, the guided searching tasks did help the students obtain better cognitive structure outcomes; however, the increments on their cognitive structure outcomes may only help them to propose more supportive arguments, but their rebuttal construction (an important indicator for their reasoning quality) was not particularly improved.  相似文献   

The quality of teaching and learning via videoconferencing   总被引：3，自引：0，他引：3  

Damian Knipe  & Maria Lee 《British journal of educational technology : journal of the Council for Educational Technology》2002,33(3):301-311

Now that videoconferencing is being widely used for the delivery of mass lectures between sites, there is concern that the quality of teaching and learning experienced, using this method of delivery, is not as good as that experienced in a traditional classroom situation. The study aimed to investigate this concern by using a research diary to collect information on classroom activities and cognitive outcomes which students at local and remote sites experienced over a ten–week period. The results indicated that remote site students did not experience the same quality of teaching and learning as local site students.  相似文献   

Can blogging increase extroverts’ satisfaction in the classroom? Lessons from multiple case studies     

Tal Samuel-Azran  Gilad Ravid 《Interactive Learning Environments》2016,24(6):1097-1108

In light of systematic evidence that extroverts are disadvantaged in the classroom, we examined whether an online environment assignment that builds on extroverts' character strengths can increase their overall course satisfaction. Based on previous studies demonstrating that extroverts are energized by feedback from outsiders, we asked 180 students to blog regarding classroom material with the aim of attracting maximum attention from strangers. The questionnaires completed at the beginning of the course confirmed that extroverts believed, significantly more so than introverts, that outsiders would be interested in what they have to say, illustrating the potential of such task. The questionnaires completed at the end of the course (N?=?109), however, revealed that participants expressed disappointment with their ability to attract attention to their blogs. Follow-up interviews revealed that students liked the nature of the assignment but not the platform. Most of them suggested using more extrovert-friendly platforms in the future.  相似文献   

From passive to active: The impact of the flipped classroom through social learning platforms on higher education students' creative thinking          下载免费PDF全文

Abdulrahman M Al‐Zahrani 《British journal of educational technology : journal of the Council for Educational Technology》2015,46(6):1133-1148

This study aimed to investigate the impact of the flipped classroom on the promotion of students' creative thinking. Students were recruited from the Faculty of Education at King Abdulaziz University in Saudi Arabia during the first semester of 2014. A multiple method research design was used to address the research questions. First, a two‐group quasi‐experimental design was implemented. The first group utilised the lecture‐based strategy (n = 28), while the second group utilised the flipped classroom (n = 27). Second, a survey questionnaire was distributed to assess the students' views about the flipped classroom, its role in the promotion of creativity and the difficulties students experienced with this strategy. The findings suggest that the flipped classroom may promote students' creativity, especially with regard to fluency, flexibility and novelty. Furthermore, the students viewed the flipped classroom as an approach that may significantly facilitate their creativity. However, several difficulties were associated with the flipped classroom, especially the students' limited preparation for this strategy. Accordingly, students must be prepared to utilise the flipped classroom and be provided with adequate e‐learning tools. In addition, it is important to consider students' study load and to provide meaningful in‐class activities.  相似文献   

Design and Reflection Help Students Develop Scientific Abilities: Learning in Introductory Physics Laboratories     

Eugenia Etkina  Anna Karelina  Maria Ruibal-Villasenor  David Rosengrant  Rebecca Jordan  Cindy E. Hmelo-Silver 《学习科学杂志》2013,22(1):54-98

Design activities, when embedded in an inquiry cycle and appropriately scaffolded and supplemented with reflection, can promote the development of the habits of mind (scientific abilities) that are an important part of scientific practice. Through the Investigative Science Learning Environment (ISLE), students construct physics knowledge by engaging in inquiry cycles that replicate the approach used by physicists to construct knowledge. A significant portion of student learning occurs in ISLE instructional labs where students design their own experiments. The labs provide an environment for cognitive apprenticeship enhanced by formative assessment. As a result, students develop interpretive knowing that helps them approach new problems as scientists. This article describes a classroom study in which the students in the ISLE design lab performed equally well on traditional exams as ISLE students who did not engage in design activities. However, the design group significantly outperformed the non-design group while working on novel experimental tasks (in physics and biology), demonstrating the application of scientific abilities to an inquiry task in a novel content domain. This research shows that a learning environment that integrates cognitive apprenticeship and formative assessment in a series of conceptual design tasks provides a rich context for helping students build scientific habits of mind.  相似文献   

Exploring the Relationship between Cognitive Style and Teaching Style     

Carol Evans 《教育心理学》2004,24(4):509-530

To a great extent the nature of the relationship between the cognitive style of a student teacher and their predominant teaching style in the classroom has been ignored by educational research. This study used an opportunist sample of 84 trainee teachers studying for one year full time for a Post Graduate Certificate in Education, in a range of subject specialist areas, based at a single English university. Students' cognitive styles were assessed, and those with more extreme cognitive style scores were selected to participate in semi‐structured interviews. A subject specialist mentor had been assigned to each student; 77% (n=59) completed a questionnaire on their perceptions of the teaching style of their PGCE student. Statistically significant differences in approaches to learning and teaching were identified between the four cognitive styles. Gender differences were also noted with analytic‐verbaliser females adopting the most analytical style in the classroom and wholist‐imager males the most wholist style. Qualitative analysis identified differences in approach to teaching between the students with more extreme cognitive styles. Wholists were more sensitive than analytic students to situational factors such as the culture of the school, support from the mentor, and in their ability to accept criticism. Further research is recommended to verify such findings. In this respect, a longitudinal study focusing on changes in cognitive style and approach in the classroom could be fruitful. Consequently, universities need to adopt varied teaching and assessment tools varied in order to accommodate the continuum of cognitive styles.  相似文献   

Teaching controversial environmental issues: neutrality and balance in the reality of the classroom     

Deborah R. E. Cotton 《Educational research; a review for teachers and all concerned with progress in education》2013,55(2):223-241

  相似文献   

数学课堂教学任务认知水平的评价模式探究简     

朱海祥 《山东教育学院学报》2014,(1):54-59

数学课堂教学任务认知水平是对学生学习效果进行过程性评价的重要手段,通过方差分析及回归分析影响不同学业成绩、年级、性别学生数学课堂教学任务认知水平的各种因素及其重要程度.不同学业成绩和性别的学生在任务认知水平及多数影响因素方面差异显著;不同年级的学生在任务认知水平及多数影响因素方面差异不显著;影响任务认知水平最重要的三种因素是数学教学情境、数学课堂交流、数学知识应用,构建科学的评价任务认知水平的模式,为测量学生任务认知水平和实施高水平认知要求的教学任务提供可操性方法.  相似文献   

Positioning participation in the NGSS era: What counts as success?     

Laura Zangori  Rachel J. Pinnow 《科学教学研究杂志》2020,57(4):623-648

The Next Generation Science Standards (NGSS) strives to shift science learning from the teacher as a single cognitive agent, to a classroom community in which participants are working together in directing the classroom's communal knowledge to figure out questions about how phenomena occur, and building, testing, and refining their ideas to address those questions. To achieve this type of classroom environment, teachers should attend to students' knowledge and ideas and pay attention to how students are located within teacher-led interactions, such as being positioned as active discussants or designated listeners. In this study, we explore if and how this is occurring in the NGSS era. We used a naturalistic inquiry to explore how an experienced first-grade teacher used a new NGSS-aligned unit that called for students to use the science and engineering practices (SEP) to build content knowledge. We used a macro-analytic lens to answer the research question “how are class discussions shaped to address the SEP”? We used a micro-analytic lens to answer the research question “how are students positioned during these science discussions in this classroom?” Evidence suggests that the teachers' whole class discussions incorporated and involved the SEP which were specified in the unit lessons for content learning. However, on a micro-analytic level, we found that few students were positioned as active discussants. The teacher heavily relied on those students who could provide succinct and clearly relevant answers while positioning the remainder of the students as silent spectators. Implications from this research suggest that not only new NGSS curriculum materials need to focus on what students should know and do but they also need to address heuristics for teachers that show them how to position all of their students as active doers of science so all students have opportunities to build deeper, core science knowledge.  相似文献   

Development of a Reality‐Based Multimedia Case Study Teaching Method and its Effect on Students’ Planned Food Safety Behaviors          下载免费PDF全文

Caitlin M. Alberts  Clinton D. Stevenson 《Journal of Food Science Education》2017,16(1):10-18

There is opportunity to decrease the frequency of foodborne illnesses by improving food safety competencies and planned behaviors of college students before they begin careers in the food industry. The objectives of this study were to (1) develop a multimedia case study teaching method that provides real world context for food science education; and (2) evaluate the extent to which it improves the intentions of students to implement food safety management systems upon entering the workforce, as well its impact on knowledge gains and students’ abilities to understand complex concepts. The target audience consisted of all participants in an upper‐level undergraduate food safety management systems course (n = 17). A pretest and posttest survey research instrument was developed to measure knowledge gains and also students’ food safety intentions using the framework of the Theory of Planned Behavior. Students experienced significant gains in knowledge, attitude, and intention after completion of the course (P < 0.05). One hundred percent of students agreed that the interactive videos aided in their understanding of food safety concepts. A paired t test suggested that both behavioral control beliefs and attitudes of students toward food safety management significantly increased (P < 0.5) after completion of the case study. These results suggest that integrating multimedia case studies into food science education may enhance food safety behaviors.  相似文献   

The Application of Multiobjective Evolutionary Algorithms to an Educational Computational Model of Science Information Processing: a Computational Experiment in Science Education     

Richard L. Lamb  Jonah B. Firestone 《International Journal of Science and Mathematics Education》2017,15(3):473-486

Conflicting explanations and unrelated information in science classrooms increase cognitive load and decrease efficiency in learning. This reduced efficiency ultimately limits one’s ability to solve reasoning problems in the science. In reasoning, it is the ability of students to sift through and identify critical pieces of information that is of paramount importance in science and learning. Unfortunately, the ability to accomplish the identification of critical ideas is not one that develops without practice and assistance form teachers or tutors in the classroom. The purpose of this paper is to examine how the application of an evolutionary algorithm works within a cognitive computational model to solve problems in the science classroom and simulate human reasoning for research purposes. The research question is: does the combination of optimization algorithms and cognitive computational algorithms successfully mimic biological teaching and learning systems in the science classroom? Within this computational study, the author outlines and simulates the effects of teaching and learning on the ability of a “virtual” student to solve a science task. Using the STAC-M computational model the author completes a computational experiment that examines the role of cognitive retraining on student learning. The author also discusses the important limitations of this powerful new tool.  相似文献   

Influence of using challenging tasks in biology classrooms on students’ cognitive knowledge structure: an empirical video study     

Jigna Nawani  Julia Rixius  Birgit J. Neuhaus 《International Journal of Science Education》2016,38(12):1882-1903

Empirical analysis of secondary biology classrooms revealed that, on average, 68% of teaching time in Germany revolved around processing tasks. Quality of instruction can thus be assessed by analyzing the quality of tasks used in classroom discourse. This quasi-experimental study analyzed how teachers used tasks in 38 videotaped biology lessons pertaining to the topic ‘blood and circulatory system’. Two fundamental characteristics used to analyze tasks include: (1) required cognitive level of processing (e.g. low level information processing: repetiition, summary, define, classify and high level information processing: interpret-analyze data, formulate hypothesis, etc.) and (2) complexity of task content (e.g. if tasks require use of factual, linking or concept level content). Additionally, students’ cognitive knowledge structure about the topic ‘blood and circulatory system’ was measured using student-drawn concept maps (N?=?970 students). Finally, linear multilevel models were created with high-level cognitive processing tasks and higher content complexity tasks as class-level predictors and students’ prior knowledge, students’ interest in biology, and students’ interest in biology activities as control covariates. Results showed a positive influence of high-level cognitive processing tasks (β?=?0.07; p?.01) on students’ cognitive knowledge structure. However, there was no observed effect of higher content complexity tasks on students’ cognitive knowledge structure. Presented findings encourage the use of high-level cognitive processing tasks in biology instruction.  相似文献