Applying science of learning in education: Infusing psychological science into the curriculum

The field of specialization known as the science of learning is not, in fact, one field. Science of learning is a term that serves as an umbrella for many lines of research, theory, and application. A term with an even wider reach is Learning Sciences (Sawyer, 2006). The present book represents a sliver, albeit a substantial one, of the scholarship on the science of learning and its application in educational settings (Science of Instruction, Mayer 2011). Although much, but not all, of what is presented in this book is focused on learning in college and university settings, teachers of all academic levels may find the recommendations made by chapter authors of service. The overarching theme of this book is on the interplay between the science of learning, the science of instruction, and the science of assessment (Mayer, 2011). The science of learning is a systematic and empirical approach to understanding how people learn. More formally, Mayer (2011) defined the science of learning as the “scientific study of how people learn” (p. 3). The science of instruction (Mayer 2011), informed in part by the science of learning, is also on display throughout the book. Mayer defined the science of instruction as the “scientific study of how to help people learn” (p. 3). Finally, the assessment of student learning (e.g., learning, remembering, transferring knowledge) during and after instruction helps us determine the effectiveness of our instructional methods. Mayer defined the science of assessment as the “scientific study of how to determine what people know” (p.3). Most of the research and applications presented in this book are completed within a science of learning framework. Researchers first conducted research to understand how people learn in certain controlled contexts (i.e., in the laboratory) and then they, or others, began to consider how these understandings could be applied in educational settings. Work on the cognitive load theory of learning, which is discussed in depth in several chapters of this book (e.g., Chew; Lee and Kalyuga; Mayer; Renkl), provides an excellent example that documents how science of learning has led to valuable work on the science of instruction. Most of the work described in this book is based on theory and research in cognitive psychology. We might have selected other topics (and, thus, other authors) that have their research base in behavior analysis, computational modeling and computer science, neuroscience, etc. We made the selections we did because the work of our authors ties together nicely and seemed to us to have direct applicability in academic settings

Kesadaran Metakognitif Mahasiswa Melalui Pembelajaran Mandiri

Metacognitive awareness is essential in learning, which includes knowledge about cognition and regulation about cognition. This study aims to 1) To know the average value of metacognitive awareness of biology education students which includes knowledge about cognition and regulation about cognition. 2) To know the percentage of student knowledge about cognition. 3) To know the percentage of student regulation about cognition. 4) To know the percentage of students metacognitive awareness. The instrument used is Metacognitive Awareness Inventory (MAI) developed by Schraw and Dennison (1994) which contains 52 questions with a score of 1 (true) and 0 (false). The results show that the mean value of metacognitive awareness is declarative knowledge (5,4); procedural knowledge (2,6); conditional knowledge (3.8); planning (4.9); information management strategy (6.4); understanding monitoring (4.8), search strategy (4.3) and evaluation (3.6). The percentage of knowledge about cognition of students with high (37.78%); medium (15.50%) and low (46.67%). The percentage of regulation about cognition of students with high (34.44%); medium (34.44%) and low (31.12%). The percentage of students metacognitive awareness with high (36.67%), medium (28.89%) and low (34.44%) so that there should be efforts to increase metacognitive awareness in biology education students

Promoting listening strategies use in elementary English as a foreign language computer-assisted learning environment

In Japan, English education in elementary schools is still in the process of innovation. The purpose of this project is to seek the most appropriate and effective way for elementary-level students to acquire listening skills in a computer-assisted language learning (CALL) environment

Approaches and Methods of Science Teaching and Sustainable Development

This book “Approaches and Methods of Science Teaching and Sustainable Development”, edited by Dr. David González Gómez and Dr. Jin Su Jeong, aims to provide a solid research corpus for addressing the challenges needed to provide adequate science and sustainable development education to scholars with different levels of education. Sustainability is starting to form a part of the curricula for many educational institutions. However, efforts must be taken to ensure proper implementation and development of sustainability-oriented topics seeking the sustainable development goals (SDGs) in higher education as well as fresh perspectives on continuing challenges

Visual TICASS2: The colours of the intercultural dialogue–primary schools (Kenyan experience)

This section of the book presents some of the best practices in the fields of visual languages and art education developed in the TICASS project. All partners involved wrote technical entries describing the activities conducted in interdisciplinary ways. The aim is to outline the implementation of the programme, stressing the proposals, objectives set, targeted recipients, and evaluations. The following practices are completed with photographic documentation to characterise some meaningful steps of the experiences carried out during the research

Osteopathic clinical reasoning: an ethnographic study of perceptual diagnostic judgments, metacognition, and reflective practice

A thesis submitted to the University of Bedfordshire in partial fulfilment of the requirements for the degree of Professional DoctorateThis thesis explores the use of reflective practice in osteopathic medicine and uses the method to narrate my work as an osteopathic practitioner. It explores the development of perceptual diagnostic judgments, and the role of metacognition, intuition and palpation in osteopathic clinical reasoning. A qualitative interpretive approach was used with a novel narrative method as an organising structure. This was broadly based around reflective practice models of Gibbs, (1988), Kolb, (1984) and Carper (1978) and the ideas of Schön (1983). Descriptive texts were constructed from notes taken of my thoughts whilst in the presence of patients. This allowed access, as closely as possible, to my decision making process. Finally, the descriptive texts were expanded into narratives through dialogue with the existing literature and peer review. The narratives were then analysed using thematic analysis to derive an understanding of concepts arising from the data. This thesis argues that osteopathic clinical reasoning involves multisensory perceptual diagnostic judgments that begin as soon as the patient enters the clinic, and arise as a result of the use of mental and visual imagery and embodied senses. The multisensory information that is detected by a practitioner activates pattern recognition, analytic reasoning and provides explicit feedback used in decision making. Diagnosis occurs as a result of piecing together and interpreting the multisensory information whilst maintaining awareness of other diagnostic possibilities. The findings also suggest that osteopathic clinical reasoning involves the supervision of cognition by the metacognitive processes of meta-knowledge (MK), meta-experiences (ME), and meta-skills (MS). The latter are used to plan, monitor, analyse, predict, evaluate and revise the consultation and patient management as suggested by Pesut and Herman (1992). ME is demonstrated by the presence of judgments of learning used to ensure sufficient information has been gathered, and feelings of rightness that are used to perceive the correctness of information arriving and decisions made. The use of reflective practice in this research has developed the understanding of osteopathic clinical reasoning, and demonstrated that it provides a powerful conduit for change in practice. As a result, it enables the provision of better patient-centred osteopathic healthcare incorporating the biopsychosocial model of healthcare. Although rooted in my own osteopathic practice style and strategies, it should have resonance for those within the discipline of osteopathy and has implications for osteopathic education, training and research

A Study of the use of computational concept mapping situated in an authentic learning context (CCMAL) in enhancing English as a Foreign Language (EFL) students’ metacognition in reading comprehension classes

This thesis described a convergent mixed method research which aims to investigate the influence of computational concept mapping situated in an authentic learning context (CCMAL) on students’ metacognition in English as a foreign language (EFL) reading comprehension classes. A hundred first year English non-majored students were invited for this study. The students participated a two-hour session on a weekly basis during a seven-week reading course. While the fifty students of the experimental group (EG) were exposed to CCMAL, the fifty students of the control group (CG) were exposed to a traditional teaching environment during the reading course. Data was collected through the pre and post-test on reading comprehension, pre and post-survey on metacognition, students’ computational concept maps collected in week 1, week 4 and week 7 of the reading course, weekly learning journals and classroom observation, and individual interviews after the reading course. The study found that the students of the EG outperformed those of the CG in the post-test on reading comprehension. In terms of reading comprehension skills, data showed that CCMAL had positive influence on the students’ use of literal skills, interpretive and inferential skills. The study also found that CCMAL had a positive influence on the students’ metacognition. Specifically, CCMAL was found to have the greatest influence on students’ scores on monitoring followed by evaluation. However, there were no significant differences on the students’ scores on planning. The utilisation of CCMAL positively influence students’ use of metacognitive strategies, such as planning, monitoring and evaluation. Furthermore, the study discovered that the students’ CCMAL learning experience was influenced by factors as the relevance between the reading text topics and the students’ experiences, the students’ individual differences, and the affordances of Cmap which was the concept mapping software in this study. In conclusion, this study found that the use of CCMAL had positive influence on students’ metacognition and reading comprehension. It is recommended that CCMAL be widely used in reading comprehension classes to enhance students’ reading achievements. Moreover, it recommended further research into concept mapping related topics for improving the quality of English education in Vietnamese context

Examining the use of computer simulations to promote learning of electrochemistry among college students

When computer simulations are popular in helping students understand chemistry in today\u27s classrooms, it is important to realize how instructional use of computer simulations affects students\u27 understanding of science. This dissertation centers around the impact of the use of computer simulations on college students\u27 learning. Chapter 1 generally addresses the background and the significance of the research topics. Chapter 2 reviews the literature from research that studied the factors that affect the use of computer simulations in helping students learn science. Learners were found to understand science theories better with descriptions and explanations presented in both verbal and visual formats than in verbal format alone. An individual\u27s prior knowledge and learning strategies have also been found to have an impact on her/his response to computer simulations and therefore affect the potential value of computer simulations. Chapter 3 reveals the impact of the use of computer simulations on students\u27 understanding of electrochemistry principles. The results confirm findings in earlier studies that college students seemed to be able to build mental models of chemical reactions from formula and equations with or without the help of computer simulations. The study in Chapter 3 indicates that it is likely that the design of the learning activities rather than the use of technology actually had an impact on students learning. Chapter 4 provides insights into how the use of simulations affected the communication between group members and how individuals with different levels of prior knowledge responded to computer programs and interacted with peers. Although prior knowledge was not found to interact with the use of computer simulations in affecting students\u27 understanding, the findings in Chapter 4 show that prior knowledge seemed to affect the ways that students solved problems and the ways they interacted with the computer simulations.;Taken together, these three studies in this dissertation suggest continuing research needs to be done in identifying and resolving issues when individual differences are considered. In addition, it is important that the design of learning activities be given a higher level of priority than the use of instructional technology when employing computer simulations in the classrooms

Attention Restraint, Working Memory Capacity, and Mind Wandering: Do Emotional Valence or Intentionality Matter?

Attention restraint appears to mediate the relationship between working memory capacity (WMC) and mind wandering (Kane et al., 2016). Prior work has identifed two dimensions of mind wandering—emotional valence and intentionality. However, less is known about how WMC and attention restraint correlate with these dimensions. Te current study examined the relationship between WMC, attention restraint, and mind wandering by emotional valence and intentionality. A confrmatory factor analysis demonstrated that WMC and attention restraint were strongly correlated, but only attention restraint was related to overall mind wandering, consistent with prior fndings. However, when examining the emotional valence of mind wandering, attention restraint and WMC were related to negatively and positively valenced, but not neutral, mind wandering. Attention restraint was also related to intentional but not unintentional mind wandering. Tese results suggest that WMC and attention restraint predict some, but not all, types of mind wandering

Deaf and Hard of Hearing Readers and Science Comics: A Mixed Methods Investigation on Process

Deaf and hard of hearing (DHH) students bring diverse language and literacy backgrounds to the task of academic reading, which becomes increasingly complex and abstract in the upper grades. Teachers often differentiate their instruction by providing multimedia resources, of which students interact with verbal and pictorial information. A growing body of research supports multimedia learning; however, most of the studies have focused exclusively on learning outcomes, leaving teachers in the dark about the cognitive processes underlying these effects. This mixed methods study addresses this gap by using a nonfiction comic to investigate the reading processes of DHH 7th -12th grade students. Eye tracking and cued retrospective protocol were employed in a concurrent nested design to answer the question, how do DHH students read and learn from multimedia science texts? This study was guided by the cognitive theory of multimedia which states that reading comprehension is better supported when learning from words and pictures rather than words alone, especially when readers cognitively integrate the two representations to form a coherent mental model. Temporal and sequential eye tracking results revealed that readers’ transitions between related words and pictures were a statistically significant variable in explaining factual knowledge learning outcomes. These strategic shifts in attention were further explained by readers’ retrospective verbal reports of their thinking. Students’ descriptions of their vii reading processes were interpreted into the following themes: repairing, connecting representations, passive transitions, and connecting to self. The integration of quantitative and qualitative methods at the interpretation stage revealed that although the theme of repairing was equally distributed across all student reports, the theme of connecting representations was largely present in the reports from students who made high counts of integrative transitions. The major findings of this study align with the cognitive theory of multimedia, that students’ learning outcomes were significantly predicted by the deliberate strategies to cognitively integrate words and pictures to form and maintain a coherent mental model. The discussion includes ways in which teachers can capitalize on explicit modeling of these behaviors and employ students’ “think alouds” to better understand and support the development of effective multimedia reading processes