Technology-based learning environments
L. Palashi; M. Haddad Narafshan; L. Anjomshoa
Abstract
Background and Objectives: Due to the changes in education, online learning has become the predominant mode of instruction. There may be a gap between what students learn in school and what they need to survive in the real world. This is due to the constant change in the world and educational system. This puts ...
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Background and Objectives: Due to the changes in education, online learning has become the predominant mode of instruction. There may be a gap between what students learn in school and what they need to survive in the real world. This is due to the constant change in the world and educational system. This puts schools under a lot of pressure to develop their educational instruction processes in an innovative manner that helps students to acquire and develop the needed life skills. These skills can help individuals in leading a meaningful life. One of these strategies is project-based learning. As the name implies, project-based learning involves students refining and honing their language skills by completing projects in and out of the classroom. To accomplish this, teachers must cultivate a culture of creativity and engagement in the classroom. By sharing their work and reflecting on their processes, students can improve their work. This style of teaching moves away from teacher-centered methods, where students sit passively in a classroom and are rarely given opportunities to express themselves or practice their language skills. The act of inquiry is what engages students in project-based learning. This instructional approach is designed to give students the opportunity to develop knowledge and skills through engaging projects and set around challenges and problems they may face in the real world. The purpose of this study was to compare the impact of technology-integrated and traditional project-based instruction on vocabulary development and social identity of English language learners.Methods: In the current quasi-experimental quantitative study, two intact classes were assigned to traditional and technology-integrated project-based learning. The independent variable in this study was technology integration, and the dependent variables were learners' social identity and vocabulary development. Over 6 months, two groups of 30 learners (15 students in each group) were exposed to two forms of project-based instruction: traditional and technology-integrated. The instruction in both groups was based on doing projects. In the technology-integrated group, the projects were done using technology potentials, and in the traditional group, the projects were done using classroom potentials. Pre-tests and post-tests were used to measure learners’ improvements in vocabulary development and social identity level.Findings: The results revealed that the learners involved in technology-integrated instruction proved superior compared to the traditional learning group in their English vocabulary and social identity. It showed that projects done in technology-integrated environments surpassed the projects done in traditional learning contexts. The findings suggested that technology-integrated projects were more effective than traditional ones, possibly due to the enticing features of technology that enhance learners' motivation and interest.Conclusion: PBL has been regarded as influential in the development of vocabulary development and social identity of students but integrating projects with the power of technology provides opportunities for more effective vocabulary development and identity construction. Implementing technology in projects in the current study is beneficial to the realm of school health and adds to a growing body of work exploring how technology-integrated projects impact school students’ academic achievements and identity construction. Inspired by the advantageous effects of technology interventions on learners and the paramount significance of becoming emotionally engaged and accountable during the process of learning, we hope the current study contributes to the realization of technology-engaging school pedagogical agents.
Technology-based learning environments
S. Sahebalzamani; A. Naeimi; M. Haddad Narafshan
Abstract
Background and Objectives: As the result of a rapidly evolving, technology-saturated world, individual development has become increasingly noteworthy. This development makes education systems accountable to incorporate 21st-century skills, especially critical thinking skill into their experiential learning ...
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Background and Objectives: As the result of a rapidly evolving, technology-saturated world, individual development has become increasingly noteworthy. This development makes education systems accountable to incorporate 21st-century skills, especially critical thinking skill into their experiential learning curricula. There may be a divergence between what students learn in school and what they experience to get through the real world and to handle the real-life participations conforming to the unpredictable changes in the world and educational systems. This pressurizes educational sectors to improve and expand their educational instruction processes in an innovative and creative design which helps students to acquire experiences and develop the required life skills. To prepare students to be sufficiently constructive in their personal and social life, education should change its focus from merely content and academic development to individual and non-academic development according to different methods and diverse theories. One of these theories is experiential learning. As the name implies, learning by doing involves students acting and honing their language skills in and out of the classroom. To manage this, teachers must cultivate a culture of creativity, problem-solving and engagement in the classroom by the intellectually disciplined process of actively and skillfully conceptualizing, applying, analyzing, synthesizing, and/or evaluating information gathered from or generated by observation, experience, reflection, reasoning, or communication as a guide to belief and action. The purpose of this study was to find out the impact of technology-integrated experiential leaning on reading comprehension and critical thinking of English language learners (aged 10) in one of the primary schools in Kerman.Methods: This study was quasi-experimental in terms of research method, using pre-test and post-test design with experimental and control groups who were chosen randomly. The independent variable in this study was technology-integrated experiential learning, and the dependent variables were learners' critical thinking and reading comprehension. Over four months, two groups of 60 learners (30 students in each group) were exposed to experiential learning in two forms of technology-mediated and traditional classrooms. The instruction in both groups was based on experiential learning theory by Kolb (1984). In the experimental group, the activities were done using technology potentials, and in the control group, the activities were done using classroom potentials. Pre-tests and post-tests were used to measure learners’ improvements in reading comprehension and Naieni’s (2005) questionnaire was acquired to assess learner’s level of critical thinking. Findings: The results of the Shapiro-Wilk test showed that the equality of variances was established, and the normality of the data distribution was confirmed. According to the findings obtained from the homogeneity of variances test, the assumption of homogeneity of variances was also confirmed. The results of covariance analysis showed that there was a significant difference between the post-test scores of reading comprehension in the technology-integrated experimental group and the traditional control group. Therefore, experiential learning based on technology had a significant effect on improving students' reading comprehension (P < 0.01). Because the square of partial Eta, which is equal to (partial ɳ2= 0.81), expressed the tremendous effect of experience on the basis of technology. In addition, there was a significant difference between the average scores of the technology-integrated group and the traditional control group in connection with the post-test of critical thinking. Although both groups improved in the level of critical thinking, but combining experiential learning with technology had a more significant effect on improving critical thinking. Learners in the experimental group (P < 0.01) with the partial square root equal to (partial ɳ2= 0.90) indicated a significant effect.Conclusion: The present research showed that learning by experience through the integration of technology is extremely significant for language learning. Additionally, it highlights the possibility of research and its effectiveness not only for school achievement but also for developing personal skills and critical thinking in primary school students. Even though experiential learning is effective in improving students' comprehension and critical thinking, combining classes with technology through learning management systems is a more effective way to increase students' understanding and critical thinking. It is hoped that the present research play a significant role in helping identify effective educational factors based on experience.
