This study examined the effect of a Pedagogical Hypermedia Environment in the Science Discipline (PHFSD) on the acquisition of scientific concepts among fifthgraders during the 2019-2020 school years. The study adopted a quasi-experimental method with 50 fifth-grade students from a private school in Amman, Jordan, divided into two groups of 25 each. Students were randomly assigned to either a control group that was taught using traditional methods or an experimental group that was taught using PHFSD. A scientific concept test was conducted before and after the Motion and Force unit was taught. The data gathered was analyzed using ANCOVA. The results revealed a statistically significant difference at the α=0.05 level between the mean scores of the two groups on the scientific concepts test. Most of the variation (70%) in the fifth-grade students' posttest scores was attributed to the effects of the teaching method. Such positive results affirm that this pedagogical hypermedia environment had a positive impact on the fifth-graders. These findings support the use of a pedagogical hypermedia environment to enhance the acquisition of scientific concepts among fifthgraders in Jordan. The ministry of education and teachers can use these findings to enhance teaching and learning scientific concepts. Contribution/Originality: This study is one of very few studies that have investigated the effect of a pedagogical hypermedia environment on acquisition of scientific concept among fifth-graders in science discipline. This study fills the gap in the literature and provides evidence for the effectiveness of pedagogical hypermedia in the acquisition of scientific concepts. 1. INTRODUCTION Educational technology is central to the teaching and learning process. The potential of information and communication technologies to improve education quality in several disciplines has been emphasized by previous
<p class="0abstract">This study was designed to reveal the effectiveness of integrating educational robots (ERs) with hypermedia in improving the acquisition of scientific concepts among fifth-grade students in Jordan. The present study utilized a pretest-posttest quasi-experimental design with a control group (CG) and an experimental group (EG). The participants of this study consisted of 50 fifth-grade female students attending a private school in the city of Amman during the 2019/2020 academic year. Participants’ ages ranged between (10-11) years old. The school was selected purposively, and classes were randomly assigned to the EG and the CG. In order to accomplish the aims of this study, a scientific concept test (SCT) was developed and its validity and reliability were ensured. The EG was taught a unit on motion and force by robot and hypermedia instruction, while the CG was taught the same unit by traditional instruction. Data was collected through administration of the presently developed SCT at pretest and posttest points. Then, this data was analyzed through covariance analysis. The findings of this analysis revealed that 66% of the variation in the fifth-grade students’ posttest SCT scores can be ascribed to the effect of teaching method. From this study, one can conclude that the integration of ERs with hypermedia has a positive impact on students’ acquisition of scientific concepts. These results may serve to encourage science teachers to integrate ERs with hypermedia when teaching scientific concepts<span>.</span></p>
The purpose of the study was to investigate the impact of integrating flipped learning and information and communication technology on secondary school students’ academic achievement and attitudes. The study was based on a quasi-experimental approach where the sample of the study consisted of 40 students from Mashrek International School in Amman, Jordan, who were randomly assigned into either an experimental group (20 students) or control group (20 students). An academic achievement test was used with both groups as a pre-test and post-test, and an attitude scale was implemented only on the experimental group. The validity and reliability of the study were ensured. The findings revealed the effectiveness of the flipped learning approach, statically significant differences were found between the experimental and control group in terms of the students’ academic achievement. As for the experimental group the students’ attitudes towards peers, teacher, environment and learning process were positive.
Robots and hypermedia have been used as effective technological tools in the educational field. Despite their educational benefits, there are no studies investigating their impact on primary students’ intrinsic motivation in the field of science. For these reasons, the study aims to recognize the impact of employing LEGO WeDo 2.0 robotic and hypermedia on intrinsic motivation to learn science among primary students. The study implemented the quasi-experimental approach with a dual group design. The experimental group (n=25) was instructed on the force and motion topic using instruction-based LEGO WeDo 2.0 robotic and hypermedia, while the control group (n=25) was instructed using traditional instruction. The study conducted in Jordan involved fifty primary students. The data was gathered by administering the developed Intrinsic Motivation Towards Learning Science Scale to both groups at pre and post-points; ANCOVA analysis revealed a significant effect in favor of the experimental group in increasing intrinsic motivation to learn science at α = 0.05. These results recommend science instructors employ robots and hypermedia to foster students’ intrinsic motivation. It also encourages decision-makers in educational institutions to make decisions related to the science curriculum and its instructional methods.
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