van der Meij, Hans; Bӧckmann, Linn
Effects of embedded questions in recorded lectures Artikel
In: Journal of Computing in Higher Education, 2020, ISSN: 1867-1233.
Abstract | Links | BibTeX | Schlagwörter: embedded questions, O, quizzing, self-efficacy, Usability, video-recorded lectures
@article{vanderMeij2020,
title = {Effects of embedded questions in recorded lectures},
author = {Hans van der Meij and Linn Bӧckmann },
url = {https://doi.org/10.1007/s12528-020-09263-x},
doi = {10.1007/s12528-020-09263-x},
issn = {1867-1233},
year = {2020},
date = {2020-09-07},
journal = {Journal of Computing in Higher Education},
abstract = {Online video-recorded lectures have become an increasingly more important means for student learning (e.g., in flipped classrooms). However, getting students to process these lectures sufficiently to come to class well-prepared is a challenge for educators. This paper investigates the effectiveness of open-ended embedded questions for accomplishing that. An experiment compared a video-recorded lecture presented online with and without such questions. No feedback was given on responses to the questions. University students (N = 40) viewed the lecture, responded to a questionnaire on self-efficacy and usability, and completed a knowledge test. User logs revealed that the students engaged significantly more with the embedded questions lecture. Engagement was not related to knowledge test results, however. Uniformly high appraisals were given for self-efficacy, usefulness, ease of use and satisfaction. Mean test scores were significantly higher for the embedded questions condition. It is concluded that open-ended embedded questions without feedback can increase the effectiveness of online video-recorded lectures as learning resources.},
keywords = {embedded questions, O, quizzing, self-efficacy, Usability, video-recorded lectures},
pubstate = {published},
tppubtype = {article}
}
Online video-recorded lectures have become an increasingly more important means for student learning (e.g., in flipped classrooms). However, getting students to process these lectures sufficiently to come to class well-prepared is a challenge for educators. This paper investigates the effectiveness of open-ended embedded questions for accomplishing that. An experiment compared a video-recorded lecture presented online with and without such questions. No feedback was given on responses to the questions. University students (N = 40) viewed the lecture, responded to a questionnaire on self-efficacy and usability, and completed a knowledge test. User logs revealed that the students engaged significantly more with the embedded questions lecture. Engagement was not related to knowledge test results, however. Uniformly high appraisals were given for self-efficacy, usefulness, ease of use and satisfaction. Mean test scores were significantly higher for the embedded questions condition. It is concluded that open-ended embedded questions without feedback can increase the effectiveness of online video-recorded lectures as learning resources.
Campbell, Laurie O.; Heller, Samantha; Pulse, Lindsay
Student-created video: an active learning approach in online environments Artikel
In: Interactive Learning Environments, 2020, ISSN: 1744-5191.
Abstract | Links | BibTeX | Schlagwörter: active learning, O, self-efficacy, STEM, Student-created video
@article{Campbell2020,
title = {Student-created video: an active learning approach in online environments},
author = {Laurie O. Campbell and Samantha Heller and Lindsay Pulse},
url = {https://doi.org/10.1080/10494820.2020.1711777},
doi = {10.1080/10494820.2020.1711777},
issn = {1744-5191},
year = {2020},
date = {2020-01-08},
urldate = {2020-05-28},
journal = {Interactive Learning Environments},
abstract = {The purpose of this study was to investigate student-created video as an active learning approach in an online environment to inform instructional practices of student-created video in STEM. Data analyzed in this study included pre-service teachers N = 107, 1-minute videos and pre- and post surveys. The findings of this qualitative study indicated that student-created video was an active learning activity that contributed to an increase in students’ perceived STEM content knowledge, improved perceptions of self-efficacy, and evidence of student engagement inclusive of behavioral, affective, and cognitive domains. Themes derived from the participants’ perceptions included: perceived self-efficacy, novelty or usefulness of creating short video, time to design and create video, and content and technical knowledge. Student-created video as an active approach to learning can be included in STEM education to increase STEM knowledge and foster integrative twenty-first Century skills. Practical implications for educators when designing student-created video assignments include (a) following a video development model; (b) providing extra time for content acquisition and revisions; and (c) incorporating peer evaluations.},
keywords = {active learning, O, self-efficacy, STEM, Student-created video},
pubstate = {published},
tppubtype = {article}
}
The purpose of this study was to investigate student-created video as an active learning approach in an online environment to inform instructional practices of student-created video in STEM. Data analyzed in this study included pre-service teachers N = 107, 1-minute videos and pre- and post surveys. The findings of this qualitative study indicated that student-created video was an active learning activity that contributed to an increase in students’ perceived STEM content knowledge, improved perceptions of self-efficacy, and evidence of student engagement inclusive of behavioral, affective, and cognitive domains. Themes derived from the participants’ perceptions included: perceived self-efficacy, novelty or usefulness of creating short video, time to design and create video, and content and technical knowledge. Student-created video as an active approach to learning can be included in STEM education to increase STEM knowledge and foster integrative twenty-first Century skills. Practical implications for educators when designing student-created video assignments include (a) following a video development model; (b) providing extra time for content acquisition and revisions; and (c) incorporating peer evaluations.