TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”

TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”

Deeper learning is associated with increased retention, intrinsic motivation, the durability of knowledge and a solid understanding of the underlying principles of studied phenomena. It advocates learning beyond rote content knowledge accumulation using student-centred instructional strategies such...

Πλήρης περιγραφή

Λεπτομέρειες βιβλιογραφικής εγγραφής
Κύριοι συγγραφείς: Fragkaki, Maria, Mystakidis, Stylianos, Hatzilygeroudis, Ioannis, Kovas, Konstantinos, Palkova, Zuzana, Salah, Zein, Hamed, Ghadeer, Khalilia, Walid M., Ewais, Ahmad
Άλλοι συγγραφείς: Φραγκάκη, Μαρία
Γλώσσα:English
Έκδοση: IATED 2021
Θέματα:
Virtual reality
Deeper learning
Virtual worlds
TPACK
Deep and meaningful learning
Science education
STEM
Higher education
Εκπαίδευση θετικών επιστημών
Εικονικοί κόσμοι
Εικονική πραγματικότητα
Εκπαιδευτικός σχεδιασμός
Βαθιά νοηματοδοτημένη μάθηση
Διαθέσιμο Online:http://hdl.handle.net/10889/15375
id nemertes-10889-15375
record_format dspace
spelling nemertes-10889-153752022-09-05T20:27:14Z TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy” - Fragkaki, Maria Mystakidis, Stylianos Hatzilygeroudis, Ioannis Kovas, Konstantinos Palkova, Zuzana Salah, Zein Hamed, Ghadeer Khalilia, Walid M. Ewais, Ahmad Φραγκάκη, Μαρία Μυστακίδης, Στυλιανός Χατζηλυγερούδης, Ιωάννης Virtual reality Deeper learning Virtual worlds TPACK Deep and meaningful learning Science education STEM Higher education Εκπαίδευση θετικών επιστημών Εικονικοί κόσμοι Εικονική πραγματικότητα Εκπαιδευτικός σχεδιασμός Βαθιά νοηματοδοτημένη μάθηση Deeper learning is associated with increased retention, intrinsic motivation, the durability of knowledge and a solid understanding of the underlying principles of studied phenomena. It advocates learning beyond rote content knowledge accumulation using student-centred instructional strategies such as case-based learning, simulations, collaborative learning, self-directed learning and learning for transfer. Science education in Higher Education is crucial for the social, scientific and economic progress of both advanced and developing countries. Desktop Virtual Reality is a technological medium that can be utilized to facilitate deep learning instructional strategies in science education. Desktop Virtual Reality features pervasive, computer-generated 3D virtual immersive environments where users interact through digital agents or avatars. In this paper, we explore if three learning scenarios from the fields of Biology, Earth Sciences (Geology) and Physics are updating the traditional transfer of knowledge. Passive, teacher-centred approaches often cause a sentiment of “apathy” to students while interactive student-centred approaches for Deeper Learning in Virtual Reality environments evoke feelings of “empathy”. More specific, we inquire to what extend does the TPACK instructional design model in Virtual Reality support Deeper Learning. Results indicate that academic teachers were able to enrich their teaching paradigm by integrating learning activities in virtual reality that evoke students’ interest, motivation and autonomy. Moreover, and after discussing the research results, we propose recommendations that instructional designers need to take in consideration to promote Deeper Learning in blended distance e-learning settings using social VR. The TPACK Learning Scenarios were developed in Palestinian Higher Education Institutes (HEIs) in the context of the capacity building Erasmus+ KA2 project “Virtual Reality as an Innovative and Immersive Tool for HEIs in Palestine (TESLA)”. 2021-10-18T11:08:28Z 2021-10-18T11:08:28Z 2020-07 http://hdl.handle.net/10889/15375 en application/pdf IATED
institution UPatras
collection Nemertes
language English
topic Virtual reality
Deeper learning
Virtual worlds
TPACK
Deep and meaningful learning
Science education
STEM
Higher education
Εκπαίδευση θετικών επιστημών
Εικονικοί κόσμοι
Εικονική πραγματικότητα
Εκπαιδευτικός σχεδιασμός
Βαθιά νοηματοδοτημένη μάθηση
spellingShingle Virtual reality
Deeper learning
Virtual worlds
TPACK
Deep and meaningful learning
Science education
STEM
Higher education
Εκπαίδευση θετικών επιστημών
Εικονικοί κόσμοι
Εικονική πραγματικότητα
Εκπαιδευτικός σχεδιασμός
Βαθιά νοηματοδοτημένη μάθηση
Fragkaki, Maria
Mystakidis, Stylianos
Hatzilygeroudis, Ioannis
Kovas, Konstantinos
Palkova, Zuzana
Salah, Zein
Hamed, Ghadeer
Khalilia, Walid M.
Ewais, Ahmad
TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”
description Deeper learning is associated with increased retention, intrinsic motivation, the durability of knowledge and a solid understanding of the underlying principles of studied phenomena. It advocates learning beyond rote content knowledge accumulation using student-centred instructional strategies such as case-based learning, simulations, collaborative learning, self-directed learning and learning for transfer. Science education in Higher Education is crucial for the social, scientific and economic progress of both advanced and developing countries. Desktop Virtual Reality is a technological medium that can be utilized to facilitate deep learning instructional strategies in science education. Desktop Virtual Reality features pervasive, computer-generated 3D virtual immersive environments where users interact through digital agents or avatars. In this paper, we explore if three learning scenarios from the fields of Biology, Earth Sciences (Geology) and Physics are updating the traditional transfer of knowledge. Passive, teacher-centred approaches often cause a sentiment of “apathy” to students while interactive student-centred approaches for Deeper Learning in Virtual Reality environments evoke feelings of “empathy”. More specific, we inquire to what extend does the TPACK instructional design model in Virtual Reality support Deeper Learning. Results indicate that academic teachers were able to enrich their teaching paradigm by integrating learning activities in virtual reality that evoke students’ interest, motivation and autonomy. Moreover, and after discussing the research results, we propose recommendations that instructional designers need to take in consideration to promote Deeper Learning in blended distance e-learning settings using social VR. The TPACK Learning Scenarios were developed in Palestinian Higher Education Institutes (HEIs) in the context of the capacity building Erasmus+ KA2 project “Virtual Reality as an Innovative and Immersive Tool for HEIs in Palestine (TESLA)”.
author2 Φραγκάκη, Μαρία
author_facet Φραγκάκη, Μαρία
Fragkaki, Maria
Mystakidis, Stylianos
Hatzilygeroudis, Ioannis
Kovas, Konstantinos
Palkova, Zuzana
Salah, Zein
Hamed, Ghadeer
Khalilia, Walid M.
Ewais, Ahmad
author Fragkaki, Maria
Mystakidis, Stylianos
Hatzilygeroudis, Ioannis
Kovas, Konstantinos
Palkova, Zuzana
Salah, Zein
Hamed, Ghadeer
Khalilia, Walid M.
Ewais, Ahmad
author_sort Fragkaki, Maria
title TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”
title_short TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”
title_full TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”
title_fullStr TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”
title_full_unstemmed TPACK instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”
title_sort tpack instructional design model in virtual reality for deeper learning in science and higher education : from “apathy” to “empathy”
publisher IATED
publishDate 2021
url http://hdl.handle.net/10889/15375
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