A gender matching effect in learning with pedagogical agents in an immersive virtual reality science simulation

Makransky, Guido; Wismer, Philip; Mayer, Richard E.

doi:10.1111/jcal.12335

Cited by 125 publications

(64 citation statements)

References 46 publications

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“…Additionally, in coordination with our design focus around representing students' identities within the visual and auditory cues among our VR 360 videos, Makransky, Wismer, and Mayer () found that the role of the digital identity representations in a VR platform becomes a factor in shaping students' connections to the discipline, wherein they also explain that VR can enhance the learners' experience by changing who is involved in the teaching and showcase specifically how gender representations in VR had a differential impact on students' attitudes toward learning. In our study, while we did not find such an impetus from our participants' self‐reports to represent students' identities in relation to how the content may be relevant to them, we did find that students in our Control condition—the condition designed with visual and auditory cues to not look and sound like the students or their communities—reported an uneasiness about the lesson, showcasing that our purposeful decontextualization and lack of familiarity may have influenced these students' attitudes toward the relevancy of science.…”

Section: Implications and Principal Contribution To The Fieldmentioning

confidence: 88%

Priming urban learners' attitudes toward the relevancy of science: A mixed‐methods study testing the importance of context

Boda

Brown

2019

J Res Sci Teach

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The development of three‐dimensional learning among all K‐12 student demographics remains a prominent goal for the field of science education. However, substantial research in science teacher education for urban populations showcases hurdles to overcome in order to achieve this goal, particularly for elementary teachers. Research shows that urban elementary teachers are often ill‐prepared to develop a type of science pedagogy responsive to students' learning needs. The fidelity of such pedagogies that these teachers adhere to when trying to implement such a requested content–relationality between these populations and how their local contexts can be used as sites to learn science in relevant ways are often not fully realized, as well. Given that science achievement gaps exhibit racial disparities starting in primary grades and attitudes toward science have been shown to affect academic achievement and motivation, we argue that one way to ameliorate, in at least an incremental way, this disparity is to design novel learning experiences to prime students to see the relevancy of science in their local contexts before such three‐dimensional designed learning is set to occur. In this research, we leveraged the immersive nature of Virtual Reality 360 videos and present a design‐based research iteration testing how this novel technologically enhanced learning experience may have influenced close to 400 urban elementary students' attitudes toward science around those attitudes labeled as “behavioral beliefs” by the field. Using a concurrent, convergent mixed‐methods design with a two‐way multivariate analysis of covariance quantitative data set triangulated with students' qualitative self‐reports that were transformed into quantitative preponderances in graphic form, the data support that our design iteration emphasizing the importance of context as a design focus can prime students who struggle to see science as relevant to change their attitudes. Implications are discussed around relationality, novel technological affordances, and the use of local contexts as learning resources.

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Section: Implications and Principal Contribution To The Fieldmentioning

confidence: 88%

Priming urban learners' attitudes toward the relevancy of science: A mixed‐methods study testing the importance of context

Boda

Brown

2019

J Res Sci Teach

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“…The desktop and immersive VR versions of the VR laboratory safety simulations were developed by the simulation development company Labster (see Labster, , for an introduction to the simulation). The main learning objective of the simulations was knowledge about laboratory safety and lab safety skills and has been described in previous educational technology research (e.g., Makransky et al, ). Four types of knowledge based on Mayer's () five kinds of knowledge taxonomy were the focus of the simulations including facts (e.g., the definition of important hazard symbols in a lab presented in the top right frame of Figure ), concepts (e.g., it may be dangerous to wear contact lenses because chemicals may get trapped behind them), procedures (e.g., the step by step process of what you should do in case of a simple spill of a corrosive chemical), and beliefs (e.g., building self‐efficacy by providing positive feedback after successfully completing a task).…”

Section: Methodsmentioning

confidence: 99%

“…The use of VR as a platform to deliver educational content is one example of an educational technology that has increasingly been used in education over the last decade (Blascovich & Bailenson, ; Dawley & Dede, ; Makransky, Terkildsen, & Mayer, ; Makransky, Wismer, & Mayer, ; Parong & Mayer, ; Standen & Brown, ; van Ginkel et al, ). The growing availability of commercially available head‐mounted displays (HMDs) means that educational and training applications of VR are now readily accessible to the general public (Buttussi & Chittaro, ).…”

Section: Introductionmentioning

confidence: 99%

Motivational and cognitive benefits of training in immersive virtual reality based on multiple assessments

Makransky

Borre-Gude

Mayer

2019

Computer Assisted Learning

Self Cite

302

194

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The main objective of this study was to examine the effectiveness of immersive virtual reality (VR) as a medium for delivering laboratory safety training. We specifically compare an immersive VR simulation, a desktop VR simulation, and a conventional safety manual. The sample included 105 first year undergraduate engineering students (56 females). We include five types of learning outcomes including post‐test enjoyment ratings; pre‐ to post‐test changes in intrinsic motivation and self‐efficacy; a post‐test multiple choice retention test; and two behavioral transfer tests. Results indicated that the groups did not differ on the immediate retention test, suggesting that all three media were equivalent in conveying the basic knowledge. However, significant differences were observed favoring the immersive VR group compared to the text group on the two transfer tests involving the solving problems in a physical lab setting (d = 0.54, d = 0.57), as well as enjoyment (d = 1.44) and increases in intrinsic motivation (d = 0.69) and self‐efficacy (d = 0.60). The desktop VR group scored significantly higher than the text group on one transfer test (d = 0.63) but not the other (d= 0.11), as well as enjoyment (d =1.11) and intrinsic motivation (d =0.83).

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“…British Journal of Educational Technology Vol 51 No 6 2020 of the importance of feedback in learning through the Labster simulations used in this study . This feedback can be accomplished by providing retrieval practice activities through multiple-choice questions and by providing feedback using a pedagogical agent in IVR (Makransky, Wismer & Mayer, 2018).…”

mentioning

confidence: 99%

Can an immersive virtual reality simulation increase students’ interest and career aspirations in science?

Makransky¹,

Petersen²,

Klingenberg³

2020

Brit J Educational Tech

Self Cite

106

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Science‐related competencies are demanded in many fields, but attracting more students to scientific educations remains a challenge. This paper uses two studies to investigate the value of using Immersive Virtual Reality (IVR) laboratory simulations in science education. In Study 1, 99 (52 male, 47 female) seventh (49) and eighth (50) grade students between 13 and 16 years of age used an IVR laboratory safety simulation with a pre‐ to posttest design. Results indicated an overall increase in interest in science and self‐efficacy, but only females reported an increase in science career aspirations. Study 2 was conducted with 131 (47 male, 84 female) second (77) and third (54) year high school students aged 17 to 20 and used an experimental design to compare the value of using an IVR simulation or a video of the simulation on the topic of DNA‐analysis. The IVR group reported significantly higher gains from pre‐ to posttest on interest, and social‐outcome expectations than the video group. Furthermore, both groups had significant gains in self‐efficacy and physical outcome expectations, but the increase in career aspirations and self‐outcome expectations did not reach statistical significance. Thus, results from the two studies suggest that appropriately developed and implemented IVR simulations can address some of the challenges currently facing science education.

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A gender matching effect in learning with pedagogical agents in an immersive virtual reality science simulation

Cited by 125 publications

References 46 publications

Priming urban learners' attitudes toward the relevancy of science: A mixed‐methods study testing the importance of context

Priming urban learners' attitudes toward the relevancy of science: A mixed‐methods study testing the importance of context

Motivational and cognitive benefits of training in immersive virtual reality based on multiple assessments

Can an immersive virtual reality simulation increase students’ interest and career aspirations in science?

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