Describing the Experiences of Students with ADHD Learning Science Content with Emerging Technologies

Emerging technologies, such as virtual reality, haptics, and 3-dimensionality, provide novel opportunities to allow students to investigate scientific phenomena by fostering perceptions of virtual presence, the feeling of being sensorially immersed and authentically interacting within a computer-generated virtual learning environment (VLE). Neurotypical learners are largely represented in VLE research on science learning, with fewer with neurodivergent learners, such as students with ADHD. This descriptive case study sought to address the dearth in the literature on neurodivergent students’ experiences, with emerging technologies, for learning science. Specifically, the case describes the extent to which neurodivergent learners experience the affordances of VLEs for science learning, as compared to their neurotypical peers, in: zooming, spatially orienting and rotating objects, viewing multiple representations and abstract processes in real-time, as well engaging in risk through multiple trials. Five middle grades students (diagnosed with ADHD) were assessed and observed using a tool (zSpace) that combines emerging technologies to learn cardiac anatomy and physiology. Students’ utterances of virtual presence and technological affordances were coded, and frequency counts and percentages were calculated, both individually and collectively. The results found that students most described sensory (41%), control (30%), and realism (26%) constructs with fewer reports of holding their attention (3%). Analyses of cardiac assessments found gains in scores for spatial rotation and viewing abstract processes, no change in score in viewing multiple representations, and a decrease in scores for spatial orientation. This case study provides unique insight into the needs of neurodivergent learners when using emerging technologies for science learning.

Supporting Students with an Autism Spectrum Disorder in Engineering: K-12 and Beyond

Individuals with disabilities, including individuals with an autism spectrum disorder (ASD), are underrepresented in science, technology, engineering, and mathematics (STEM) fields. With the importance of STEM skills in future employment and other disciplines, effective instructional strategies must be identified to enhance early and sustained access to STEM for students with ASD. However, the literature identifying effective STEM-specific supports and practices for this population of students is sparse and regarding engineering, there are no empirical studies that focus on teaching engineering skills to students with ASD. Therefore, the article aims to provide an overview of the available literature on the perspectives of engineering educators and suggested strategies aimed at supporting students with ASD in K-12 instruction and higher education. Additionally, recommendations regarding employment preparation and shifting the workplace environment to support individuals with ASD are presented. The available literature reveals limitations and implications for future research including the presentation of the voices of individuals with ASD across the spectrum. Furthermore, there continues to be work that must be done to prepare educators, employers, peers, and colleagues to better understand the disability and support individuals with ASD in all contexts.

An Artificial Intelligence Tool for Accessible Science Education

One of the most important issues in accessible science education is creating a laboratory workspace accessible to blind students or students with visual impairments (VI). Although these students are often provided access to the science lectures, they are usually denied full participation in hands-on laboratory work. Current solutions to this problem focus on providing special accommodations such as asking sighted lab partners to complete the hands-on work. Although the accessibility of laboratory devices in modern science education has been improved in recent years, students with VI often remain passive learners. In this work, we developed a new artificial intelligence tool, the MSU Denver Virtual Lab Assistant (VLA), using Amazon Web Services (AWS), Amazon Alexa Skills Kit (ASK), Alexa smart speaker, and a microcontroller (Raspberry Pi). The VLA can be used as a virtual assistant in the lab in combination with other access technologies and devices. The VLA allows students with VI to perform the hands-on laboratory work by themselves simply using voice control. The VLA can be accessed through any smartphone or Amazon Echo device to assist general science lab procedures. The VLA is designed to be applicable to different science laboratory work. It is also compatible with other common accessible electronic devices such as the Talking LabQuest (TLQ). We believe that the VLA can promote the inclusion of learners with VI and be beneficial to general accessible science education work.

The Perceptions of Teachers of Students with Visual Impairments on Students with Visual Impairments and Graphing: How to Teach

Many gaps exist in what is known around teaching students with visual impairments (SVI) about how to use graphs (Rosenblum et al., 2018; Rosenblum & Herzberg, 2015; Zebehazy & Wilton, 2014a;2014b;2014c). When teachers first experience a student with a visual impairment, some of the questions that come to mind are: How can I be sure this student understands what I am saying about these graphs I show on the board? Will this student be able to keep up? The study herein, based on findings from Author (2018), serves as a guide for teachers to consider in the case that SVI enroll in their STEM courses. The author reports findings that answer questions that focus on how to teach SVI so they can be successful in mathematics and science courses, as well as the kinds of individuals who, given their unique training and experience with SVI, can be helpful resources.

Making Environmental Education Accessible for All Students: Inclusion of students with emotional and behavioral disabilities

One of the most difficult tasks of an educator is engaging students in rigorous learning opportunities. A greater challenge is finding ways in which environmental education can be accessible to all students, especially those with emotional and behavioral disabilities. This article and lesson provides best practices for engaging students with high incidence disabilities in environmental concepts through varied representations and expressions of content. In addition, teaching collaborative protocols to fully engage students with social skills challenges within the local environment are discussed. The instructional approaches are aligned to increasing academic discourse, building positive peer-peer relationships, and observation using multiple modalities.

Publishing Successful Practitioner (Teaching Techniques) Manuscripts for the Journal of Science Education for Students with Disabilities

The Journal of Science Education for Students with Disabilities (JSESD)d is the premier journal focusing on the intersections of science education for students with disabilities. JSESD provides valuable content and context for teachers and researchers on what works in advancing science access, practices, and knowledge for all students across settings, grades, ages, and exceptionality. One way in which JSESD supports teachers and researchers is through publication of practitioner manuscripts also referred to as Teaching Techniques. These manuscripts focus on the how-to portion of science education. That is, JSESD practitioner publications give detailed information on how-to provide science instruction or how-to implement instructional strategies or supports, hence Teaching Techniques. The purpose of this paper is the provide guidance to authors on what to include (or not include) in Teaching Techniques practitioner manuscript submissions to JSESD for successful publication.

The PLAYground: An Online Summer Camp for Deaf and Hard of Hearing Children

The PLAYground summer camp was developed by the Playful Learning Lab (PLL) at the University of St. Thomas, an undergraduate research group with a focus on learning through play. Through a partnership with a local school serving deaf and hard of hearing students, the PLAYground was designed to provide content to the deaf and hard of hearing community. Over the course of 8 weeks, 84 students were provided with materials that correspond with activities on the website. Each activity is accompanied with a lesson plan and video, both of which are available in English, American Sign Language, Spanish, and Arabic. Students participating in the PLAYground also had the option to meet with camp counselors via Zoom weekly to build community and create together.

Elevating the Voices for All Learners through Shared Stories of Science Learning

This study examines the science learning experiences across the lifespan of two groups of college students: adults with intellectual and/or developmental disabilities in a post-secondary inclusive program, and adults in a preservice secondary education teacher candidate program. Data, in the form of personal narrativescience storieswere collected using a paired-interview approach in which students from each group interviewed one another about their science learning across their lifespans, and recorded responses using an online form. Across the stories, several clear themes emerged. Similarities and differences were found across and within the groups and are shared in a narrative format. Trends that emerged both across and within groups are shared,and recommendations are made for current and future teachers for best practices in teaching science to all students, including those with a variety of disabilities.