Engaging Science Students with Handheld Technology and Applications by Revisiting the Thayer Method of Teaching and Learning

Organic chemistry instructors integrate handheld technology and applications into course lecture and lab to engage students with tools and techniques students use in the modern world. This technology and applications enable instructors to re-visit the Thayer Method of teaching and learning to create an updated method that works with 21st century students. The Thayer Method is based on the premise that students are willing and capable of making substantial preparation before coming to class and lab in order to maximize efficiency of student-instructor contact time. During this student preparation phase, we engage students with handheld technology and content applications including smart phone viewable course administrative materials; “flashcards” containing basic organic chemistry nomenclature, molecular structures, and chemical reactions; mini-lectures prepared using the Smart Board Airliner Interactive Tablet for upcoming class periods and laboratory technique videos demonstrating tasks they will perform as part of laboratory experimentation. Coupled with a student friendly course text, these handheld applications enable substantial student preparation before class and lab. The method, in conjunction with handheld technology and applications, has been used with positive results in our organic chemistry courses

The effects of integrating mobile devices with teaching and learning on students' learning performance: A meta-analysis and research synthesis

AbstractMobile devices such as laptops, personal digital assistants, and mobile phones have become a learning tool with great potential in both classrooms and outdoor learning. Although there have been qualitative analyses of the use of mobile devices in education, systematic quantitative analyses of the effects of mobile-integrated education are lacking. This study performed a meta-analysis and research synthesis of the effects of integrated mobile devices in teaching and learning, in which 110 experimental and quasiexperimental journal articles published during the period 1993–2013 were coded and analyzed. Overall, there was a moderate mean effect size of 0.523 for the application of mobile devices to education. The effect sizes of moderator variables were analyzed and the advantages and disadvantages of mobile learning in different levels of moderator variables were synthesized based on content analyses of individual studies. The results of this study and their implications for both research and practice are discussed

Using activity-oriented design methods (AODM) to investigatemobile learning

The past few years have witnessed significant interest and developments in researching mobile learning, with a lot of important contributions being made towards understanding and defining mobile learning. However, current research efforts are being redirected towards a new agenda to establish appropriate methods for investigating mobile learning, as this book testifies. This chapter contributes to this research effort by articulating how to adapt Activity-Oriented Design Methods (AODM – see Mwanza, 2002) for use in mobile learning research

Career Technical Education Teachers: Using Handheld Technology To Teach Essential Skills

This paper explores Career and Technical Education (CTE) teachers’ perspective of in-class use of handheld technology in learning environments with effective pedagogical practices that lead the way to improving classroom teaching. The technology for this study encompasses laptops, iPads, tablets, and cell phones, collectively referred to as “handhelds.” This study sought to consider teachers’ own experiences with the use of handheld technology devices in classrooms. The goal of this study was to examine how handheld devices provide a few ways or methods whereby technology can be integrated into curriculum design to help teacher-student interactions and in-class participation in order to promote a collaborative learning space that supports the students’ educational interests. Teachers with handhelds in classes may engage students effectively for learning and collaboration through the course content, using digital media to build collaborative learning environments. With handheld computers in class, the teacher can use different methods of teaching, including lectures, discussions, and small-group work to increase class participation (Sung, Chang, & Liu, 2016). Career and Technical Education (CTE) teachers use in-class handhelds as tools in constructive dialogue between teachers and students, thereby helping students to discover new meanings in their learning tasks. It can be used to help teachers meet their goals of helping students acquire in-depth knowledge of subject matter. The use of these technologies can create ways for teachers to engage students in learning in the classroom

A Perspective Review on Integrating VR/AR with Haptics into STEM Education for Multi-Sensory Learning

As a result of several governments closing educational facilities in reaction to the COVID-19 pandemic in 2020, almost 80% of the world’s students were not in school for several weeks. Schools and universities are thus increasing their efforts to leverage educational resources and provide possibilities for remote learning. A variety of educational programs, platforms, and technologies are now accessible to support student learning; while these tools are important for society, they are primarily concerned with the dissemination of theoretical material. There is a lack of support for hands-on laboratory work and practical experience. This is particularly important for all disciplines related to science, technology, engineering, and mathematics (STEM), where labs and pedagogical assets must be continuously enhanced in order to provide effective study programs. In this study, we describe a unique perspective to achieving multi-sensory learning through the integration of virtual and augmented reality (VR/AR) with haptic wearables in STEM education. We address the implications of a novel viewpoint on established pedagogical notions. We want to encourage worldwide efforts to make fully immersive, open, and remote laboratory learning a reality.publishedVersio