Revoicing, Bridging, and Stuttering Across Formal, Physical, and Virtual Spaces

Author(s):  
Grant Van Eaton ◽  
Douglas B Clark ◽  
Pratim Sengupta

As digital games and simulations become more commonplace in educational settings, it is important to document and analyze the way such digital learning environments merge with the traditional discourses and spaces of classroom-based learning environments. The current study contributes toward this goal by analyzing a representative transcript from a veteran traditional teacher's discussion with her class about the Newtonian relationships at the heart of a digital learning game she has integrated into her physics curriculum. This article presents an interaction analysis of the material, virtual, and abstract spaces employed and navigated across by the teacher to clarify common challenges as well as opportunities. The authors then analyze subsequent transcripts of student-teacher interactions for evidence of impact on student learning and understanding.

Author(s):  
Gila Kolb

AbstractThis chapter demonstrates the potential to challenge power relations, and reconsider teaching practices and conceptions of learning bodies. How do bodies in a digital learning setting perform are read and observed? How they can be included in learning settings? Since teaching and learning increasingly take part in digital learning environments, especially since the outbreak of the COVID-19 global pandemic, digital art teaching needs rethinking toward the knowledge of learning bodies and of the perception of learning in the digital realm: a digital corpoliteracy.


Author(s):  
Irene Mwingirwa Mukiri ◽  
Bonface Ngari Ireri

Digital literacy indisputably plays a momentous role in our future lives (Allen, 2007). This chapter considers technology integration at various levels of school, ranging from primary to tertiary levels. It further shows results of a practical quasi experimental study done in Kenyan secondary schools showing how scores of students learning mathematics in a technology-based environment compared with those learning using conventional methods of teaching. The students' scores in examinations showed that the students learning using the selected application known as GeoGebra performed better and girls performed equally as well as boys when taught mathematics in a technology environment. The chapter underscores the importance of technology to improve teaching and learning process and it has promise to bridge the gap in performance between boys and girls in Science Technology Engineering and Mathematics (STEM).


Sign in / Sign up

Export Citation Format

Share Document