In this article, we investigate the critical intersections of AI, academic integrity, and disability in the context of a large undergraduate course. Our aim was to adapt the course to respond to generative AI (GenAI) to avoid entrenching barriers for students, and instead teach them how to use GenAI tools in ways that deepen their learning and…

This chapter examines the emotional experience of teachers who are designing courses for digital learning environments. Recommendations for gaining confidence and coping with the emotional stress of rethinking a course for online learning are addressed.

This chapter considers the relationship between pedagogical support offered by centers for teaching and learning (CTLs) and newer services such as assessment and educational technologies through the lens of gender, arguing that changes to the structure, mission, and staffing of CTLs may have unintended consequences if these unexamined, gendered…

This chapter introduces a University of Iowa effort to enhance and support active learning pedagogies in technology-enhanced (TILE) classrooms and three elements that proved essential to the campus-wide adoption of those pedagogies. It then describes the impact of those professional development efforts on the curricula and cultures of three…

Students' relationships with authority and information are changing rapidly, and this presents a new set of interpersonal boundary challenges for faculty. The topic of setting boundaries often conjures up thoughts of how to protect oneself. The intent of this chapter is to explore how good rapport between teacher and student can be developed and…

Educational development, which the authors use to refer to the field of professional and strategic development associated with university and college learning and teaching, can be described in many ways by referring to its different aspects. In this article the authors endeavor to categorize many of the models that have been used to describe…

In an era of global competition and a technology-based economy, it is increasingly important that college students graduate with a solid foundation of knowledge and understanding of science and mathematics. They must be able to use their scientific knowledge on their jobs and in their role as citizens of a society where complex policy and resource…

One strategy for improving the quality of undergraduate education, with potential impact over decades, involves greater attention to the preparation of doctoral students who will soon fill the faculty ranks. Doctoral education is a time of socialization for future careers, including faculty work. In recognition of the important role of doctoral…

Many significant changes have taken place in higher education since the first issue of "New Directions for Teaching and Learning" (NDTL) was published in 1980. The purpose of this final chapter in this issue is to consider the directions that higher education may be taking in the future. Although it is difficult to predict accurately what will…

One of the most important elements in achieving significant curricular and pedagogical innovation is creating a climate that promotes and acknowledges the contributions of those who engage in these efforts. It is critical that this climate be systemic, existing at the department, college, and university levels. In the past few years, the view that…

The investments of federal agencies in science, technology, engineering, and mathematics (STEM) education are aimed at a single core question: How can educators ensure that the United States will have a well-prepared and innovative science and technology workforce in an era of increasing global competition? As the exploration of what this entails…

Undergraduate education in the STEM fields (science, technology, engineering, and mathematics) needs improvement, a conclusion that multiple national reports over the past two decades have reached. Critiques of STEM education may emphasize different aspects of the STEM undergraduate education problem. Nevertheless, each delivers one clear and…

Efforts to reform and improve teaching and learning in the undergraduate science, technology, engineering, and mathematics (STEM) disciplines have grown increasingly stronger and more focused over the past two decades. Since the early 1990s, some notable unifying developments have given coherence to such initiatives, as well as other developments…

The 1996 Advisory Committee report to the National Science Foundation, "Shaping the Future: New Expectations for Undergraduate Education in Science, Mathematics, Engineering, and Technology," called for many changes in STEM (science, technology, engineering, and mathematics) education. The committee's overriding recommendation was that "all…

Looks at the effects of advancing technology on academic life, using a simplified version of a scheme for examining diffusion of innovations. Attention is given to technology's impact on teaching, research and scholarship, and service and outreach functions, and on special challenges posed by technology, barriers to its use, and its implications…