Three-dimensional learning is the name given to the vision for science education described in the National Academies consensus report "A Framework for K-12 Science Education." Of the three dimensions described in the Framework, the Disciplinary Core Ideas and the Science and Engineering Practices have been enthusiastically adopted by…

Since the COVID-19 pandemic, there has been an increase in healthcare and related science majors at the undergraduate level. This presents an opportunity to introduce health science training in middle school science classes to familiarize students to various healthcare-related fields. The pharmaceutical science-based hands-on activities for middle…

The International Union of Pure & Applied Chemistry (IUPAC) launched a global project in 2017 to infuse systems thinking into chemistry education, motivated in part by the desire to help equip chemists and citizens to better address the complex, global challenges our society currently faces. One important early outcome of the IUPAC Systems…

Collaborations and partnerships across disciplines are becoming increasingly recognized as valuable endeavors toward solving emerging global challenges in our rapidly changing world. Thus, it is crucial to create STEM educational strategies that infuse diverse and interconnected perspectives among scientists, policymakers, and the general public.…

Connecting the behavior of invisible (to the naked eye) particles governed by the principles of quantum mechanics to the world we can see and touch requires a host of inferences, almost none of which can be extrapolated from experience. Molecular-level sensemaking thus relies upon intellectual resources that must be developed in large part by…

In this paper, we report on the implementation of a novel compute-to-learn pedagogy, which is based upon the theories of situated cognition and meaningful learning. The "compute-to-learn" pedagogy is designed to simulate an authentic research experience as part of the undergraduate curriculum, including project development, teamwork,…

Chemistry taught in high schools typically has group interaction components designed to provide opportunities for groups of two or more students to collaborate. Such opportunities, however, can lead to diminished learning among some students, as domination, group dissonance, and/or non-participation among group members can derail the collaborative…

Measured magnetic susceptibilities of paramagnetic substances must typically be corrected for their underlying diamagnetism. This correction is often accomplished by using tabulated values for the diamagnetism of atoms, ions, or whole molecules. These tabulated values can be problematic since many sources contain incomplete and conflicting data.…

Describes a method for adapting Piagetian theory to the teaching of chemistry by increasing active student thinking in lectures. Laboratory demonstrations are supported as encouraging Piagetian self-regulations. (CS)

Discusses seven key concepts in Ausubel's learning theory which function to guide research and teaching. Also discusses concept mapping and Gowins Vee, providing examples of how they are used in chemistry instruction. (JN)

Describes a first-year course in General Chemistry that incorporates the principles of active engagement and the learning cycle paradigm. Recommends student small-group instruction and guided-inquiry laboratory investigations. (WRM)

Presents some aspects of concept learning theory (what concepts are and how to analyze them) and proposes ways to improve the teaching of concepts in introductory chemistry courses. Emphasizes the lecture format, although ideas presented are applicable to other teaching methods. (Author/JN)

Suggests a model of human cognition by describing similarities between human and electronic computers. This model might guide the development of software so that it is sufficiently powerful and flexible to be of value to human computers as they construct new knowledge in chemistry. (JN)

Briefly compares/contrasts two learning theories. Purpose of the first is to inform while the second seeks to lead students to adjust understandings held about a field and/or a concept. Each theory is then related to the purpose of education, suggesting that the second is comparable with recent work in cognitive psychology. (JN)

Two presentations at the 1981 International Conference on Chemical Education are summarized: (1) current and future rationales for chemistry instruction and use of Gowin's V for more effective chemistry teaching and (2) creative adaptability toward challenges of chemistry content, society, and the individual, focusing on learning chemistry by…