In "Making Sense of Sensemaking," readers will learn how to navigate the journey from traditional teaching to a dynamic, student-centered approach that emphasizes understanding over rote learning. Grounded in the latest educational research and aligned with the Next Generation Science Standards (NGSS), this book provides practical…

Science centers provide an engaging way for young learners to explore related concepts. The hands-on nature of each exercise secures the stimulation necessary to maintain focused attention. In this article, the authors describe a multi-day 5E (Engage, Explore, Explain, Elaborate, Evaluate) lesson on nocturnal and diurnal animals with science…

In this paper, we discuss what creativity may look like in the science classroom and what we learnt from teaching with student-generated diagrams to promote creativity in Year 7 Science lessons. As a result of this study, most students were able to communicate a deeper understanding of complex phenomena and were able to apply this knowledge both…

This paper describes a student-centered approach to teaching and learning physics in a high school classroom. The teacher designs and uses a 5E learning cycle to teach series and parallel electric circuits. This article provides an example of the implementation of 5E model for a physics lesson to address three-dimensional learning-science and…

Mitochondrial beta-oxidation is one of the most common modes of fatty acids' oxidation in most organisms, particularly mammals. Biochemistry undergraduate curriculum often contains the description of the process, with emphasis on ATP calculations for various types of fatty acids. During our decade long teaching experience in biochemistry, we…

More than ever, there is an increasing need for digital experimental learning environments in chemistry. The variety of digital learning approaches provided to students range from simple videos showing experiments to highly interactive virtual laboratories. Regardless of which approach is chosen, a digital learning environment should be adapted to…

Student-centered teaching has become increasingly common in higher education as researchers have demonstrated its efficacy in recent decades. Herein, we hope to establish an efficient problem-based learning (PBL) method, which can help upper-division students learn organic chemistry content by combining teaching materials, experimental literature,…

Students often struggle to understand the independence of velocity vectors in two-dimensional motion. Despite seeing classic projectile demonstrations, it is probably not obvious to most new students why the path of motion is parabolic. Likewise, first-year students might not predict that the path of motion is linear in two-dimensional vector…

"Didn't understand or not fully understand" is the most common situation that students experience when they learn medical biochemistry and molecular biology (MBMB). Therefore, the primary task of teaching MBMB is to help students overcome the difficulties in "conceptual understanding." The core of the solution to these problems…

Inquiry-based learning (IBL) is a requirement of school science education in Australia. Numerous student-centred strategies have been referred to as inquiry-based teaching (IBT), resulting in a lack of understanding of the exact nature of inquiry-based science learning within the science teaching profession. This article describes three essential…

Chemistry graduates follow many different career paths. Skills for Success allows students to develop professional skills of relevance to their ambitions by choosing project work from a range varying both in chemistry content and nature of activity. Students apply for a project, do their project, and reflect on what they have learned throughout.…

Retrosynthetic analysis is a topic that presents significant conceptual challenges to students. To enable a more active learning of introductory retrosynthesis, we implemented a flipped approach, delivered over a 4 year period, to a class size of between 18 and 29 biochemistry students per year. This provided more time for in-class peer group…

In this paper we discuss how and why core ideas can serve as the framework upon which chemistry curricula and assessment items are developed. While there are a number of projects that have specified "big ideas" or "anchoring concepts", the ways that these ideas are subsequently developed may inadvertently lead to fragmentation…

With a growing number of global challenges related to the environment, water, public health, and energy, there is an imminent need to teach chemistry in the context of its interconnectedness with other systems. Project- and problem-based learning are student-centered learning approaches which offer educators the opportunity to engage learners in…

Strategies for teaching NMR spectral interpretation in the undergraduate organic chemistry curriculum are often faculty-centered and can lead to student reliance on rote memorization and "guess and check" methods rather than critical-thinking skills for structure determination. This article describes a student-focused methodology for the…