All educators engage in formative assessment; however, to ensure educators are fostering equity in how diverse learners experience learning, the assessment toolkit needs to be expanded. Science education, like all other aspects of society today, has persistent issues of inequity rooted in issues of anti-Blackness, colonialism, and racism; however,…

Traditionally, assessing and grading students in science has been an exercise centered around points and percentages (Feldman, Kropf, and Alibrandi 1989; Prøitz 2013). However, with the introduction of the Next Generation Science Standards (NGSS) and the need to revisit grading practices stemming from the COVID-19 pandemic, an increasing number of…

In 2006 Jeanette Wing, a professor of computer science at Carnegie Mellon University, proposed computational thinking (CT) as a literacy just as important as reading, writing, and mathematics. Wing defined CT as a set of skills and strategies computer scientists use to solve complex, computational problems (Wing 2006). The computer science and…

Formative assessment has been defined as the process "to recognize and respond to student learning to enhance that learning during the learning." Formative assessment helps teachers identify strengths and weaknesses in their students' understanding, focuses students' attention on relevant information and ideas, and provides scaffolds…

The "Framework" (NRC 2012) and "Next Generation Science Standards" (NGSS Lead States 2013) require science teachers to think differently. Specifically, NGSS's performance expectations now require that three domains (disciplinary core ideas (DCI), crosscutting concepts (CCC), and scientific and engineering practices (SEP)) be…

The "Next Generation Science Standards" (NGSS Lead States 2013) lay out an ambitious agenda for students to simultaneously engage with disciplinary core ideas, crosscutting concepts, and scientific practices. This does not just mean new expectations for teaching; it also requires new formative assessments. In contrast to summative…

The ideas students bring to class and their perspectives on what is happening in the classroom change constantly. Keeping track of these changes is useful for adapting lessons, nurturing student self-reflection, increasing student ownership of learning, and building a teaching practice responsive to learners' needs. In this article, the authors…

One way to probe students' misconceptions about science during instruction is by using formative assessments. Described as assessments "for" learning rather than assessments "of" learning (Black and Wiliam 1998), they provide teachers with information about student understanding during instruction. Examples of formative…

Most laboratory activities conducted by students involve measurement, and measurement can only be as precise as the instrument with which it is made. When Julia Metz began her teaching career, she assumed most of the 10th grade chemistry students would have previously used common measuring devices such as metric rulers, graduated cylinders,…

School districts across the country have identified priority areas aligned to school improvement plans, such as formative assessment, differentiated instruction, and posted learning targets. Several studies indicate that these areas, coupled with high-quality instruction, may have significant returns in terms of student learning (Marzano 2013;…

"Mechanics" is a branch of engineering and physics that deals with forces and motion, and its fundamental principles apply to all objects, whether a bouncing ball, flowing stream, bicycle, or the human body. The field of "biomechanics" applies mechanics concepts specifically to the bodies of humans (and other animals).…