We describe a four-step strategy used in our professional development program to help elementary science teachers recognize and create lesson plans with coherent conceptual storylines. The conceptual storyline of a lesson refers to sequencing its scientific concepts and activities to help students develop a main scientific idea and, often, is an implicit component of a lesson plan. The four steps of this learning strategy are, 1) Building awareness of conceptual storylines; (2) Analyze the coherence of the conceptual storyline of existing lessons; (3) Creating an explicit conceptual storyline as part of the planning process; and (4) Promote conceptual coherence throughout the storyline. We provide examples of how these steps were developed in our professional development program as well as evidence of teachers’ learning. We also discuss practical implications for using conceptual storylines in professional development for science teachers.
In this article, we describe the design and use of multimedia modules to support teacher learning of the practice of scientific argumentation. We developed four multimedia modules, available online for use in professional development or preservice classes, incorporating research-based features designed to support teacher learning of argumentation. Specifically, the features underlying the design of the modules include: (1) providing images of practice, (2) problematizing instruction, (3) offering the student perspective, and 4) encouraging teacher reflection. Each module supports teacher educators in engaging teachers in learning about argumentation through activities utilizing these features. We describe the rationale for designing multimedia teacher learning modules that incorporate these features. We also describe how these features are incorporated into learning activities by focusing on one session from one module. We then illustrate the utility of these modules by providing one example of how these resources can assist teacher educators to support particular district goals around argumentation by adapting and modifying the modules. This article features the ways these online modules are an innovative support for teacher learning, by providing multimedia resources and the opportunity for increased user flexibility. Finally, we discuss some preliminary findings around teachers’ use of the features in these learning modules.
The new Next Generation Science Standards (NGSS) call for a dramatic shift in science teaching and learning, with a focus on students engaging in science practices as they make sense of natural phenomena. In addition, the NGSS have a significant and explicit focus on climate change. The adoption of these new standards in many states across the nation have created a critical need for on-going professional learning as inservice science educators begin to implement three-dimensional instruction in their classrooms. This paper describes an innovative professional learning workshop on climate change for secondary science teachers, designed by teacher educators and scientists. The workshop was designed to improve teachers’ capacity to deliver effective three-dimensional climate change instruction in their classrooms. We present the structure and goals of the workshop, describe how theories of effective professional learning drove the design of the workshop, and address the affordances and challenges of implementing this type of professional learning experience.
Research has shown the importance of an explicit-reflective approach to improving individuals' understanding of nature of science and scientific inquiry. What has been less explored is a variety of ways for carrying out an explicit-reflective approach. The purpose of this paper is to share a particular strategy. At the heart of the approach was the comparison of an in-class inquiry based activity and a reading of a sociological account of scientific work. Following this exposure, participants are able to generate a number of key aspects of NOS/SI. Additional suggestions, as well as misconceptions, are able to be used as the starting point for further class discussion. The activity has been utilized in preservice methods courses and inservice professional development programs for teachers at all levels, as well as classes for non-teacher education students.