Abstract
Efforts for recruiting and retaining students in engineering programs are evident in many postsecondary institutions around the world. These efforts include outreach programs at both elementary and secondary school level, as well as projects that develop capacities beyond technical content—often taught as declarative and procedural knowledge. The mandate of the Galileo Education Network Association includes the design of rich learning environments engaging K – 12 students in authentic tasks: tasks that resemble the real work of professionals such as engineers. We describe the experience of enacting a seven-session engineering project in thermodynamics with Grade Ten students. Special attention is paid to formative assessment as an essential support for students' learning along the project. The initial project resulted from the collaboration—as a means for teacher professional development—between this network association and the mathematics and science teachers in a western Canadian high school. We propose that programs for teacher professional development in mathematics and science should include a focus on tasks that resemble the work of engineering in order to design authentic, engaging learning tasks, and assessing strategies that support and enhance student learning.
Highlights
In the last few years there has been a call for including capacities and competencies of engineers at both undergraduate institutions and in outreach programs aimed at attracting and recruiting students into science, technology, engineering and mathematics (STEM) careers
The purpose of this paper is to showcase an example of a project in thermodynamics, with a particular focus on the formative assessment provided to students during the project
The enactment of this project is a result of previous collaborations of mathematics and science teachers and mentors from Galileo Educational Network Association (GENA) as a means of teacher professional development
Summary
In the last few years there has been a call for including capacities and competencies of engineers at both undergraduate institutions and in outreach programs aimed at attracting and recruiting students into science, technology, engineering and mathematics (STEM) careers. The purpose of this paper is to showcase an example of a project in thermodynamics, with a particular focus on the formative assessment provided to students during the project The enactment of this project is a result of previous collaborations of mathematics and science teachers and mentors from Galileo Educational Network Association (GENA) as a means of teacher professional development. We propose that training teachers for this type of projects should be included in professional development programs, which may be joined by engineers interested in outreach initiatives aimed at preparing and attracting students to STEM related postsecondary paths. GENA has provided teacher professional development programs with an inquiry-based approach to many schools in Canada This approach is based on the assumption that understanding, and learning, is constructed through joint work and conversation while posing and solving problems, making discoveries and testing them in the course of shared activity [15]. In this paper we have a particular focus on the second and third principles described in terms of intellectual engagement and formative assessment in he following subsections
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