The pivotal 2009 National Academy of Engineering report on engineering in K-12 education states that the presence of engineering in pre-college education is an important phenomenon because of engineering’s impact on K-12 STEM education. The NAE report then explores a number of questions about the ways in which engineering is taught in K-12 classrooms, including issues such as the curricular and instructional resources used, interaction with other STEM subjects, and teacher preparation. This paper explores these and related questions surrounding the adoption of non-traditional engineering

The underwater environment presents novel challenges that can facilitate unique learning experiences for students engaged in robotics programs. Although the number of underwater educational robotics programs is small by comparison to other forms of K-12 robotics initiatives, several do exist, which have varying learning goals, implementation approaches, and tools. This chapter describes an underwater robotics program using LEGO® MINDSTORMS® components and related materials for middle and high school students. The program, known as WaterBotics™, has undergone an extensive, four-year research

This paper will examine a robotics curriculum that is impacting educators and youth in both formal, middle and high school classrooms as well as in a variety of informal learning environments. We have made comparisons between formal and informal learning environments in an effort to understand the varying impacts of this novel program on student learning of science concepts, their skills and abilities in applying engineering design and problem-solving, and their awareness and interest in engineering careers and the individuals who pursue these careers. Data from teachers, informal educators

Designing and building robots to perform a series of increasingly complex tasks in an underwater environment is the vehicle to engage, interest, and cultivate 36 middle and high schools inlearning engineering, science and information technology. Using LEGO components and a hands-on, team-based, iterative design process, teachers and students learn how to build robotsthat must operate underwater in a three dimensional space. In building their robot to perform these tasks (proceed in straight line path across a pool, negotiate a slalom course, ascend/descendin a water column, and grab/deposit a

The BUILD IT project is a university-school collaboration to increase precollege student and teacher interest and achievement in engineering, science, mathematics, and information technology through a novel underwater robotics project that utilizes LEGO Mindstorms kits, theNXT programmable brick, and related equipment. The project is being implemented in 36 socioeconomically and academically diverse schools throughout New Jersey for students in Grades 7-12. Through a series of increasingly complex challenges, BUILD IT exposes students to science,mathematics, and engineering concepts such as

The Build IT project is a university-school collaboration to increase precollege student interest and achievement in engineering, science, mathematics, and information technology through a novel underwater robotics project that utilizes LEGO Mindstorms kits, the NXT programmable brick, and related equipment. The project is being implemented in 36 socio-economically and academically diverse schools for students in Grades 7-12. Through a series of increasingly complex challenges, Build IT exposes students to science, mathematics, and engineering concepts such as buoyancy, Newton’s Laws, momentum