We outline an integrated STEM program implemented across multiple schools in a large urban district. The program presented an engineering design challenge using computer-aided design, computational modeling, and 3D printing, as a way to fully integrate the “T” in STEM. We engaged students in solving a real-world problem: optimizing a prototype of a Soap Box Derby Car by using CAD software, virtual and physical wind tunnel testing, and 3D printing. Students investigated the factors that impact the performance of a gravity racing car in order to optimize its performance, using concepts they learned about aerodynamic forces. The students then used CAD Software and virtual simulation testing to design and test a car shell. We will share integration strategies, highlights of the curriculum implementation in several middle school classrooms, and research results from student assessment and teacher interviews to discuss the impact of the curriculum on students’ learning and engagement.
TAKEAWAYS:
How to effectively integrate technology, engineering, and science in a STEM curriculum that focuses on engineering-specific technology tools and computational modeling, and uses science and engineering practices.
SPEAKERS:
Johnna O'Neal (Instructional Specialist: No City, No State), Katrina Halasa (Akron Public Schools: Akron, OH)