By Marshall Williams
Last week, our team at OnScale Zoomed into the Future Educational Technologies Lab at Tufts University to look at how quickly engineering students could pick up a basic simulation skillset. The Center for Engineering Education and Outreach (CEEO) selects summer interns based on their commitment to improving engineering education, and includes highschool to college graduate students, mainly in engineering disciplines.
The students entered the session with no prior OnScale Solve experience and spent the first 20 minutes following a mechanical simulation analysis example of a bike pedal. By the end of the next hour, they had imported, meshed, restrained, and ran studies on their own Onshape models they had built in a previous hackathon design project: a full CAD playground.
The most amazing consequence of the event, however, did not come from their intuitive usage of OnScale Solve. Because of students’ varying CAD familiarity, they constantly refined their own understanding of FEA by teaching it to their peers. Through explaining meshing, simulation setup, result interpretation, and next steps to take in design, students drove their own learning!
The Problem
The Tufts students worked towards simulating a rider on the Bike Pedal design below.
After flying through the prepared example, they soon were off the ground with their own designs. They tested different materials and small design changes on their own models, some of which are shown below.
Simulation in the Classroom
There is a big gap between coursework and design. Moving from trusses in statics to designing bridges, which may have beam, shell, and solid elements, is like taking a team to the bottom of Everest and saying “Hey! Scale the mountain and figure it out yourself.” We need a scaffolding that enables students to scale the mountain of engineering expertise, and simulation can fill the gaps. Simulation connects theory and application to enable just-in-time, problem-based learning.
“Education is the greatest tool we can give the next generation. The Future Educational Technologies Lab is committed to finding the educational tools that open students minds and channel their skills.” – Chris Rogers, Tufts Professor
For K-12 students drawn to STEM, enabling them to push themselves to previously unimaginable levels of expertise perfectly sums up the mission of colleges worldwide. With simulation, teachers and students alike experience the best way to design: design in the cloud.
Kommentarer