Hands-on STEM learning kit explores the engineering principles of gravitational and lateral forces.
- Assembly is required, but tools are not
- Bridge spans 5 feet long; demonstrating STEM concepts on a large scale
- Plywood beams and dowels are all high-quality, precision-cut birch
- Engages learners to discover new ideas about the physical world through assembly and play
Can five 16" dowels, ten 2 ft long pieces of wood, and 26 rubber bands (total weight of 5 lbs.) be used to build a bridge which spans 5 feet and can carry 60 lbs.? You bet, Leonardo da Vinci's bridge can do it. Once you've caught the principle behind it, who knows what you'll build? Leonardo da Vinci invented this bridge between 1485 and 1487 for his patron Cesar Borgia. Cesar was looking for a light and strong bridge that his troops could deploy quickly one that required no woodworking expertise or knowledge. Da Vinci's bridge fit the bill perfectly. It has only 2 unique parts and is completely self-supporting. For simplicity, this kit uses rubber bands as fasteners. Using rubber bands has the added benefit of allowing us to see how force is transferred in the bridge. The rubber bands stretch as weight is applied, showing how gravitational forces are transformed into lateral forces.
Kit includes: (10) 0.75×1.5×24" wood beams, (5) 0.75×16" dowels, (34) #64 rubber bands, cardboard storage box, and instructions for assembly and experimental activities.